Number NameSDP_REQ-1 Mode handlingSDP_REQ-10 Observation control - statusSDP_REQ-100 Authorisation credential clientSDP_REQ-101 Authentication provider listSDP_REQ-102 User RolesSDP_REQ-103 Proprietary PeriodSDP_REQ-104 Proprietary metadata periodSDP_REQ-105 Proprietary data periodSDP_REQ-106 Product distributionSDP_REQ-107 Identify distribution destinationSDP_REQ-108 Delivery performanceSDP_REQ-109 Delivery interruptionSDP_REQ-11 Frequency handlingSDP_REQ-110 RC storage capacitySDP_REQ-111 RC data transfer rateSDP_REQ-112 RC storage rateSDP_REQ-113 RC analysis executionSDP_REQ-114 Analysis output storageSDP_REQ-115 Metadata replicationSDP_REQ-116 RC expected downtimeSDP_REQ-117 RC unexpected downtimeSDP_REQ-118 Delivery strategySDP_REQ-119 Delivery Count LimitSDP_REQ-12 Frequency availabilitySDP_REQ-120 Data delivery prioritySDP_REQ-121 Data delivery budgetSDP_REQ-122 High priority deliverySDP_REQ-123 Low priority deliverySDP_REQ-124 Delivery strategy data modelSDP_REQ-125 Trigger data removalSDP_REQ-126 Trigger data updateSDP_REQ-127 RC Product RenewalSDP_REQ-128 Community AnalysisSDP_REQ-129 View Large DatasetsSDP_REQ-13 Frequency control - switchSDP_REQ-130 VOEvent DeliverySDP_REQ-131 Supported File FormatsSDP_REQ-132 AnnotationsSDP_REQ-133 Periodicity Search Post ProcessingSDP_REQ-14 Availability - ComputeSDP_REQ-147 Periodicity Search Number of BeamsSDP_REQ-148 Non-imaging Transient Search Number of BeamsSDP_REQ-15 Availability - Data LayerSDP_REQ-16 Availability - DeliverySDP_REQ-17 Scheduling - ComputeSDP_REQ-18 Scheduling - Data LayerSDP_REQ-181 Science Processing Centre South AfricaSDP_REQ-182 Science Processing Centre AustraliaSDP_REQ-183 Operations

Signature:

Email:

Signature:

Email:

Ferdl Graser (Feb 9, 2015)Ferdl Graser

SKA Systems Engineer

ferdl@scs-space.com

SKA-Science Data Processor

Ferdl Graser

Paul Alexander (Feb 9, 2015)Paul Alexander

SDP Lead

pa@mrao.cam.ac.uk

University of Cambridge

Paul Alexander

SDP_REQ-184 Data Centre PUESDP_REQ-185 Safety ComplianceSDP_REQ-186 Cable ManagementSDP_REQ-189 Ease of Physical AccessSDP_REQ-19 Scheduling - DeliverySDP_REQ-190 Assembly SpaceSDP_REQ-192 Spare Parts StorageSDP_REQ-193 Comms RoomSDP_REQ-194 Upgrade SpaceSDP_REQ-195 SDP availabilitySDP_REQ-196 Ease of Physical Access (Clearance Parameters)SDP_REQ-198 Physical footprintSDP_REQ-199 Point LoadingSDP_REQ-2 Capability HandlingSDP_REQ-20 Scheduling - FeedbackSDP_REQ-200 IlluminationSDP_REQ-201 Animal IntrusionSDP_REQ-202 Seismic ResilienceSDP_REQ-203 Sand and DustSDP_REQ-204 Fungal GrowthSDP_REQ-205 Fire Suppression SystemsSDP_REQ-206 Computing equipment temperature controlSDP_REQ-207 CondensationSDP_REQ-208 Storage HumiditySDP_REQ-209 Humidity ControlSDP_REQ-21 Control - ComputeSDP_REQ-210 Liquid Cooling for compute racksSDP_REQ-211 EMCSDP_REQ-212 Heatwave CoolingSDP_REQ-213 Fire Suppression Systems Standards ComplianceSDP_REQ-214 Air quality for equipmentSDP_REQ-216 Storage TemperatureSDP_REQ-217 Parts Storage TemperatureSDP_REQ-218 Assembly Area TemperatureSDP_REQ-219 CardboardSDP_REQ-22 Control - Data LayerSDP_REQ-221 Fire RiskSDP_REQ-222 Plant FailureSDP_REQ-223 Cooling UPSSDP_REQ-224 Liquid SpillSDP_REQ-225 RFI emissionsSDP_REQ-226 Air qualitySDP_REQ-228 Security System EffectsSDP_REQ-229 Visitor PolicySDP_REQ-23 Control - DeliverySDP_REQ-230 Visitor ImpactSDP_REQ-232 Cable Tray AccessSDP_REQ-233 Sound LevelSDP_REQ-234 Power Supply TypeSDP_REQ-236 UPS

SDP_REQ-237 Power ReliabilitySDP_REQ-238 Power LoadingSDP_REQ-239 Power MonitoringSDP_REQ-24 Control - FeedbackSDP_REQ-240 Power MaintenanceSDP_REQ-241 SDP to INFRA interfaceSDP_REQ-242 SaDT interfaceSDP_REQ-244 Power controlSDP_REQ-245 Power MonitoringSDP_REQ-247 Data Layer ManagementSDP_REQ-248 Data Life Cycle ManagementSDP_REQ-25 Independent OperationsSDP_REQ-250 DB InterfaceSDP_REQ-251 ConcurrencySDP_REQ-252 Concurrent WorkflowsSDP_REQ-253 Workload BalanceSDP_REQ-254 ProvenanceSDP_REQ-255 Tracing DataSDP_REQ-256 Discard Scheduling BlockSDP_REQ-257 Sky Model AccessSDP_REQ-26 Resource sharingSDP_REQ-260 Archive BackupSDP_REQ-261 Restoring Archive Operations of a failed siteSDP_REQ-262 Data Layer Product DistributionSDP_REQ-263 Data Migration DesignSDP_REQ-264 Access RulesSDP_REQ-265 Continuous Performance Monitoring MetricsSDP_REQ-266 Status InformationSDP_REQ-267 Availability MetricSDP_REQ-268 RejuvenationSDP_REQ-269 Storage Technology TransitionSDP_REQ-27 Observation control - switchingSDP_REQ-270 Archive Security TraceabilitySDP_REQ-271 Data ProductsSDP_REQ-273 Cut-outsSDP_REQ-274 Single Sign-OnSDP_REQ-275 Remote ProcessingSDP_REQ-276 Data Product ProvenanceSDP_REQ-277 User Defined Access Control SDP_REQ-278 Local sky modelSDP_REQ-279 User-defined Group ManagementSDP_REQ-28 Precursor integrationSDP_REQ-281 Backup sitesSDP_REQ-282 Backup Archive RetrievalSDP_REQ-283 Restore archive accessSDP_REQ-285 AccessibilitySDP_REQ-286 Levels of access to the archiveSDP_REQ-287 Continuous performance monitoring.SDP_REQ-288 Telescope ModelSDP_REQ-289 Archive lifetime.

SDP_REQ-29 Targets of OpportunitySDP_REQ-290 Secure Archive EnvironmentSDP_REQ-3 Observation HandlingSDP_REQ-30 Graceful degradationSDP_REQ-301 SDP ingest data rateSDP_REQ-31 Graceful degradation - evaluationSDP_REQ-32 Graceful degradation - reportingSDP_REQ-33 Flagging controlSDP_REQ-34 Self testingSDP_REQ-35 AlarmsSDP_REQ-357 Health, Safety and Environmental requirements

SDP_REQ-358 Operational requirementsSDP_REQ-359 EMC and RFI requirementsSDP_REQ-36 Alarm timestampsSDP_REQ-360 Security requirementsSDP_REQ-361 Equipment and Component requirementsSDP_REQ-362 Maintenance, Test and Support requirementsSDP_REQ-363 Production and Manufacturing requirementsSDP_REQ-37 Alarm latencySDP_REQ-372 Early science processing capabilitySDP_REQ-375 SDP platform managementSDP_REQ-376 Platform management interface to LMCSDP_REQ-377 System health monitoringSDP_REQ-378 Deployment systemSDP_REQ-379 SchedulerSDP_REQ-38 Metadata inputSDP_REQ-380 Scheduler InterfaceSDP_REQ-381 Scheduler inputSDP_REQ-382 Component system consistencySDP_REQ-383 Data IntegritySDP_REQ-384 Notification EventSDP_REQ-385 Web InterfaceSDP_REQ-386 Continuum imaging pipelineSDP_REQ-387 Spectral line emission pipelineSDP_REQ-388 Spectral line absorption pipelineSDP_REQ-389 Slow transient pipelineSDP_REQ-39 Metadata proxy

SDP_REQ-390 Multi-frequency synthesis imagingSDP_REQ-392 PeelingSDP_REQ-395 Additional Visibility AveragingSDP_REQ-396 LSM subtractionSDP_REQ-397 ImagerSDP_REQ-398 Gridding & de-griddingSDP_REQ-399 Anti-aliasing kernelSDP_REQ-4 Capability availabilitySDP_REQ-40 Quality assessment interfaceSDP_REQ-400 w-kernelSDP_REQ-401 A-kernelSDP_REQ-402 Fourier Transform AlgorithmSDP_REQ-403 DeconvolutionSDP_REQ-404 Image plane spectral averagingSDP_REQ-405 Image plane averaging 2SDP_REQ-41 Performance assessmentSDP_REQ-412 SKA1_Survey spectral dynamic range.SDP_REQ-417 Calibration pipeline.SDP_REQ-42 Performance goalsSDP_REQ-424 Polarisation purity.SDP_REQ-43 Quality assessment calculationSDP_REQ-430 Flux scaleSDP_REQ-437 SKA1_Survey inclusion of ASKAP.SDP_REQ-44 Astrometric performance metricSDP_REQ-441 Automated Quality Assessment.SDP_REQ-442 Astrometric performance metricSDP_REQ-443 Photometric performance metricSDP_REQ-444 Radiometric performance metricSDP_REQ-445 Polarimetric performance metricSDP_REQ-446 Spectrometric performance metricSDP_REQ-447 Major and minor deconvolution cyclesSDP_REQ-448 Phase RotationSDP_REQ-45 Photometric performance metricSDP_REQ-450 SDP standard pipeline productsSDP_REQ-46 Radiometric performance metricSDP_REQ-466 Perform Calibration Pipeline Automatic QASDP_REQ-467 Perform Imaging Pipeline Automatic QASDP_REQ-468 Perform Non-Imaging Pipeline Automatic QASDP_REQ-469 Perform Science Analysis Pipeline Automatic QASDP_REQ-47 Polarimetric performance metricSDP_REQ-470 Receive DataSDP_REQ-471 Buffer DataSDP_REQ-472 Handle Missing DataSDP_REQ-473 Merge Meta DataSDP_REQ-474 Gather DataSDP_REQ-475 Transpose DataSDP_REQ-476 Flag RFISDP_REQ-477 Excise RFISDP_REQ-478 Detect RFISDP_REQ-479 Remove Sources

SDP_REQ-48 Spectrometric performance metricSDP_REQ-480 Integrate DataSDP_REQ-482 Order UV DataSDP_REQ-483 Missing DataSDP_REQ-484 Input Meta DataSDP_REQ-485 Combine DataSDP_REQ-486 Determine RFI ThresholdSDP_REQ-487 Flag DataSDP_REQ-488 Flag LightningSDP_REQ-489 Covariance MatricesSDP_REQ-49 Telescope Manager APISDP_REQ-490 Data QualitySDP_REQ-491 Spatial FilteringSDP_REQ-495 Spatial Filter WeightsSDP_REQ-496 Set WeightSDP_REQ-497 Subtract (calibration)SDP_REQ-498 Fit model parametersSDP_REQ-499 CorrectSDP_REQ-5 Observation schedulingSDP_REQ-50 Invalid input handlingSDP_REQ-500 Self-calibration loopSDP_REQ-501 Predict visibilitiesSDP_REQ-502 Ingest PipelineSDP_REQ-503 Flag (calibration)SDP_REQ-504 Scale sensitive deconvolutionSDP_REQ-505 Global Sky Model UpdateSDP_REQ-507 Calibration Source FindingSDP_REQ-508 Extended Source DetectionSDP_REQ-509 Spectral Index Determination SDP_REQ-51 Engineering SupportSDP_REQ-510 Science Analysis input data conditioningSDP_REQ-511 Continuum Source FindingSDP_REQ-512 StackingSDP_REQ-513 H1 StackingSDP_REQ-514 Source Analysis (TBC)SDP_REQ-515 Spectral Line Profile DeterminationSDP_REQ-516 Spectral Line Source DetectionSDP_REQ-518 Point Source DetectionSDP_REQ-519 Continuum StackingSDP_REQ-52 FailsafeSDP_REQ-520 Image Cube managementSDP_REQ-521 Image Cadence managementSDP_REQ-522 Archive Bulk Data Access ServiceSDP_REQ-523 Archive Database ServiceSDP_REQ-524 Pulsar Timing InputSDP_REQ-525 Pulsar Timing RFI MitigationSDP_REQ-526 Average Input Data In TimeSDP_REQ-527 Pulsar Search Data InputSDP_REQ-528 Pulsar Search Data Input Data ReceptionSDP_REQ-529 Pulsar Timing Precision

SDP_REQ-530 Pulsar Timing ToA DetermininationSDP_REQ-531 Generate Residual OutputSDP_REQ-532 Non-imaging Transient Post ProcessingSDP_REQ-533 Merge Data from Multiple BeamsSDP_REQ-534 Pulsar Timing Data PreparationSDP_REQ-535 Non-imaging Transient Input Data SDP_REQ-536 Pulsar Timing Polarisation CalibrationSDP_REQ-537 Response Rate for Pulsar AlertsSDP_REQ-538 Form Covariance Matrix of ResidualsSDP_REQ-539 Non-imaging Transient InputSDP_REQ-54 Archive MetadataSDP_REQ-540 Average Input Data In Frequency To Given SignificanceSDP_REQ-541 False Alarm Rate for Pulsar AlertsSDP_REQ-542 Pulsar Timing Error EstimationSDP_REQ-543 Pulsar Timing Systematic ErrorSDP_REQ-544 Non-imaging Transient AlertsSDP_REQ-545 Extract non-imaging transient heuristicsSDP_REQ-546 Non-imaging Transient Search OutputSDP_REQ-547 Classify Candidates (pulsars)SDP_REQ-548 Pulsar Timing Input Data ReceptionSDP_REQ-549 Dynamic Range When Averaging Pulsar ProfilesSDP_REQ-55 ObsCore Archive MetadataSDP_REQ-550 Weighting Scheme for Pulsar Timing Model FittingSDP_REQ-551 Generate Residual PrecisionSDP_REQ-552 Periodicity Search AlertsSDP_REQ-553 Pulsar Timing Flux CalibrationSDP_REQ-554 Identify Multi-beam Candidates (transients)SDP_REQ-555 Output of Pulsar Timing ModelSDP_REQ-556 Update Timing ModelSDP_REQ-557 Periodicity Search List ProductsSDP_REQ-558 Periodicity Search OutputSDP_REQ-559 Extract pulsar search heuristicsSDP_REQ-56 Image Archive MetadataSDP_REQ-560 Identify multi-beam candidatesSDP_REQ-561 Average Input Data In Time To Given SignificanceSDP_REQ-562 Non-imaging Transient Search Archive ProductsSDP_REQ-563 Merge Data from Multiple Beams (transients)SDP_REQ-564 Response Rate for Non-imaging TransientsSDP_REQ-565 Pulsar Timing Model FittingSDP_REQ-566 Non-imaging Transient List ProductsSDP_REQ-567 Periodicity Search Archive ProductsSDP_REQ-568 False Alarm Rate for Non-imaging TransientsSDP_REQ-569 Average Input Data In FrequencySDP_REQ-57 Spectrum Archive MetadataSDP_REQ-570 Classify Candidates (transients)SDP_REQ-571 Access to data and metadataSDP_REQ-572 Display customisationsSDP_REQ-573 Third party data productsSDP_REQ-574 Science Data ArchiveSDP_REQ-576 Data Product Replication

SDP_REQ-577 Decoupling real-time OpsSDP_REQ-578 Data Model ComplianceSDP_REQ-58 Data DiscoverySDP_REQ-59 TAP DiscoverySDP_REQ-592 Status MonitoringSDP_REQ-593 Status LoggingSDP_REQ-594 Status ReportingSDP_REQ-595 QA annotationsSDP_REQ-596 Liquid Cooling for local storage and network rack coolingSDP_REQ-597 Component system state informationSDP_REQ-598 Storage HierarchySDP_REQ-599 Data Service LayerSDP_REQ-6 Observation scheduling feedbackSDP_REQ-60 SIA DiscoverySDP_REQ-600 Postage Stamp SelectionSDP_REQ-601 Continuum SubtractionSDP_REQ-602 Invalid Input Handling - Master ControllerSDP_REQ-603 Capability Handling TBDSDP_REQ-604 MeerKAT integrationSDP_REQ-605 ASKAP integrationSDP_REQ-606 Receive observation requestSDP_REQ-607 Flagging control - LMCSDP_REQ-608 Engineering Support - Master ControllerSDP_REQ-609 Release StatusSDP_REQ-61 Client Data DiscoverySDP_REQ-610 Consistent Release StateSDP_REQ-611 User RolesSDP_REQ-612 Data Product TypesSDP_REQ-613 Meta AccessSDP_REQ-614 Numerical PrecisionSDP_REQ-615 EoR Calibration PipelineSDP_REQ-616 Restore visibility data from archive to bufferSDP_REQ-617 Restore images from archive to bufferSDP_REQ-618 Tranfer images from archive to bufferSDP_REQ-619 Combine multiple image cubesSDP_REQ-62 Data DescriptionSDP_REQ-620 Graceful Error RecoverySDP_REQ-621 Preservation of Intermediate Data ProductsSDP_REQ-622 Inform TM on Availability of Data ProductsSDP_REQ-623 Restart Processing after ErrorSDP_REQ-624 Data Flow GraphsSDP_REQ-625 Data Flow ModelsSDP_REQ-626 Component ProfilesSDP_REQ-627 Hardware availabilitySDP_REQ-628 Create data flow graphsSDP_REQ-629 Power ManagementSDP_REQ-63 TAP Data DescriptionSDP_REQ-630 Load standby configurationSDP_REQ-631 Simulate observationsSDP_REQ-632 Event handler

SDP_REQ-633 Event aggregationSDP_REQ-634 Telescope Model-ValidationSDP_REQ-635 Telescope Model-UpdateSDP_REQ-636 Telescope Model-SerialiseSDP_REQ-637 High update rate -transactionsSDP_REQ-64 SIA Data DescriptionSDP_REQ-65 Data DeliverySDP_REQ-66 DataLink DeliverySDP_REQ-67 AccessData DeliverySDP_REQ-68 Delivery ClientSDP_REQ-7 Observation ControlSDP_REQ-72 Metadata ConditioningSDP_REQ-73 Metadata Visualisation ClientSDP_REQ-74 HTTP Client Metadata VisualisationSDP_REQ-75 HTTP Client PreviewsSDP_REQ-76 Data Visualisation ClientSDP_REQ-77 VOEvent Data DescriptionSDP_REQ-78 Core viewing functionalitySDP_REQ-79 Extensible AnalysisSDP_REQ-8 Observation control - startSDP_REQ-80 Core Analysis VisualizationSDP_REQ-81 Multi-User ViewingSDP_REQ-82 Maintain Visualization SessionSDP_REQ-83 User Visualization CustomizationSDP_REQ-84 Viewer Customizable PlottingSDP_REQ-85 Viewer Plot SaveSDP_REQ-86 Analysis APISDP_REQ-87 Archive Data File FormatsSDP_REQ-88 User AuthenticationSDP_REQ-89 Federated authenticationSDP_REQ-9 Observation control - stopSDP_REQ-90 Anonymous deliverySDP_REQ-91 Certificate AuthenticationSDP_REQ-92 VOEvent Data ModelSDP_REQ-93 External CredentialsSDP_REQ-94 User AuthorisationSDP_REQ-95 Delivery by RoleSDP_REQ-96 Data access loggingSDP_REQ-97 Authorisation clientSDP_REQ-98 User access log consistencySDP_REQ-99 User Credentials ReplicationSKA1-SYS_REQ-???? Drift Scan ImagingSKA1-SYS_REQ-???? Rotation Measure SynthesisSKA1-SYS_REQ-???? MosiackingSKA1-SYS_REQ-???? SDP Power CapSKA1-SYS_REQ-2116 South African Engineering Operations CentreSKA1-SYS_REQ-2118 South African Science Processing CentreSKA1-SYS_REQ-2121 Australian Engineering Operations CentreSKA1-SYS_REQ-2123 Australian Science Processing CentreSKA1-SYS_REQ-2126 Simultaneous operation of telescopes

SKA1-SYS_REQ-2127 Sub-Arraying.SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode.SKA1-SYS_REQ-2129 Pulsar Search Mode.SKA1-SYS_REQ-2130 Pulsar Timing Mode.SKA1-SYS_REQ-2131 Transient search modeSKA1-SYS_REQ-2133 Mode transitionSKA1-SYS_REQ-2134 Electromagnetic frequency range.SKA1-SYS_REQ-2140 SKA1_Low station diameterSKA1-SYS_REQ-2142 SKA1_Low number of stations.SKA1-SYS_REQ-2147 Instantaneous bandwidth.SKA1-SYS_REQ-2148 SKA1_Low channelisationSKA1-SYS_REQ-2150 SKA1_Low correlator Integration rate.SKA1-SYS_REQ-2153 DiameterSKA1-SYS_REQ-2158 Pointing repeatability.SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day timeSKA1-SYS_REQ-2160 Pointing repeatability - Higher windSKA1-SYS_REQ-2165 Polarisation PuritySKA1-SYS_REQ-2173 MeerKAT arraySKA1-SYS_REQ-2174 Combined SKA1_Mid configuration.SKA1-SYS_REQ-2178 Combined SKA1_Mid configurationSKA1-SYS_REQ-2185 RF system sampled bandwidth band 1SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2SKA1-SYS_REQ-2187 RF system sampled bandwidth band 3SKA1-SYS_REQ-2188 RF system sampled bandwidth band 4SKA1-SYS_REQ-2189 RF system sampled bandwidth band 5SKA1-SYS_REQ-2195 SKA1_Mid channelisationSKA1-SYS_REQ-2197 SKA1_Mid correlator integration rate.SKA1-SYS_REQ-2201 Beam-former sub-array support.SKA1-SYS_REQ-2203 Number of beams: Pulsar searchSKA1-SYS_REQ-2205 Beamformer S/N pulsar searchSKA1-SYS_REQ-2207 Number of beams: Pulsar timing.SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timingSKA1-SYS_REQ-2216 Time resolutionSKA1-SYS_REQ-2220 Binary searchSKA1-SYS_REQ-2224 Frequency agility.SKA1-SYS_REQ-2230 Multiple timings.SKA1-SYS_REQ-2231 Pulsar timing Dispersion MeasureSKA1-SYS_REQ-2236 SKA1_Survey configurationSKA1-SYS_REQ-2238 RF system frequency range PAF band 1SKA1-SYS_REQ-2239 RF system frequency range PAF band 2SKA1-SYS_REQ-2240 RF system frequency range PAF band 3SKA1-SYS_REQ-2241 Maximum available bandwidthSKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidthSKA1-SYS_REQ-2247 SKA1_Survey number of beams.SKA1-SYS_REQ-2250 SKA1_Survey channelisation.SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period.SKA1-SYS_REQ-2256 SKA1_Survey imaging dynamic range.SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP.SKA1-SYS_REQ-2263 SKA1_Survey single array operation.

SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying.SKA1-SYS_REQ-2266 SKA1_Survey PAF rotation.SKA1-SYS_REQ-2280 System status.SKA1-SYS_REQ-2282 Central location for data basesSKA1-SYS_REQ-2283 Target of opportunitySKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation.SKA1-SYS_REQ-2286 Discard previous scheduling block.SKA1-SYS_REQ-2312 Alarm latency.SKA1-SYS_REQ-2319 Closed loop calibration.SKA1-SYS_REQ-2321 Direction dependent effects.SKA1-SYS_REQ-2322 Global sky model.SKA1-SYS_REQ-2324 Multi-frequency synthesis imaging.SKA1-SYS_REQ-2325 Scale sensitive deconvolutionSKA1-SYS_REQ-2328 Solution for pointing errors.SKA1-SYS_REQ-2330 Peeling.SKA1-SYS_REQ-2333 Continuum source finding.SKA1-SYS_REQ-2334 Spectral line source finding.SKA1-SYS_REQ-2335 Stacking.SKA1-SYS_REQ-2336 Standard pipeline products.SKA1-SYS_REQ-2338 Calibration pipeline.SKA1-SYS_REQ-2339 Continuum imaging pipeline.SKA1-SYS_REQ-2340 Continuum imaging data products.SKA1-SYS_REQ-2341 Spectral line emission pipeline.SKA1-SYS_REQ-2342 Spectral line emission data products.SKA1-SYS_REQ-2343 Spectral line absorption pipeline.SKA1-SYS_REQ-2344 Spectral line absorption data products.SKA1-SYS_REQ-2345 Slow transient pipeline.SKA1-SYS_REQ-2346 Slow transient data products.SKA1-SYS_REQ-2347 Automated Quality Assessment.SKA1-SYS_REQ-2348 Role of science processing centres.SKA1-SYS_REQ-2350 Mirror sites.SKA1-SYS_REQ-2352 Web interface.SKA1-SYS_REQ-2353 Virtual Observatory interface.SKA1-SYS_REQ-2354 Archive API.SKA1-SYS_REQ-2355 Data product provenance.SKA1-SYS_REQ-2357 QA annotation.SKA1-SYS_REQ-2358 Third party data products.SKA1-SYS_REQ-2360 Science data product archive policy.SKA1-SYS_REQ-2361 Archive access.SKA1-SYS_REQ-2363 Archive lifetime.SKA1-SYS_REQ-2364 Data migration plan.SKA1-SYS_REQ-2366 Distribution of data products.SKA1-SYS_REQ-2425 SADT to SDP interface.SKA1-SYS_REQ-2431 SDP to TM interface.SKA1-SYS_REQ-2432 SDP to INFRA interface.SKA1-SYS_REQ-2433 Design for SKA2 ExtensibilitySKA1-SYS_REQ-2435 Hazard analysis.SKA1-SYS_REQ-2436 Safety incident recovery planSKA1-SYS_REQ-2437 Design for hazard elimination.SKA1-SYS_REQ-2438 Fail safe design.

SKA1-SYS_REQ-2439 Emergency stop.SKA1-SYS_REQ-2443 Protection from high voltages.SKA1-SYS_REQ-2444 Safety grounding and bonding.SKA1-SYS_REQ-2445 Electrical circuit interlocks.SKA1-SYS_REQ-2446 Electrical safetySKA1-SYS_REQ-2447 Sharp metal edges.SKA1-SYS_REQ-2448 Stand-off and handles.SKA1-SYS_REQ-2449 Construction Safety Plan.SKA1-SYS_REQ-2450 Safety information for useSKA1-SYS_REQ-2451 Safety training.SKA1-SYS_REQ-2452 Protective clothing.SKA1-SYS_REQ-2454 Fire fighting equipment.SKA1-SYS_REQ-2455 Noise level dosage.SKA1-SYS_REQ-2456 Transient noise level.SKA1-SYS_REQ-2457 Illumination.SKA1-SYS_REQ-2458 Clean airSKA1-SYS_REQ-2460 Occupational health legislation and regulations.SKA1-SYS_REQ-2462 Electromagnetic RadiationSKA1-SYS_REQ-2463 Self-induced RFISKA1-SYS_REQ-2464 Electromagnetic Compatibility StandardsSKA1-SYS_REQ-2465 Electricity network Electromagnetic CompatibilitySKA1-SYS_REQ-2466 EMC compatibility marking.SKA1-SYS_REQ-2467 Electromagnetic susceptibility.SKA1-SYS_REQ-2472 RFI flaggingSKA1-SYS_REQ-2473 RFI excisionSKA1-SYS_REQ-2474 RFI maskingSKA1-SYS_REQ-2478 Equipment securitySKA1-SYS_REQ-2479 Archive securitySKA1-SYS_REQ-2481 Emergency communicationSKA1-SYS_REQ-2482 AccessibilitySKA1-SYS_REQ-2483 Environment protection plan.SKA1-SYS_REQ-2484 Environmental legislation and regulations.SKA1-SYS_REQ-2491 Safety.SKA1-SYS_REQ-2500 Operating Humidity.SKA1-SYS_REQ-2501 Storage and transport Humidity.SKA1-SYS_REQ-2502 Condensation.SKA1-SYS_REQ-2503 Pressure.SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion.SKA1-SYS_REQ-2505 Sand and Dust.SKA1-SYS_REQ-2506 Fungus.SKA1-SYS_REQ-2509 Scope of workmanship standards.SKA1-SYS_REQ-2512 Best practice.SKA1-SYS_REQ-2513 Critical-useful-life components.SKA1-SYS_REQ-2515 Component selection.SKA1-SYS_REQ-2516 Matching components.SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2518 High failure rate parts.SKA1-SYS_REQ-2519 Reliability testing.SKA1-SYS_REQ-2520 Spares and repair parts testing.SKA1-SYS_REQ-2521 Component derating.

SKA1-SYS_REQ-2522 Shelf life and wear out characteristics.SKA1-SYS_REQ-2523 Special procurement components.SKA1-SYS_REQ-2525 Fail safe provisions.SKA1-SYS_REQ-2526 Maintainability budgetsSKA1-SYS_REQ-2527 Test and Repair InstructionsSKA1-SYS_REQ-2528 Level of maintenanceSKA1-SYS_REQ-2529 Maintenance test and support equipmentSKA1-SYS_REQ-2538 Test and support equipmentSKA1-SYS_REQ-2539 Test and support equipment standardisationSKA1-SYS_REQ-2540 Test and support equipment lifecycle costs.SKA1-SYS_REQ-2541 Test equipment reliabilitySKA1-SYS_REQ-2542 TrainingSKA1-SYS_REQ-2543 Direct fault indicatorsSKA1-SYS_REQ-2544 Self-test.SKA1-SYS_REQ-2546 Continuous performance monitoring.SKA1-SYS_REQ-2552 Malfunction detection.SKA1-SYS_REQ-2554 Ergonomics.SKA1-SYS_REQ-2556 Access tools.SKA1-SYS_REQ-2559 Design for economic production.SKA1-SYS_REQ-2560 Design definition.SKA1-SYS_REQ-2561 Manufacturing facilities.SKA1-SYS_REQ-2562 Standard manufacturing tools.SKA1-SYS_REQ-2566 Materials list.SKA1-SYS_REQ-2567 Hazardous Materials list.SKA1-SYS_REQ-2568 Parts list.SKA1-SYS_REQ-2569 Process list.SKA1-SYS_REQ-2570 Parts availability.SKA1-SYS_REQ-2571 Long lead time items.SKA1-SYS_REQ-2572 Material environmental rule compliance.SKA1-SYS_REQ-2573 Serial number.SKA1-SYS_REQ-2574 Drawing numbers.SKA1-SYS_REQ-2575 Marking method.SKA1-SYS_REQ-2576 Electronically readable or scannable IDSKA1-SYS_REQ-2577 Package part number marking.SKA1-SYS_REQ-2578 Package serial number marking.SKA1-SYS_REQ-2579 Hazard warning marking.SKA1-SYS_REQ-2580 LRU electrostatic warningsSKA1-SYS_REQ-2581 Packaging electrostatic warnings.SKA1-SYS_REQ-2583 Cable identification.SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectorsSKA1-SYS_REQ-2594 Modular packaging.SKA1-SYS_REQ-2595 Maintenance provisions.SKA1-SYS_REQ-2596 Discard at failure items.SKA1-SYS_REQ-2597 Plug-in modules.SKA1-SYS_REQ-2598 Module access.SKA1-SYS_REQ-2599 Component removal.SKA1-SYS_REQ-2600 Secure mounting of modules.SKA1-SYS_REQ-2601 Shock mounting provision.SKA1-SYS_REQ-2602 Mounting preclusion.SKA1-SYS_REQ-2603 Mounting guides.

SKA1-SYS_REQ-2604 Module labelling.SKA1-SYS_REQ-2605 Label robustness.SKA1-SYS_REQ-2606 Disposable item labelling.SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binningSKA1-SYS_REQ-2621 Spectral stabilitySKA1-SYS_REQ-2629 Station beam stabilitySKA1-SYS_REQ-2634 Calibration update rateSKA1-SYS_REQ-2635 Real time calibrationSKA1-SYS_REQ-2640 Clipped Data FlaggingSKA1-SYS_REQ-2645 Telescope ModelSKA1-SYS_REQ-2650 Seismic resilienceSKA1-SYS_REQ-2657 Processing capabilitySKA1-SYS_REQ-2660 Backup archive retrievalSKA1-SYS_REQ-2661 Backup archive user access conversionSKA1-SYS_REQ-2688 Data access rightsSKA1-SYS_REQ-2711 Component obsolescence planSKA1-SYS_REQ-2716 Telescope availabilitySKA1-SYS_REQ-2718 Availability budgetsSKA1-SYS_REQ-2722 Availability, reliability, and maintenance plansSKA1-SYS_REQ-2724 Aperture Array DDESKA1-SYS_REQ-2725 Faraday rotation DDESKA1-SYS_REQ-2726 PAF DDESKA1-SYS_REQ-2727 Dish DDESKA1-SYS_REQ-2728 Data migration designSKA1-SYS_REQ-2729 Calibration and Imaging formalismSKA1-SYS_REQ-2733 Location of Emergency stopSKA1-SYS_REQ-2738 CSP to SDP InterfaceSKA1-SYS_REQ-2739 Levels of access to the archiveSKA1-SYS_REQ-2742 Performance assessmentSKA1-SYS_REQ-2743 Performance goalsSKA1-SYS_REQ-2744 Quality assessmentSKA1-SYS_REQ-2745 Astrometry performance metricSKA1-SYS_REQ-2746 Photometric performance metricSKA1-SYS_REQ-2747 Radiometric performance metricSKA1-SYS_REQ-2748 Polarimetric performance metricSKA1-SYS_REQ-2749 Spectrometric performance metricSKA1-SYS_REQ-2786 Safety documentation fileSKA1-SYS_REQ-2788 Non-propagation of failuresSKA1-SYS_REQ-2790 Environmental Impact AssessmentSKA1-SYS_REQ-2793 Personnel security trainingSKA1-SYS_REQ-2795 Travel safetySKA1-SYS_REQ-2798 Protection of equipment in stationary use at non-weather protected locationsSKA1-SYS_REQ-2799 Protection of equipment in weather- protected locationsSKA1-SYS_REQ-2800 Transportation of equipmentSKA1-SYS_REQ-2801 Storage of equipmentSKA1-SYS_REQ-2802 Design for maintainabilitySKA1-SYS_REQ-2806 Product AssuranceSKA1-SYS_REQ-2816 Design for testabilitySKA1-SYS_REQ-2818 Marking of machinery - safetySKA1-SYS_REQ-2819 Safety of machinery risk assessment

SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600VSKA1-SYS_REQ-2821 ArchiveSKA1-SYS_REQ-2822 Information security risk assessmentSKA1-SYS_REQ-2823 Information security management for inter-organizational communicationsSKA1-SYS_REQ-2824 SKA1_Low Absolute flux scaleSKA1-SYS_REQ-2825 SKA1_Mid Absolute flux scaleSKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scaleSKA1-SYS_REQ-2827 System AvailabilitySKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scaleSKA1-SYS_REQ-2829 SKA1_Survey Absolute flux scaleSKA1-SYS_REQ-2830 SKA1_Mid Pulsar phase bin widthSKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKATSKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuseSKA1-SYS_REQ-2838 VLBI data sourcesSKA1-SYS_REQ-2838 Provision of equipment for recordingSKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivitySKA1-SYS_REQ-2844 VLBI ProcessingSKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weightsSKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence lossesSKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolutionSKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamformingSKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weightSKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracySKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherenceSKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolutionSKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamformingSKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observationVR-1 Verification by TestVR-2 Verification by AnalysisVR-3 Verification by DemonstrationVR-4 Verification by InspectionVR-5 Verification by Definition

DescriptionThe SDP shall provide commands to the TM sufficient to support the various telescope operating mode.The Master Controller shall provide a STATUS command which will report on the status of the specified telescope operating mode.The SDP Delivery Platformshall provide a client that will access the credential maintenance service.The SDP shall support the Archive API by maintaining a reference to alist of accredited identity providers.The SDP shall support the Archive API by maintaining classification of users by role.The Archive API shall enforce a proprietary period for science data archive and VO data, as observed for one or many proposals.The Archive API shall enforce a TBD proprietary metadata period for products from the science data archive and VO data, as observed for one or many proposals.The Archive API shall enforce a TBD proprietary data period for products from the science data archive and VO data, as observed for one or many proposals.The Archive API shall provide the capability to control archive data product distribution to a set of pre-determined destinations.The Archive API shall support the identification of a destination for delivery of science data products.The Archive API shall provide a transfer rate of TBD ?B/s for delivery of data products.The Archive API shall provide the capability to interrupt any or all data deliveries.The SDP shall support the transition from one frequency band of operation to another within 30 seconds (TBD - need feedback on allocation of parent time allowance).The RCs shall support the Archive API by providing a minimum of TBD ?B of storage for archive data.The RCs shall support the Archive API by accommodating a data transfer rate of TBD ?B/s.The RCs shall support the Archive API by providing storage that will accumulate data at the TBD transfer rate.The RCs shall support the Archive API by providing the execution of science data analysis software.The RCs shall support the Archive API by providing storage for the output of the science data analysis software.The RCs shall support the Archive API by providing for the replication of the metadata for the archive data products.The RCs shall limit expected downtime to 5% (TBC).The RCs shall limit unexpected downtime to 3% (TBC).The Archive API shall schedule external data delivery.The Achieve API will limit the number of times failed transfers are retried.The Master Controller shall, on request from TM, provide a response as to whether the requested frequency band is available within 1 second.The Archive API data delivery schedule shall identify priorities by (TBC): 1 product type; 2 project; 3 userThe Archive API data delivery scheduler shall identify capacity by (TBC): 1 project; 2 userThe Archive API shall support a default priority of urgent for the delivery of the initial copy of a data product.The Archive API shall deliver additional copies of data products at the lowest priority.The Archive API shall track delivery strategy information for data deliveryand track which Data productss are transferred to each RC.The Archive API shall trigger the removal of all copies of data products when a TBD low-quality threshold is reached.The Archive API shall trigger the delivery of an updated data product to replace all copies when an archive data product is updated at the SDP.Changes in products shall cause the Archive API to trigger changes to delivered data product copies.The SDP Delivery Platform data visualization service plug-in system shall have the ability to execute community-provided code.The SDP Delivery Platform data visualization shall run at interactive speeds for large images (e.g. 1 TB TBC).The Master Controller shall, on request from TM, switch the center frequency in use for the current observation within 30 seconds (TBD).The Archive API shall deliver archive VO event data (transient events) as defined by the IVOA Standard for VO Event transport.The SDP Delivery Platformdata visualization client shall visualize science archive data in the following file formats:CASA images,HDF5 files, andFITS files.The SDP Delivery Platformdata visualization client shall provide the ability to create, retrieve, update, and delete annotations on individual archive data products.SDP shall be capable of operating in a periodicity search mode, concurrently with continuum imaging mode and non-imaging transient search mode.The Master Controller shall be able to query the Scheduler in order to determine the availability of compute resources (hardware and software) for a specific capability.SDP when in pulsar search mode, shall be capable of performing post-processing on up to a total of 2222 beams per observationSDP, when in non-imaging transient search mode, shall be capable of performing post-processing on up to a total of 2222 beams per observation.The Master Controllershall be able to query the Data Layer, via the Data Flow Manager, in order to determine the availability of data layer resources (transport, buffer and archive) for a specific capability.The Master Controller shall be able to query the Data Delivery subsystem in order to determine the availability of delivery resources for a specific capability.The Master Controllershall be able to instruct the Scheduler to schedule an observation to commence at a particular time with a particular capability.The Master Controllershall be able to instruct the Data Layer, via the Data Flow Manager, to schedule on observation to commence at a particular time with a particular capability.The Science Data Processing Centre in South Africa shall make use of floor space, power, cooling and other infrastructure at the TBD facility in Cape Town.The Science Data Processing Centre in Australia shall make use of floor space, power, cooling and other infrastructure at TBD.Physical access shall be provided to allow for non-disruptive LRU replacement or upgrading/replacement of one or more computing racks, as well as any servicing cooling and power conduits.

The SDP facilities should be designed so that the data centre operates with a Power Usage Effectiveness no greater than 1.2The SDPequipment and buildings shall be designed and built in compliance with national and State regulations including AS 1170.4 (Importance level 3, design life 50 years) .The SDP shall follow a TBD standard in order to manage cable design, identification, selection, and installation.The SDP facilities shall support an upgrade path for SDP equipment by providing sufficient space to move, replace and reconfigure equipment.The Master Controller shall be able to instruct the Data Delivery subsystem to schedule an observation to commence at a particular time with a particular capability.There shall be an assembly space in the Science Processing Centres. TBD space shall be available with appropriate power supply in order to de-box, assemble, and integrate new equipment.TBD space shall be available at each Science Processing Centre for storage of onsite spare parts.A communications room in each Science Processing Centre will be the location of the physical interface with SaDT. TBC as this conflicts with SaDT ICD.There will be sufficient vacant floor space in the Science Processing Centres for in-place upgrades to the compute and archive.The SDP shall meet the system availability allocations specified in SKA-OFF.SE.ARC-SKAO-RAM-001.There shall be a clearance of TBDcm in front of racks. All doors and corridors from the loading bay through to the assembly space and whitespace shall be a minimum of TBD cm wide and TBD cm high.The SDP shall not use more than TBD number of 42U racks.Thefloor within the SDP facility used to support racksshall be capable of supporting at least 2500kg/sqm (without including empty aisle space in the calculation).The SDP shall support the concept of capabilities via the LMC.The Master Controller shall aggregate scheduling responses from the Scheduler, the Data Layer and the DataDelivery subsystem in order to produce a detailed report on the success or failure of the scheduling request.The SDP computing equipment shall be housed in facilities that provide working illumination compliant with local and international regulations including the current issue of SANS 10114-1 in South Africa and the AS/NZS 1680 series in Australia.The SDP computing and storage facilities shall be adequately protected against intrusion by insect, reptiles and rodents and larger animals.The SDP facilities shall survive and be fully operational after a seismic event of magnitude up to Richter 3.8. Note: Seismic event includes underground collapses in addition to earthquakes.The SDP facilities shall be adequately protected against sand and dust ingressThe SDP facilities shall be designed so that fungal growth on equipment is suppressed.The SDP shall be housed in facilities that are fitted with fire suppression systems conforming to standards set for Tier data centres.The building housing the SDP equipment shall be capable of removing heat equal to the power drawer of the equipment (in addition to other non-SDP heat loads).The temperature and humidity levels close to the SDP equipment shall be maintained such that operation is always above dew point.Humidity control within the SDP build or storage space shall be maintained between 40% and 95% levels.Humidity control within the SDP computing environments shall be maintained between 40% and 60% levels.The Master Controllershall be able to instruct the Scheduler to start, stop or provide status of a previously scheduled observation.Liquid cooling shall be available to each compute rack with a flow rate range of TBD to TBD and a temperature range of TBD to TBD.SDP equipment should conform to CISPR Class B standards with respect to EMC.The cooling system for the SDP shall continue to be able to cool the SDP equipment after 5 days above 38C.The Science Processing Centres will be fitted with fire suppression systems conforming to Australian standards TBD and South African standard TBD.The compute area within the Science Processing Centres shall be kept at ISO-9 air quality or better.All equipment in the SDP shall have a storage temperature range of TBD.The spare parts storage space shall not exceed a temperature range of TBD.The assembly area shall not exceed a temperature range of TBD.The use of packing materials such as cardboard in the compute halls should be minimised.The Master Controller shall be able to instruct the Data Layer, via the Data Flow Manager, to start, stop or provide status of a previously scheduled observation.The use of higher fire risk items such as batteries and power supplies should be minimised in the whitespace of the Science Processing Centres.The SDP shall be informed in real time of critical infrastructure failures at the Science Processing Centres, such as UPS and water cooling.Equipment in the Science Processing Centres that continues running after a power failure shall be adequately cooled.The Science Processing Centres shall be designed so that a leak of liquid coolant does not pool on electrical equipment.If located in areas where RFI emissions could negatively affect the telescopes, the SDP facilities shall be designed to reduce/screen RFI emissions to the levels required by the SKA as specified in document.Personnel working in the area of the SDP computers shall be provided with with air quality at least compliant with the current issue of SANS 10400-O (South Africa - The application of National Building Regulations Part O : Lighting and ventilation) and the AS 1668 series of codes (Australia - The use of mechanical ventilation and air conditioning in buildings).The Science Processing Centre shall be designed so that the effects of security systems on operations shall be minimised within security zones.A visitor policy for the Science Processing Centres shall be developed to minise the impact on operations and security risk of visitors.The Master Controller shall be able to instruct the Data Delivery subsystemto start, stop or provide status of a previously scheduled observation.The Science Processing Centres shall be designed to minise the impact on operations and the security risk caused by visitors.Cable trays should be located such that access to cable trays will not expose workers to unnecessary risks.The data rack areas of the Science Processing Centres shall have a noise level not exceeding XXX dBA.TBD (The SDP facilities shall supply 3-phase 400V AC to each of the SDP racks? Too premature for this decision?)TBD of power shall continue to be available for XX minutes after a power failure at each Science Processing Centre without interruption.

The power supplied to the SDP at each Science Processing Centre shall be reliable to TBD standard.The SDP equipment in each Science Processing Centres shall be supplied with power TBD average and TBD peak..The SDP shall have the ability to report low latency power consumption information on a per component(i.e. server, network switch, storage pod, etc.) basis.The Master Controller shall aggregate control responses from the Scheduler, Data Layer and Data Delivery subsystem in order to produce a detailed report on the success or failure or status information of a control request.Where possible, electrical systems in the Science Processing Centres shall be designed to be bypassed to permit maintenance on them while the telescope is operating.The interface between the SDP and INFRA shall be compliant with the SKA.TEL.SDP.SE-SKA.TEL.INFRA.SE-ICD-001 Interface Control Document.The interface between SADT and SDP shall be compliant with the SKA-TEL.SADT.SE-TEL.SDP.SE-ICD-001 Interface Control Document.The SDP shall have the ability to remotely control power on a per component (i.e. server, network switch, storage pod, etc.) basis to allow components to be powered on and off.There shall be a mechanism to make available low latency power consumption information on a per component (i.e. server, network switch, storage pod, etc.)to SDPLMC.There shall be a system of software systems that manages the data flow from the reception of raw data from CSP to the delivery of science products.There shall be a mechanism that automates the migration of data items through the various life cycle states starting from the initial storage. This shall entail the migration of data items between storage layers and include backup copies until the data items become obsolete and are deleted.LMC functions should be able to operate concurrently and with performance which is independent of other LMC instancesThere shall be a database interface providing transparent access to both the telescope state repository and the persistent storage database services.The data layer manager of each SKA telescope and all sub-arrays shall be capable of operating concurrently and independently. It shall be possible to run additional instances of the data layer manager for other purposes such as: commissioning, maintenance and simulation in parallel.The data layer manager shall concurrently generate data products for multiple observing programs. It shall also support a single observing program concurrently generating multiple data products as well as a mix of both scenarios.The data layer shall provide a load balancing optimisation of the data locality based on the specific performance and I/O work load at runtime.All data products stored in the Science Archive shall contain provenance information. Science archive users shall be able to use this provenance information to unambiguously reference data products in publications.It shall be possible to trace each data product in the archive back to a scheduling block and an observing program. Reversely, it shall be possible to either search by observing program or scheduling block and to subsequently retrieve all or part of the associated archived data. This includes relevant logging and monitoring information as well as quality assessment data collected during the observations and the standard processing.The system shall provide a mechanism for discarding the results and associated data artefacts from a given active scheduling while it is still processed and before the next scheduling block starts.The data layer manager shall provide concurrent read access to the local and global sky model. It shall also provide write access for the purpose of refining the global sky model and creating new local sky models.The Master Controller shall ensure that any shared resources between SDP instances on different telescopes do not compromise the ability of the instance to act concurrently and independently.In case of data loss from the Science Archive it shall be possible to restore the lost data items. Individual data products shall be retrievable from a backup copy within 24 hours. The backupmechanism shall support scheduled, as well as incremental and fullbackup options.There shall be a mechanism to operate the archive from a backup copy to meet a recovery time limit of 1 week, independent of the total size of the archive.The SDP shall provide an internal interface to allow access to bulk data and data contained in databases (from the science archive) in order to deliver data products.The data layer manager shall contain a data life cycle management subsystem which shall incorporate mechanisms for copying, moving and retiring whole physical volumes or storage units.The Science Data Archive shall provide an operator interface that allows the creation and subsequent maintenance of access rules based on user role and product type.Performance monitoring shall be compliant with the capabilities specified in SKA-TEL.SDP.SE-TEL.TM.SE-ICD-001.System status information shall be made available in compliance with the capabilities specified in SKA-TEL.SDP.SE-TEL.TM.SE-ICD-001.The data layer manager's subsystems shall have a defined metric for deriving the overall availability of a given runtime configuration.The lifetime of archived data shall not be limited by the lifetime of any of the hardware and software components comprising the archive.A strategy for phasing in new storage technology, e.g. new media types, and phasing out obsolete storage technology shall be part of the data migration plan.The Master Controller shall be able to switch between previously scheduled observations within 30 seconds (TBD - based on performance allocations of SKA-2133).Measures for protecting the data layer management system from unauthorised access shall be documented for security auditing purposes.The archive shall support an extensible set of data products resulting from observing modes and science cases, which include but are not limited to the following types: Continuum imaging, spectral line emission and absorption, and slow transients. The term support refers to the capability of ingesting, indexing, performing life cycle management and redistributing data products based on their type.Support of cut-outs to deliver segments of Data Objects to end users.TheArchive APIshall provide single sign-on capability to science archive users.It shall be possible to run the SDP software at Partner Facilities. TBCA SDPdata product shall have known, documented provenance, and shall have been produced via SKA observations and processing.The SDP Delivery Platform shall provide a mechanism that considers user-defined groups for authorised access.The SDPshall use a Local Sky Model, derived from a Global Sky Model or previous Local Sky Model.The Delivery Platform will support collaboration by providing user-defined group management.The SDPLMC shall provide a uniform and singular point of control for the SDP for all components of a particular telescope, including any precursor infrastructure that may form part of the telescope.All Science Archives shall have an off-line (e.g. tape) backup stored in a secure location.SDP shall support the retrieval of items from a backup archive to the full Science Archive within 24 hours.The SDP shall provide the capability to restore access to the entire archive within one week following an incident.The SDP shall make use of the central Authentication and Authorisation facilities provided by the SKA to enable per user access to SDP resources.Access to the archive shall be either anonymous with correspondingly limited capabilities or via SKA authentication and authorisation.Performance monitoring shall be compliant with the capabilities specified in SKA-TEL.SDP.SE-TEL.TM.SE-ICD-001.The SDP shall use adynamic computational model of the Telescope to answer all queries about the state of the Telescope. The telescope model shall consist of configuration information, numerical models, empirical parameters, and conventions.The science data archives shall be designed to provide an archived data lifetime of not less than 50 years from the start of archived observations.

The SDP shall provide a priority override mechanism to support scheduling and execution of approved Target of Opportunity (ToO) events.The SDP will protect the data archives from security and environmental threatsThe SDP shall support the concept of observations via the LMC.The SDP shall handle internal hardware and software failures in a graceful fashion.The SDP system shall ingest CSP data at TBD Gbps, while losing less than TBD% (0.01%?) of the data.The Master Controller shall evaluate internal hardware and software failures as they occur in order to identify possible next steps, including continuance, degraded operation, and termination.The Master Controller shall report the outcomes of any automated failure handling to the TM via the logging mechanism specified in SKA-TEL.SDP.SE-TEL.TM.SE-ICD-001.The SDP shall allow the TM to control internal flagging, including the definition of a pre-selected RFI mask, and other parameters as may be relevant to particular flagging strategies.The SDP shall provide an automated self-test function that will generate a report on the health of the SDP system as a whole, including malfunction and out of tolerance operation.The SDP shall support the generation of notification events, in the form of alarms, to the TM based on predefined conditions.The SDP shall include thefollowing list of Health, Safety and Environmental requirements in the SDP design:SKA1-SYS_REQ-2435 Hazard analysis.SKA1-SYS_REQ-2436 Safety incident recovery planSKA1-SYS_REQ-2437 Design for hazard elimination.SKA1-SYS_REQ-2438 Fail safe design.SKA1-SYS_REQ-2439 Emergency stop.SKA1-SYS_REQ-2443 Protection from high voltages.SKA1-SYS_REQ-2444 Safety grounding and bonding.SKA1-SYS_REQ-2445 Electrical circuit interlocks.SKA1-SYS_REQ-2446 Electrical safetySKA1-SYS_REQ-2448 Stand-off and handles.SKA1-SYS_REQ-2447 Sharp metal edges.SKA1-SYS_REQ-2449 Construction Safety Plan.SKA1-SYS_REQ-2450 Safety information for useSKA1-SYS_REQ-2451 Safety training.SKA1-SYS_REQ-2452 Protective clothing.SKA1-SYS_REQ-2454 Fire fighting equipment.SKA1-SYS_REQ-2455 Noise level dosage.SKA1-SYS_REQ-2456 Transient noise level.SKA1-SYS_REQ-2457 Illumination.SKA1-SYS_REQ-2458 Clean airSKA1-SYS_REQ-2460 Occupational health legislation and regulations.SKA1-SYS_REQ-2481 Emergency communicationSKA1-SYS_REQ-2483 EnvirThe SDP shall include the following list of Operational requirements in the SDP design:SKA1-SYS_REQ-2118 South African Science Processing CentreSKA1-SYS_REQ-2123 Australian Science Processing CentreSKA1-SYS_REQ-2116 South African Engineering Operations CentreSKA1-SYS_REQ-2121 Australian Engineering Operations CentreSKA1-SYS_REQ-2425 SADT to SDP interface.SKA1-SYS_REQ-2431 SDP to TM interface.SKA1-SYS_REQ-2432 SDP to INFRA interface.SKA1-SYS_REQ-2433 Design for SKA2 ExtensibilitySKA1-SYS_REQ-2650 Seismic resilienceSKA1-SYS_REQ-2716 Telescope availabilitySKA1-SYS_REQ-2827 System AvailabilitySKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuseSKA1-SYS_REQ-???? SDP Power CapThe SDP shall include the following list of EMC and RFI requirements in the SDP design:SKA1-SYS_REQ-2462 Electromagnetic RadiationSKA1-SYS_REQ-2463 Self-induced RFISKA1-SYS_REQ-2464 Electromagnetic Compatibility StandardsSKA1-SYS_REQ-2465 Electricity network Electromagnetic CompatibilitySKA1-SYS_REQ-2466 EMC compatibility marking.SKA1-SYS_REQ-2467 Electromagnetic susceptibility.Alarm time stamps shall be accurate to TBD milliseconds and with TBD milliseconds resolution.The SDP shall include the following list of Security requirements in the SDP design:SKA1-SYS_REQ-2478 Equipment securitySKA1-SYS_REQ-2479 Archive securitySKA1-SYS_REQ-2504 Facilities and Equipment Intrusion.SKA1-SYS_REQ-2793 Personnel security trainingSKA1-SYS_REQ-2822 Information security risk assessmentSKA1-SYS_REQ-2823 Information security management for inter-organizational communicationsThe SDP shall include the following list of Equipment and Componentrequirements in the SDP design:SKA1-SYS_REQ-2501 Storage and transport Humidity.SKA1-SYS_REQ-2502 Condensation.SKA1-SYS_REQ-2503 Pressure.SKA1-SYS_REQ-2505 Sand and Dust.SKA1-SYS_REQ-2506 Fungus.SKA1-SYS_REQ-2509 Scope of workmanship standards.SKA1-SYS_REQ-2513 Critical-useful-life components.SKA1-SYS_REQ-2515 Component selection.SKA1-SYS_REQ-2516 Matching components.SKA1-SYS_REQ-2521 Component derating.SKA1-SYS_REQ-2525 Fail safe provisions.SKA1-SYS_REQ-2543 Direct fault indicatorsSKA1-SYS_REQ-2552 Malfunction detection.SKA1-SYS_REQ-2554 Ergonomics.SKA1-SYS_REQ-2572 Material environmental rule compliance.SKA1-SYS_REQ-2573 Serial number.SKA1-SYS_REQ-2574 Drawing numbers.SKA1-SYS_REQ-2575 Marking method.SKA1-SYS_REQ-2576 Electronically readable or scannable IDSKA1-SYS_REQ-2577 Package part number marking.SKA1-SYS_REQ-2578 Package serial number marking.SKA1-SYS_REQ-2579 Hazard warning marking.SKA1-SYS_REQ-2580 LRU electrostatic warningsSKA1-SYS_The SDP shall include the following list of Maintenance, Test and Support requirements in the SDP design:SKA1-SYS_REQ-2512 Best practice.SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2518 High failure rate parts.SKA1-SYS_REQ-2519 Reliability testing.SKA1-SYS_REQ-2520 Spares and repair parts testing.SKA1-SYS_REQ-2522 Shelf life and wear out characteristics.SKA1-SYS_REQ-2523 Special procurement components.SKA1-SYS_REQ-2526 Maintainability budgetsSKA1-SYS_REQ-2527 Test and Repair InstructionsSKA1-SYS_REQ-2528 Level of maintenanceSKA1-SYS_REQ-2529 Maintenance test and support equipmentSKA1-SYS_REQ-2538 Test and support equipmentSKA1-SYS_REQ-2539 Test and support equipment standardisationSKA1-SYS_REQ-2540 Test and support equipment lifecycle costs.SKA1-SYS_REQ-2541 Test equipment reliabilitySKA1-SYS_REQ-2542 TrainingSKA1-SYS_REQ-2544 Self-test.SKA1-SYS_REQ-2552 Malfunction detection.SKA1-SYS_REQ-2556 Access tools.SKA1-SYS_REQ-2595 Maintenance provisions.SKA1-SYS_REQ-2597 Plug-in modules.SKA1-SYS_REQ-2711The SDP shall include the following list of Production and Manufacturing requirements in the SDP design:SKA1-SYS_REQ-2559 Design for economic production.SKA1-SYS_REQ-2560 Design definition.SKA1-SYS_REQ-2561 Manufacturing facilities.SKA1-SYS_REQ-2562 Standard manufacturing tools.SKA1-SYS_REQ-2566 Materials list.SKA1-SYS_REQ-2567 Hazardous Materials list.SKA1-SYS_REQ-2568 Parts list.SKA1-SYS_REQ-2569 Process list.SKA1-SYS_REQ-2570 Parts availability.SKA1-SYS_REQ-2571 Long lead time items.Latency from event to alarm shall be no more than 5 seconds.The SDP shall support per telescope early science processing rates 10% of those required for full observing, as described in the SDP construction plan.The SDP shall provide a dedicated platform management function.The SDP compute system platform management function shall have an interface to the SDP LMC system.The SDP compute system platform management function shall collect and expose system health information to be made available to the LMC.The SDP compute system platform management function shall contain a deployment service.The SDP compute system platform management function shall provide a scheduler for the compute system resources.The SDP shall query the Telescope Model for all static and dynamic configuration data that is required prior to and during the execution of a specific observation.The SDP compute system scheduler shall have an interface with the LMC system, and with the pipelines.The SDP compute system scheduler shall get observation mode input the LMC system and run-time estimates from the pipelines to produce an estimate of observation processing time.The SDP compute system deployment system shall ensure all component systems are in a consistent, verifiable, documented, and reproducible state at all time.The data integrity of the hierarchical storage management system shall be defined and maintained across the entire data life-cycle.Data services shall be capable of generating pre-defined notification events such as alarms.The SDP shall provide access to thescience data archives from the internet via a standardised web interface.The SDP shall provide a Continuum Imaging pipeline that constructs wide-band images. Polarisation shall be available if requested or necessary for calibration or quality assurance.The SDP shall provide a Spectral Line Emission pipeline that constructs channel cubes of spectral line emission either with continuum emission remaining or with continuum emission removed.The SDP shall provide a Spectral Line Absorption pipeline that constructs channel cubes of spectral line absorption with continuum sources removed.The SDP shall provide a Slow Transient imaging pipeline that shall be capable of constructing a continuum image after a GSM has been subtracted for every correlator integration time or slower, searching for transient sources, and producing a time-ordered catalog.The Master Controllershall act as the internal proxy for all SDP components required telescope meta-data.

The SDP shall construct and make use of frequency-dependent image models over the entire observed bandwidth.The continuum pipelineshall enable peeling of bright sources (strength limited by signal to noise ratio) from the visibility data.The continuum pipeline shall perform optional additional visibility averaging to reduce computational load.The Continuum pipeline shall subtract the current local sky model from the averaged visibilities.The imaging pipeline shall provide a clean map image, clean beam image, clean component map image and residual map image (or the equivalent set of image cubes in the case of spectral line).The continuum pipeline shall transform ungridded visibilities and corresponding weights into gridded visibilities and corresponding weights (and visa versa).The gridding convolution kernel shall contain an anti-aliasing term.The SDP shall on request from the TM provide availability information for the requested capability.The SDP shall provide an interface to allow the quality of the scientific data to be assessed against a set of predefined criteria.The gridding convolution kernel shall contain a w-term (wide-field effect).The gridding convolution kernel shall contain an A-term representing the receptor primary beam (direction-dependent effect).The continuum pipeline shall use a Fourier Transform algorithm to transform data and weights between the image plane and visibility plane (and visa versa).The deconvolution step shall transform the calibrated visibilities into a clean map image, clean beam image, clean component map image and residual map image (or the equivalent set of image cubes in the case of spectral line).The continuum pipeline shall perform cube averaging of frequency channels post-imaging to avoid smearing effects and accommodate quality assessment.The continuum pipeline shall provide optional re-projection of data.The User Interface shall allow the configuration and evaluation of a performance assessment based on data provided by internal SDP metrics.The SDP contribution to the spectral dynamic range for SKA1_Survey shall be better than TBD between adjacent channels and TBD globally.SDP shall have a Calibration pipeline that derives current telescope parameters using a recent observation and either a known or the most recent Global Sky Model.The User Interface shall allow the configuration of performance goals that describe the desired outcome of a particular performance assessment.The SKA1_low station beams shall have a polarisation purity at the zenith better than TBD after calibration.The User Interfaceshall allow the calculation of a quality assessment based on a comparison of a particular performance assessment and its associated performance goal.The SDP shall preserve the absolute flux scale provided by the global sky model.The SDP shall process data from the SKA1_Survey FoV includingthe 36 ASKAP antennas including both monitor and control and data collection functions.The Metric subsystemshall receive deviation (rms, average offset, and med) of source positions from known standards from the Calibration Pipeline.TheSDP shall perform standardised, automated Quality Assessment of Images along the axes of astrometry, photometry, radiometry, polarimetry, and spectrometry.The SDP Astrometric performance metric (APM) shall measure deviation (rms, average offset, and med) of source positions from known standards.The SDP Photometric performance metric (PPM) shall measure deviation (rms, average offset, and med) of source fluxes from known standards.The SDPRadiometric performance metric (RPM) shall measure noise fluctuations (rms, average offset, and med) in an Image..The SDPPolarimetric performance metric (OPM) shall measure deviation (rms, average offset, and med) of source polarisations (polarisation degree and angle) from known standards.The SDP Spectrometric performance metric (SPM) shall measure deviation (rms, average offset, and med) of source spectral lines from known standards.The deconvolution step shall contain a major and a minor cycleThe spectral line pipelines shall rotate the visibility phase centre to a given direction within the field of view.The Metric subsystem shall receive the deviation (rms, average offset, and med) of source fluxes from known standards from the Calibration Pipeline.The SDPshall include as data products the pipeline processing log, and Quality Assessment log for all pipelines.The Metric subsystemshall receive noise fluctuations (rms, average offset, and med) in the images produced by the Imaging Pipeline from the Calibration Pipeline.The Calibration Pipeline shall perform standardised, automated Quality Assessment of Images along the axes of astrometry, photometry, radiometry, polarimetry, and spectrometry.The Imaging Pipelineshall perform standardised, automated Quality Assessment of Images along the axes of astrometry, photometry, radiometry, polarimetry, and spectrometry.TheNon-Imaging Pipelineshall perform standardised, automated Quality Assessment of [TBD]TheScience Analysis Pipeline shall perform standardised, automated Quality Assessment of Images along the axes of astrometry, photometry, radiometry, polarimetry, and spectrometry.The Metric subsystem shall receive deviation (rms, average offset, and med) of source polarisations (polarisation degree and angle) from known standards from the Calibration Pipeline.The SDP shall receive the data packets from CSP in compliance with the CSP-SDP ICD.The Ingest Pipeline shall be capable of buffering the input data for the purpose of receiving and aligning data from the CSP.The SDP shall be capable of handling missing data packets coming from CSP.The SDP shall merge the metadata stream from the Telescope Manager with the data stream from CSP.The ingest shall be capable of gathering dataThe ingest pipeline shall be capable of transposing data.TheSDP shall be capable of automatically flagging known and unknown RFI.TheSDP shall be capable of automatically excising known and unknown RFI.TheSDP shall be capable of detecting data that is corrupted by RFI.The SDP shall be capable of removing strong sources at high data resolution.

The Metric subsystemshall receivedeviation (rms, average offset, and med) of source spectral lines from known standards from the Calibration Pipeline.The SDP shall be capable of integrating data in time and/or frequency.The ingest pipeline will be able to order (u,v) data over time.The HandleMissingData step will be able to detect missing data packetsThe ingest pipeline will be capable of ingesting metadata from the Telescope Manager.The ingest pipeline shall be able to combine data based on time, frequency channels, baselines and polarisation.The RFI detection will determine the RFI detection thresholdThe ingest shall flag data indicated as bad by the Telescope ManagerThe ingest pipelineshall flag RFI from lightning.The ingest pipelineshall compute the appropriate types of covariance matrices needed to improve the robustness of RFI mitigationThe SDP shall support the API specified in SKA-TEL.SDP.SE-TEL.TM.SE-ICD-001 for all interaction with the TM.The ingest pipeline shall generate metrics (TBD) about the data quality during flagging.The RFI mitigation step shall perform spatial filteringThe SpatialFiltering step will set the weights for spatial filteringThe Ingest Pipelineshall set the correct data weightsThe calibration pipeline shall be able to subtract observed and predicted visibilities from each other.The calibration pipeline shall fit model parameters for the instrumental and or sky models taking observed and predicted visibilities as input.The calibration pipeline shall be able to correct for direction independent effects.The SDP shall allow TM to schedule a requested observation.The SDP shall be robust against input errors including invalid state, improper authorisation, and malformed or malicious commands.The continuum pipeline shall be able to perform self-calibration in order to achieve noise-limited performance.The calibration pipeline shall produce visibilities by taking as input the local sky model and instrument models.TheSDP shall have an ingest pipeline to condition the input data.The calibration pipeline shall be able to flag visibilities on the basis of calibration solutions.The SDP shall provide scale sensitive two-dimensional (i.e. on the tangent plane) deconvolution.The continuum pipeline shall update the global sky model based on the current local sky model.The science analysis pipeline shall findthe location of bright sources of emission for use in the sky model.The science analysis pipeline shall locate extended sources within images.The science analysis pipeline shall calculate the spectral indices of detected continuum sources.The SDP shallprovide engineering support functions to the relevant Engineering Operations centres.The science analysis pipeline shall transform the images and cubes received from the imaging pipelines into a form suitable for source detection and characterisation.The science analysis pipeline shall perform continuum source finding.The science analysis pipeline shall perform stacking. Details TBD.The science analysis pipeline shall perform stacking of spectral line sources. Details TBDThe science analysis pipeline shall analyse sources...... TBDThe science analysis pipeline shall extract the profile of sources detected in image cubes.The science analysis pipeline shall locate sources of spectral line emission in image cubes.The science analysis pipeline shall locate point sources within images.The science analysis pipeline shall perform stacking of continuum sources. Details TBD.The SDP shall actively ensure that internal failures do not result in a hazardous situation to thesystems and personnel with which it interfaces.The science analysis pipeline shall transform image cubes so that each frequency channel has consistent spatial scale.The science analysis pipeline shall combine real time updates of images to form a composite image for source detection and characterisation.The Data Layer shall provide a service to allow access to bulk data contained in the science archive.The Data Layer shall provide a service to allow access to data contained in databases in the science archive.SDP shall be capable of receiving pulsar timing data in accordance with the SKA-TEL.SDP.SE-TEL.CSP.SE-ICD-001 Interface Control Document.Pulsar Timing Post Processing shall be capable of identifying and removing RFI signals from pulsar timing data.Pulsar Timing Post Processing shall be able to average input data in time using a weighted sum of sub-integrations with precomputed weights.SDP shall be capable of receiving pulsar periodicity search data in accordance with the SKA-TEL.SDP.SE-TEL.CSP.SE-ICD-001 Interface Control Document.Pulsar Search Post Processing shall be able to receive pulsar candidates and associated data from CSP.When provided with a suitable template, signal-to-noise and pulsar parameters, SDP shall be able to measure the arrival time of a pulse with a precision of 5ns

SDP shall be capable of determining the time-of-arrival of a pulse from pulsar timing dataPulsar Timing Post Processing shall output residuals for each profile from each observed pulsar.SDP shall be capable of operating in a non-imaging transient search mode, concurrently with continuum imaging mode and periodicity search modePulsar Search Post Processing shall combine periodicity search candidates from all beams received from CSP.SDP shall be capable of performing data pre-processing on pulsar timing data.Pulsar Search Post Processing shall be able to receive non-imaging transient candidates and associated data from CSP.Pulsar Timing Post Processing shall apply polarisation calibration parameters provided by TM to pulsar timing dataPreliminary alerts for pulsar discoveries shall be sent to the TM within 1 hour of the candidate data having arrived at Pulsar Search Post ProcessingPulsar Timing Post Processing shall estimate the covariance matrix of the residuals using a provided model of the noise processes in the residualsSDP shall be capable of receiving non-imaging transient search data in accordance with the SKA-TEL.SDP.SE-TEL.CSP.SE-ICD-001 Interface Control Document.The SDPshall provide science archive metadata for the purpose of data discovery.Pulsar Timing Post Processing shall be able to average input data in time to increase the significance metric of the input data per sub-integration to a precomputed valuePulsar Search Post Processing shall alert the telescope manager of the discovery of a pulsar with an average false alarm rate of better than (TBD) 1 per day.SDP shall be able to estimate the uncertainty in the arrival time of a pulse to better than 5%SDP shall introduce no more than 5ns systematic error in the time-of-arrival determination.SDP shall provide preliminary alerts for the detection of fast transient events within 10s (TBC) of the data containing that event arriving at SDP.Pulsar Search Post Processing shall generate a set of heuristics that can be used to assign a probability to each non-imaging transient candidate.SDP shall output a single ranked list of non-imaging transient candidates from each observationPeriodicity Search Post Processing shall classify pulsar candidates using a classifier which achieves TBD values for false positives, false negatives, accuracy, and ???Pulsar Timing Post Processing shall be able to receive at least 16 folded pulsar data streams per observation, from CSPPulsar Timing Post Processing shall use at least 32 bits of precision when averagingThe Archive API shall deliver science archive metadata that is, as a minimum, consistent with the IVOA Standard Observation Data Model Core Components (ObsCoreDM). The ObsCoreDM defines the core components of an Observation data model that are necessary to perform data discovery.Pulsar Timing Post Processing shall use a covariance matrix to weight the fit of the pulsar timing model.Pulsar Timing Post Processing shall be able to compute the difference (residual) between the measured arrival time of a pulse and that predicted by a pulsar timing model without increasing the error budget by more than 1 ns.SDP shall provide alerts for the probable discovery of pulsars within a TBD timeframe of data potentially containing that pulsar arriving at the SDP.Pulsar Timing Post Processing shall apply flux calibration parameters provided by TM to pulsar timing dataPulsar Search Post Processing shall determine how many beams each non-imaging transient candidate is detected in and add that information to the candidate data stream.Pulsar Timing Post Processing shall output an updated pulsar timing model for each observed pulsar.Pulsar Timing Post Processing shall compute an updated pulsar timing model for each observed pulsar by performing a generalised fit to the computed residuals, including those extracted from the archive that have been computed from previous observations.Pulsar Search Post Processing shall output a single ranked list of pulsar candidates from each observation with data content described by TBD [SDP data archive description document]SDP shall output a single ranked list of pulsar periodicity candidates from each observation.Periodicity Search Post Processing shall generate a set of heuristics that can be used to assign a probability to each pulsar candidate.The Archive API shall deliver science archive metadata for multi-dimensional data products that is, as a minimum, consistent with the proposed IVOA Standard Image Data Model (ImageDM). The ImageDM is an ObsCoreDM extension to describe multi-dimensional data, for handling data cubes.Pulsar Search Post Processing shall determine how many beams each pulsar candidate is detected in and add that information to the candidate data stream.Pulsar Timing Post Processing shall be able to average input data in time to increase the significance metric of the input data per sub-band to a precomputed valuePulsar Search Post Processing shall archive all non-imaging transient candidates recieved from CSP.Pulsar Search Post Processing shall combine non-imaging transient candidates from all beams received from CSP.Preliminary alerts for non-imaging transient events shall be sent to the TM within 10 seconds of the candidate data having arrived at Pulsar Search Post ProcessingSDP shall be capable of fitting a pulsar timing model to pulsar times-of-arrivalPulsar Search Post Processing shall output a single ranked list of pulsar candidates from each observation with data content described by TBD [SDP data archive description document]Pulsar Search Post Processing shall archive all periodicity search candidates recieved from CSP.Pulsar Search Post Processing shall alert the telescope manager of the detection of a non-imaging transient event with an average false alarm rate of better than (TBD) 1 per day.Pulsar Timing Post Processing shall be able to average input data in frequency using a weighted sum of sub-bands with precomputed weightsThe Archive API shall deliver science archive metadata for TBD data products, that is, as a minimum, consistent with the IVOA Standard Spectrum Data Model (SpectrumDM). The SpectrumDM data model may be used to represent spectra, time series data, segments of spectral energy distributions, and other spectral or temporal associations.Pulsar Search Post Processing shall classify non-imaging transient candidates using a classifier which achieves TBD values for false positives, false negatives, accuracy and ???SDPshall provide authenticated users authorized access to proprietary metadata and data.Maintain display customizations for web visualisation of science archive metadata and data.The SDP shall not admit third party data products to the science data archive.The SDPshall providean archive for each telescope, located in the Science Processing Centre, for storing selected science data products for subsequent access by users according to science data access policy.The data layer shall provide an access method to science data products.

Access methods to the science data archive shall not impact the performance of telescope operations such as science data product ingest.The science archive shall be loaded with TBD standard data model compliant meta data for the purpose of discovery and characterization of data products. IVOA data models shall be supported where applicableThe SDP shall provide science archive data discovery for the purpose of delivery.Science archive data discovery service shall, at a minimum, be searchable by the IVOA Standard Table Access Protocol (TAP). TAP defines a service protocol for accessing general table metadata and data. ObsCoreDM defines the general table metadata.The SDP shall query status of science and calibration data streams.The SDP shall log received status information.The SDP shall use received status information to report on technical performance.The SDP shall provide the capability to attach QA-related data to data output streams.Liquid cooling shall be available to each local storage / networkrack with a flow rate range of TBD to TBD and a temperature range of TBD to TBDComponent system state information of the SDP compute systemshall be made available as part of the observation meta data.There shall be a mass storage system that automatically moves data between high-cost and low-cost storage media for optimised performanceThe Data Service Layer ensures that data access shall be independent of the physical schema of the underlying compute infrastructure.The Master Controller shall provide an OK/FAIL response with reasons when a schedule request is issued.The Archive API multi-dimensional image science archive data discovery service shall, at a minimum, be searchable by the IVOA Standard Simple Image Access (SIA) protocol?SIA-2.x. SIA provides capabilities for the discovery of and access to detailed metadata for multi-dimensional image datasets, including 2-D images as well as datacubes of three or more dimensions.The spectral line pipelines shall be able to image multiple pre-determined areas smaller than the full field of view within a single pointing.The spectral line pipelines shall have the ability to remove continuum structure based on the products of the continuum imaging pipeline.The Master Controllershall be robust against input errors including invalid state, improper authorisation, and malformed or malicious commands.Placeholder requirement for definingcapabilities. Waiting for clarity on telescope model. TBDThe Master Controllershall provide a uniform and singular point of control for the SDP for all components of the MeerKATtelescope, including any precursor infrastructure that may form part of the MeerKATtelescope.The Master Controller shall provide a uniform and singular point of control for the SDP for all components of the ASKAP telescope, including any precursor infrastructure that may form part of the ASKAP telescope.The Master Controller shall receive requests for observations from the Telescope Manager.The Master Controller shall receive flagging parameters from the Telescope Manager and instruct the Calibration Pipeline to apply these flagging parameters.The Master Controllershall provide engineering support functions to the relevant Engineering Operations centres.The Science Data Archive shall have a release statusfor each data product and the system shall support scheduled changes to this status information.The SDP Delivery Platform shall provide a client that executes the Archive API TAP and SIA2.x discovery facilities. The client will execute local to the user.The Science Data Archiveshall provide methods for consistently setting and updating the release status of shared data products in the context of commensal observing.The Science Data Archive shall support an extensible list of defined user roles for the purpose of authorisation.The Science Data Archive shall support an extensible set of data product types.The Science Data Archive shall have the ability todefine access to metadata and data products separately.The scientific quality and usability of SDP outputs shall be no worse than if all of the relevant processing steps inside the SDP were carried in double precision floating point arithmetic.The SDP shall provide acalibration pipeline for EoR purposes.The SDP shall be able to restore visibilities from the science data archive to the buffer in order to process visibilities from previousobservations.The SDP shall be able to restore image cubes from the science data archive to the buffer in order to produce image cubes combining multiple cubes from previously processed data.The Data Layer shall be able to transfer image cubes from the science data archive to the buffer for further processing.The Continuum Imaging and Spectral linepipeline shall be able to combine multiple image cubes appropriately.The SDP shall describe the science data archive metadata attributes and relationships.The SDP shall recover gracefully from internal failures in both hardware and software. Priority is to be placed on preserving partially processed or buffered data to allow processing to be restarted if possible.The SDP, on entering an error state,shall preserve structurally valid intermediate data products until commanded to discard them.The SDP, on entering an error state, shall inform the TM on the state and availability of intermediate data products.The SDP shall allow the TM to request a restart of a particular observation based on the availability of intermediate data products.The SDP shall be responsible for the indentifiction, creation and dissemination of data flow graphsThe Master Controller shall provide updated data flow models to the Data Flow Manager as/when they are needed.The SDP shall maintain profiles of pipeline components needed for the construction of data flow graphs.The SDP shall determine the availablity of hardware resources needed for the construction of data flow graphs.The SDP shall build physical data flow deployment graphs based on chosen data flow models.The Master Controller shall control all aspects of SDP power managementThe SDP Delivery Platformshall provide a client that executes the Archive API TAP descriptive facilities to retrieve, as a minimum, the ObsCoreDM-compliant description of the science data archive metadata attributes and relationships. The client will execute local to the user.The Master Controller shall load the standy configuratuon scheme into the power control system to allow for the transition to the unconfigured state.The Master Controller shall allow observations to be simulated (without the Telescope Manager) in conjunction with a meta-data simulator and CSP simulator.The Master Controller shall initiate an event handler in response to specific events and/or alarms.

The Master Controller shall aggregate and suppressevents based on pre-defined rules.The Master Controller shall validate key elements of the telescope model.The Master Controller shall update key elements of the telescope model.The Master Controller shall provide a serialised view of the current telescope model.The Master Controller shall provide a transaction capability for high update rate use cases to allow control of how changes propogate through the telescope model.The SDP Delivery Platformshall provide a client that executes the Archive API SIA descriptive facilities to retrieve the ObsCoreDM-compliant description of the science data archive metadata attributes and relationships and the ImageDM-compliant detailed metadata. The client will execute local to the user.The Archive API shall deliver selected archive data products, VO data, and public and outreach data according to specified standards to the end user.The Archive API shall deliver archive data products, VO data, and public and outreach data as defined by the IVOA StandardDataLink.The DataLink service supports linking of data discovery metadata to detailed metadata, to the data itself, and to standard and custom services that perform operations on the data before delivery. The standard provides options to distinguish between data products.The Archive API shall deliver archive data products, VO data, and public and outreach data as defined by the proposed IVOA Standard AccessData in standard formats.The Delivery Platform Public Interface shall provide a client that executes the Archive API DataLink and AccessData delivery facilities. The client will execute externally to the SDP.The SDP shall provide commands to control a previously scheduled observation.The SDP data model shall support the Archive API by conditioning science data product metadata with the named VO standards.The SDPDelivery Platformshall deliver science archive metadata for web client visualisation.The Delivery Platform shall deliver science archive metadata in the IVOA StandardVOTableformat for http client visualisation.The VOTable format is an XML standard for the interchange of astronomical data represented as a set of tables.The SDP Delivery Platformshall provide previews (optimized sub-sampling) of data for http client visualisation.The SDP Delivery Platform shall deliver science archive data for interactive remote visualization, accessible through a standard web browser.The Data Delivery Platform shall provide a client that executes the science archive VO Event Transport Protocol to retrieve, as a minimum the Standard Sky Event Reporting Metadata model-compliant description of the science data archive metadata attributes and relationships, and the detailed metadata. The client will execute local to the user.The SDP Delivery Platform data visualization client shall support, as a minimum, the following viewing features: 1 pan; 2 zoom; 3 colormap adjustments; 4 celestial coordinate system grid overlays; 5 multiple image overlays; 6 switching frames; blinking i.e. manual or automatic switching rapidly between different images, regions or frames.The SDP Delivery Platform data visualization client shall provide a plug-in system that will support the execution of data analysis software as part of visualization.The Master Controllershall provide a START command to allow a scheduled mode of operation to commence.The SDP Delivery Platform data visualization client shall display, as a minimum, analysis plug-ins for: 1 region statistics; 2 histograms; 3 spectrum calculators; 4 moment generators; 5 1D and 2D gaussian fittingThe SDP Delivery Platformdata visualization client shall allow multiple users to interact with the same viewing session simultaneously.The SDP DELIV PI data visualization client shall support the creation, retrieval, modification, and deletion of visualization sessions.The SDP Delivery Platform data visualization client shall support the maintenance of the following information, as a minimum, for a user: 1 default toolbars; 2 default celestial coordinate systems; toolbar customizations; plugin-specific customizations; plot display attributesThe SDP Delivery Platform data visualization client shall support customization options for plot display attributes.The SDP Delivery Platform data visualization client shall support the storage and retrieval of plots as high-resolution files generated during a visualization session.The SDP Delivery Platform data visualization shall provide an API that supports automation of the generation of analysis plots from archive data.The Data Layer shall support the data visualisation by providing science data products in TBD formats, such asCASA image, HDF5, and FITS file formats.The Archive API shall provide a mechanism to recognize authentication credentials.The Archive API shall provide an interface to multiple static or dynamic federated identity management mechanisms for authenticating user credentials.The Master Controllershall provide a STOP command to allow a currently executing mode of operation to be terminated permanently.The Archive API shall implement anonymous delivery of TBD public science archive metadata and data products.The Archive API shall support certificate-based credential authentication.The Data Delivery Platform shall deliver science archive metadata for VO Events that is, as a minimum, consistent with the IVOA Standard Sky Event Reporting Metadata model. The VOEvent DM is used to describe transient celestial events.The Archive API shall support the linking of an external authentication credential with an SKA authentication credential.The Archive API shall implement authorized access to proprietary science archive data for delivery.The Archive API shall authorize role maintenance, metadata description, metadata retrieval, and data delivery, by user role.The Archive API shall log science data product access by credential.The SDPDelivery Platform shall provide a client that executes the Archive API authorization facilities.A log of user behavior (e.g. access history) will be kept by the Delivery Platformwhich will be synchronized across geographically distributed locations.The RCs shall support the Archive API by providing for the replication of user credentials from the SDP.Waiting for the description from BojanPlaceholder requirement for RM synthesis.Waiting for the description from Bojan.Missing L1 requirement for SDP power cap.South African Engineering Operations Centre. The South African Engineering Operations Centre shall be located at Klerefontein.South African Science Processing Centre.The South African Science Processing centre shall be located in Cape TownAustralian Engineering Operations Centre The Australian Engineering Operations Centre shall be in in Geraldton.Australian Science processing centre The Australian Science Processing Centre shall make use of floor space, power, cooling, and other infrastructure at the Pawsey centre in Perth.Simultaneous operation of telescopes. All three telescopes shall be capable of operating concurrently and independently.

Sub-Arraying. All of the SKA1 telescopes shall be capable of operating independently with one to sixteen sub-arrays (i.e. collecting area is split and allocated to separate, concurrently observing programmes).Continuum and spectral line imaging mode. All three SKA1 telescopes shall be capable of operating in a Continuum and Spectral-line imaging mode concurrently.Pulsar Search Mode . The SKA1_mid telescope shall be capable of operating in a Pulsar search mode, concurrently with Continuum imaging mode.Pulsar Timing Mode. The SKA1_mid telescope shall be capable of operating in a Pulsar timing mode, concurrently with continuum imaging mode.Transient search mode . Each of the SKA1 telescopes shall be capable of operating in a transient search mode TBCMode transition. The switching time between telescope operating modes shall take less than 30 seconds (not including antenna slewing time)Electromagnetic frequency range. SKA1_Low shall be able to measure electromagnetic radiation in a frequency range from 50 MHz to 350 MHz.SKA1_Low station diameter . The station diameter will be 35 metres, which is consistent with being able to provide a single, circularly symmetric, beam of 5 degrees at the half-power points at 100 MHz (centre of the EoR frequency range) while meeting the sensitivity requirements with 256 antennas per station evenly distributed in an irregular-random configuration.SKA1_L ow number of stations . The SKA1_Low shall comprise of 1024 stations.Instantaneous bandwidth. The SKA1_Low shall be capable of simultaneously processing 300 MHz of bandwidth.SKA1_Low channelisation. The SKA1_Low channelisation for each sub array shall provide up to 256,000 linearly spaced frequency channels across the available frequency range of each band.SKA1_Low correlator Integration rate . T he SKA1_Low correlator for each sub array shall have independently configurable visibility integration periods in the range 6s to 0.6s.Diameter. SKA1 dishes shall have a projected diameter of larger than or equal to 15m and smaller than 16.5m.Pointing repeatability. The pointing repeatability shall be better than 10 arc seconds rms for winds 7 m/s at night time.Pointing repeatability . The pointing repeatability shall be better than 17 arc seconds rms for an average wind speed of 7 m/s in the day timePointing repeatability. The pointing repeatability shall be better than 180 arc seconds rms for an average wind speed between 7 and 20 m/sPolarisation Purity. The IXR shall be better than 15 dB over the whole observing bandwidth within the HPBWMeerKAT array. The monitor and control functions of MeerKAT shall be made available to SKA1_Mid via a Foreign Telescope interface consisting of a Local Monitor and Control system connected to the SKA1_Mid Telescope Manager.Combined SKA1 Mid Configuration. 42 % of the Combined SKA1_Mid shall be within a radius of 400 m of the array centre.Combined SKA1_Mid configuration. 14 % of the combined SKA1_Mid array shall be within a radius between 4,000m and 100,000 m of the array centre.RF system sampled bandwidth band 1. The instantaneous bandwidth for band 1 will be 700MHz and shall be sampled to at least 2.0 G samples per second for each polarisation.RF system sampled bandwidth band 2. The instantaneous bandwidth for band 2 will be 810 MHz and shall be sampled to at least 2.0 G sample per second for each polarisation.RF system sampled bandwidth band 3 The instantaneous bandwidth for band 3 will be 1,403 MHz and shall be sampled to at least 5.0 G samples per second for each polarisation.RF system sampled bandwidth band 4 The instantaneous bandwidth for band 4 will be 2,380 MHz and shall be sampled at at least 5.0 G samples per second for each polarisation.RF system sampled bandwidth band 5 The SKA_Mid, for band 5, shall digitise two separate 2.5 GHz bands for each polarisation.SKA1_Mid channelisation. The SKA1_Mid channelisation for each sub array shall provide up to 256, 000 linearly spaced frequency channels across the sampled bandwidth of each band.SKA1_Mid correlation integration period. The SKA1_Mid shall have independently configurable visibility integration period from a maximum integration time of 0.8s to a minimum of 0.08s for each subarray.Beam-former sub-array support. The SKA1_Mid central beam-former shall be able to form beams or more beams for one to sixteen sub-arrays independently and concurrently.Number of beams: Pulsar search. SKA1_Mid, when performing the Pulsar Search function, shall simultaneously form up to a total of 2222 beams per observation across all sub arrays .Beamformer S/N pulsar search. The SKA1_Mid central beam-forming for each sub array shall have a Signal to Noise ratio greater or equal to 98% of ideal analogue beam forming for the same sub array:Number of beams: Pulsar timing. The SKA1_Mid central beam-former for Pulsar timing shall be capable of forming up to 16 dual polarisation coherent beams in total across all timing sub-arrays.Beamforming S/N ratio: Pulsar timing. The SKA1_Mid for Pulsar timing shall have a Signal to Noise ratio greater or equal to 98% of an ideal analogue beam former.Time resolution. The time resolution of the SKA1_Mid pulsar search processing for each sub-array shall be equivalent to the temporal smearing due to dispersion at the observation frequency and bandwidth of the observation with a quantisation of value in powers of 2 from 50 µs to 800 usBinary search. For each Pulsar search sub-array within SKA1_Mid the processing shall be capable of searching for binary systems with accelerations due to their orbital motion of up to 350 ms -2 .Frequency agility. The SKA1_Mid system shall, for each timing sub-array, be able to change from observing in any frequency band, to observing in any other frequency band in less than or equal to 30 seconds.Multiple timings. The SKA Phase 1 shall be capable of timing up to 16 pulsars simultaneously in total across all timing sub arrays .Pulsar timing Dispersion Measure. The SKA1_Mid shall be capable of timing pulsars with dispersion measures between 0 to 3000 pc cm -3 such that residual dispersive smearing is less than 500 ns.SKA1_Survey configuration. 22% of the SKA1_Survey array shall be within a radius of 4,000 m and 25,000 m of the array centreRF system frequency range PAF band 1 The SKA1_Survey PAF for band 1 shall have a frequency range from 350 to 900 MHz for each polarisation.RF system frequency range PAF band 2 The SKA1_Survey PAF for band 2 shall have a frequency range from 0.650 to 1.670 GHz for each polarisation.RF system frequency range PAF band 3. The SKA1_Survey PAF for band 3 shall have a frequency range from 1.500 to RF system frequency range PAF band 3 The SKA1_Survey PAF for band 3 shall have a frequency range from 1.500 to 4.000 GHz for each polarisation.Maximum available bandwidth The SKA1_Survey shall have a PAF bandwidth of at least 500 MHz for each polarisation and beamSKA1_Survey digitised bandwidth The SKA1_Survey digitised bandwidth for each PAF shall be greater than 500 MHz for each polarisation.SKA1_Survey number of beams. The SKA1_Survey shall beam-form the element signals in each band to provide 36 full bandwidth, dual polarisation beams per antenna.SKA1_Survey channelisation. The SKA1_Survey channelisation shall provide 256, 000 linearly spaced frequency channels across the frequency band of each PAF band.SKA1_Survey correlator dump period. The SKA1_Survey correlator shall have a programmable dump period in the range 3 seconds to 0.3 secondsSKA1_Survey imaging dynamic range – band 1. The SKA1_Survey array shall have an imaging dynamic range of greater than:band 1: 55dB for a 1000 hour single-field integrationband 2: 56dB for a 1000 hour single-field integrationband 3: 54dB for a 1000 hour single-field integration.SKA1_Survey spectral dynamic range. The spectral dynamic range for SKA1_Survey shall be better than 30dB between adjacent channels and 60dB globally.SKA1_Survey inclusion of ASKAP. The SKA1_Survey shall incorporate the 36 ASKAP antennas in both monitor and control and data collection functions.SKA1_Survey single array operation . SKA1-Survey shall be capable of operating ASKAP and SKA1 dishes as single array for frequency band 2.

SKA1_Survey sub-arraying. It shall be possible to split the SKA1_Survey array into independent operable ASKAP and SKA1 dish sub-arrays.SKA1_Survey derotation. SKA1_Survey shall provide PAF rotation capability sufficient to orient Phased Array Feed beams on a sky coordinate frame independent of parallactic angle.System status. The system shall extract information about the current condition of the system from the science and calibration data streams, and log this information along with other relevant system and environmental status information. Based on this information, it shall be possible to monitor, save, and analyse the technical performance of the system.Central location for data bases. External sources of information used by the Elements shall be cached by Telescope Manager. No sources other than those cached by TM shall be used.Target of opportunity. TOO observing shall be via Scheduling Blocks.Latency of TOO scheduling block initiation . Scheduling intervention on TOO triggers shall be initiated within 1s of receiving the trigger.Discard previous scheduling block . At the launching of a TOO Scheduling Block, the results from any active Scheduling Blocks shall be discarded.Alarm latency. Latency from event to alarm shall be no more than 5 seconds.Closed loop calibration. The telescope calibration shall be solved by comparison of observed with GSM predictions with a time scale appropriate to the component and physical effect being calibrated and fed back to the telescope.Direction dependent effects. Self-calibration and image reconstruction algorithms shall be capable of dealing with direction dependent effects.Global sky model. Calibration and continuum subtraction shall use a Local Sky Model, derived from a Global Sky Model or previous Local Sky Model.Multi-frequency synthesis imaging . All imaging shall construct and make use of frequency dependent image models over the entire observed bandwidth.Deconvolution of single channels Scale sensitive two-dimensional (i.e. on the tangent plane) deconvolution shall be available.Solution for pointing errors. It shall be possible to solve for and correct time- and station-dependent pointing errors with accuracy and timescale limited by signal to noise ratio.Peeling. Peeling of bright sources (strength limited by signal to noise ratio) from the visibility data shall be possible.Continuum source finding. Where appropriate, continuum source finding shall be conducted on images generated by the Continuum Imaging pipeline. Polarization shall be fitted if available.Spectral line source finding. Where appropriate, spectral line source finding shall be conducted on image cube generated by the Spectral Line pipeline.Stacking. Where appropriate, spectral line stacking shall be conducted on image cubes generated by the pipelines using a priori known source lists.Standard pipeline products. All pipelines shall include as data products the pipeline processing log, and Quality Assessment log.Calibration pipeline. There shall be a Calibration pipeline that derives current telescope parameters using a recent observation and a Global Sky Model, either a known GSM or the most recent GSM.Continuum imaging pipeline. There shall be a Continuum Imaging pipeline that shall have the goal of constructing noise-limited wide-band images for observations up to 1000h integration time. Polarisation shall be available if requested or necessary for calibration or quality assurance.Continuum imaging data products. The Data Products shall include the first n moment images for multi-frequency synthesis, corresponding residual images (if deconvolved), sensitivity image and representative PSF image, where n is set by signal to noise ratio.Spectral line emission pipeline. There shall be a Spectral Line Emission pipeline that is optimised for constructing noise-limited (up to 1000h integration) channel cubes of spectral line emission either with continuum emission remaining or with continuum emission removed.Spectral line emission data products. The data products shall include spectral line cube image, continuum model images, sensitivity image, and representative point spread function.Spectral line absorption pipeline. There shall be a Spectral Line Absorption pipeline that is optimised for constructing noise-limited channel cubes of spectral line absorption with continuum sources removed.Spectral line absorption data products. The data products shall include spectral line cube image, continuum model images, sensitivity image, and representative point spread function.Slow transient pipeline. There shall be a Slow Transient imaging pipeline that shall be capable of constructing a continuum image after a GSM has been subtracted for every correlator integration time or slower, searching for transient sources, and producing a time-ordered catalogue.Slow transient data products. The data products shall include a catalogue of found sources, a sensitivity image, and representative PSF image.Automated Quality Assessment. All pipelines shall perform standardised, automated Quality Assessment of Images along the axes of astrometry, photometry, radiometry, polarimetry, and spectrometry.Role of science processing centres. The science-processing centre will convert the output data from the CSP into science data products to be stored in the science data archive.Mirror sites. All data within Science Archives shall have a secondary copy located offsite in a secure location.Web interface. The science data archives shall be accessible from the internet via a standardised web interface.Virtual Observatory interface. The science data archives shall be accessible via a set of recommended IVOA services chosen to allow access to all approved data products.Archive API. The science data archives shall publish a user accessible, open API in a small number of complementary languages such as Python, C++, and Java.Data product provenance. An official data product shall have known, documented provenance, and shall have been produced via SKA observations and processing.QA annotation. The telescope shall facilitate the addition of QA annotations by Users.Third party data products. Third party data products shall not be admitted to the archive.Science data product archive policy. There shall be a policy, developed and administered by Operations, governing which types and sizes of data products will be retained in the archive and for how long.Archive access. A telescope archive will be nominally open for access 24/7/365, with no more than 24 hrs planned downtime per year. Unplanned downtime shall be consistent with availability budget.Archive lifetime. The science data archives shall be designed to provide an archived data lifetime of not less than 50 years from the start of archived observations.Data migration plan. Operations shall maintain at all times and update yearly a current data migration plan covering the contingency of moving from one archive platform to another.Distribution of data products. As limited by resource constraints, it will be possible to deliver science data products to approved off-site facilities, which may be globally distributed.SADT to SDP interface . The interface between SADT and SDP shall be compliant with the SKA-TEL.SADT.SE-TEL.SDP.SE-ICD-001 Interface Control Document.SDP to TM interface . The interface between SDP and TM shall be compliant with the SKA-TEL.SDP.SE-TEL.TM.SE-ICD-001 Interface Control Document.SDP to INFRA interface . The interface between SDP and Infra shall be compliant with the SKA.TEL.SDP.SE-TEL.INFRA.SE-ICD-001 Interface Control Document.Design for Extensibility .Design trade studies for SKA1 shall include scenarios where design features are included which will allow Increases in the number of receptors for SKA2 over SKA1 by a factor of 10 whilst re-using more than 90% of SKA1 hardware The introduction of AIP technologies at SKA2 scales whilst re-using more than 90% of SKA1 hardware Such trade studies shall yield the incremental cost of such scenarios over those which do not include such design features.Hazard analysis . A hazard analysis shall be performed at the system and element level in accordance with BS IEC 61882 and, where applicable, shall include a FMEA in accordance with EN 60812.Safety incident recovery plan. A safety incident recovery plan shall be produced in accordance with SKA PRODUCT ASSURANCE SAFETY PLAN SKA-OFF.PAQA-SKO-QP-001.Design for hazard elimination. Designs shall demonstrate the elimination, or mitigation to a risk level practically achievable, of all hazards by means of a subsystem hazard analysis (SSHA) report as described in EN 14738 and tailored by SKA Product Assurance and Safety Plan SKA-OFF.PAQA-SKO-QP-001.Fail safe design. Components and Equipment shall be designed to be locally fail-safe and not rely on external safety devices or measures to operate safely.

Emergency stop . The SKA1 Elements shall have emergency stop switches or brakes for all electro-mechanical or mechanical systems that have been identified by safety analyses (required under SKA1-SYS_REQ-2435) to pose a hazard.Protection from high voltages. High voltage cages or enclosures shall be used to protect personnel from inadvertent access to high voltages in accordance with AS/NZS3000 (Australia) and SANS10142 (South Africa).Safety grounding and bonding . External conductive parts shall be grounded in compliance to:South Africa:National Building Regulations and Building Standards Act, 1977Occupational Health and Safety act, 1993SANS 10313Australia:AS/NZ 3000,AS/NZ 1768Electrical circuit interlocks . Electrical circuit inter-locks shall be provided to prevent personnel coming into contact with hazards that cannot otherwise be eliminated from design.Electrical safety . Electrical risks and hazards shall be controlled in accordance with local, State and national legislation and Codes of Practice.NOTE: In South Africa, SANS 10142-1 and SANS 10142-2 shall apply.NOTE: In Australia, in addition to legislation, the following Codes of Practice shall be applied:AS/NZ 3000Safe Work Australia 'Managing Electrical Risks at the Workplace';Western Australia Director of Energy Safety 'Safe Low Voltage Work Practices by Electricians'Sharp metal edges . If they cannot be eliminated from design, sharp edges, access openings and corners shall be protected with covers or coatings where feasible.Stand-off and handles . Stand-offs and handles shall be used to protect system components from damage during shop maintenance.Construction and AIV Safety Plan. A comprehensive safety plan, tailored to construction and AIV activities, shall be established and implemented before the construction starts at the observatory site.Safety information for use. Where risks remain despite inherently safe design measures, safeguarding and the adoption ofcomplementary protective measures, the residual risks shall be identified in the information for use in accordance with BS EN ISO 12100 (section 6).The information for use shall include, but not be limited to, the following:âŽS afety training . All personnel shall be provided with appropriate Health and Safety training in compliance with local regulations.Protective clothing. Protective Clothing for areas where environments detrimental to human safety shall be worn.Fire fighting equipment . Fire fighting equipment shall be made available at all SKA premises and facilities.Noise level dosage. Personnel shall not be exposed to noise level dosages exceeding local health and safety guideline levels. The maximum noise levels shall not exceed an 8-hour average exposure of 85 decibels as specified in the Australian National Standard for Occupational Noise NOHSC: 1007(2000) and South African Noise-Induce Hearing Loss Regulations (No R.307 2003) of the Occupational Health and Safety Act, 1993 (Act No 85 of 1993). The desirable maximum noise level is 75 decibels. Note: The National Code of Practice for Noise Management and Protection of Hearing at Work [NOHSC:2009(2004)] provides practical guidance on how NOHSC:1007(2000) can be achieved.Transient noise level. Noise levels exceeding 85dB shall be controlled or mitigated in accordance with NOHSC National Standard for Occupational Noise [NOHSC: 1007].Illumination. Personnel shall be provided with a working illumination level which is compliant with local and national regulations including the current issue of SANS 10114-1 in South Africa and the AS/NZS 1680 series in Australia.Clean air. Personnel shall be provided with air quality at least compliant with the current issue of SANS 10400-O (South Africa - The application of National BuildingOccupational health legislation and regulations. The observatory shall comply with all applicable local, State and national occupational health regulations and standards in force at the time. Regulations include, but are not limited to:South Africa:Occupational Health and Safety Act, 1993, and all its regulations.Australia:Commonwealth Occupational Health and Safety Act 1991;OHS (Safety Arrangements) Regulations 1991;OHS (Safety Standards) Regulations 1994;OHS Codes of Practice 2008.Western Australia:Occupational Safety and Health Act 1984;Harmonised OHS legislation (as enacted).Electromagnetic Radiation. Any component of the observatory shall not emit electromagnetic radiation, in any of the stated frequency intervals for broad band and narrow band cases, that exceeds the SKA RFI/EMI Threshold Levels[4]Self-induced RFI. The SKA1 Telescope shall generate less self-induced RFI, within the Telescope's operating frequency bands, than the SKA RFI/EMI Protection Levels, for both broad band and narrow band cases, as specified in the "RFI/EMI Protection and Threshold Levels for the SKA" document. The SKA RFI/EMI Protection Levels are defined at the respective receiver input, and measured at the respective Telescope time series output.Electromagnetic Compatibility Standards. The SKA1 Telescopes shall be compliant with one or more of the following standards for emissions and one or more for susceptibility/immunity:*BS EN 61000-6-2. Electromagnetic compatibility (EMC). Generic standards. Immunity standard for industrial environments.*BS EN 61000-6-4 AMD2. Electromagnetic compatibility (EMC). Part 6-4. Generic standards. Emission standard for industrial environments.*BS CISPR 14-1. Electromagnetic compatibility. Requirements for household appliances, electric tools and similar apparatus. Part 1. Emission.*MIL-STD-464CElectricity network Electromagnetic Compatibility. The SKA1 telescopes shall follow the TBD code of practice for the application of Electromagnetic Compatibility (EMC) standards and guidelines in electricity utility networks.EMC compatibility marking. All "off-the-shelf" equipment shall possess as a minimum the host country EMC marking.Electromagnetic susceptibility. The observatory shall not be susceptible to terrestrial electromagnetic radiation at any frequency that significantly interferes with its normal operation.RFI flagging. The SKA1 telescopes shall automatically flag frequency data with a resolution of one channel and time data to the resolution of the integration unit if the data is corrupted by RFI.RFI excision. The SKA1 Telescopes shall automatically excise data that is corrupted by RFI.RFI masking. The SKA1 Telescopes shall flag data according to a pre-selected RFI Mask.Equipment security. The observatory shall provide a secure environment for equipment. This shall include protection of generators, fuel, solar cells and inter-station assets such as copper cables.Archive security. The observatory shall provide a secure environment for all its data archives.Emergency communication. The observatory shall provide an independent system to communicate with outside locations in emergencies.Accessibility. It shall be possible to control on a per user basis which SKA1 facilities and resources (both hardware and software) may be accessed by the user.Environment protection plan . An Environmental protection plan shall be developed and maintained. This shall include the management of Environmental Impact Assessments (EIA) in accordance with SA NEMA, WA EPA and Commonwealth EPBC.Environmental legislation and regulations. The observatory shall be compliant with all local, State and national environmental protection legislation and regulations.NOTE: Legislation takes precedence over project/contract documentation and requirements. Omission of a law from this requirement does not affect its enforceability. Legislation is also subject to amendment and so the Environmental Laws identified during the Request for Information (copied below) may be modified by the Hosting Agreements and subsequent Acts and Amendments.Legislation and regulations identified during the response to Request for Information include:South Africa:National Environmental Management Act, 1998 ("NEMA");National Water Act, 1998;National Environmental Management: Air Quality Act, 2004;National Environmental Management Waste Act, 2008;National Environment Management: Biodiversity Act, 2004;National Heritage Resources Act, 1999.*Australia:The Commonwealth Environment Protection and Biodiversity Conservation (EPBC) Act 1999.Safety. SKA1 equipment and buildings shall be designed and built in compliance with national and State regulations including AS 1170.4 (Importance level 3, design life 50 years) and SANS 10160-4 for earthquakes of magnitude up to Richter 3.8.Operating Humidity . The operating humidity shall be between 40% and 60%Storage and transport Humidity . The storage and transport humidity shall be between 40% and 95%.Condensation . Appropriate measures shall be taken to prevent the formation of condensation on operating electronic components.Pressure . Components shipped by air shall be capable of surviving pressures down to 11 kPa (equivalent altitude ~ 50,000 feet).Facilities and Equipment Intrusion . Where appropriate, SKA1 equipment facilities shall be adequately protected against intrusion by insect and "larger" wandering animals.Sand and Dust . SKA1 systems shall be adequately protected against sand and dust ingress.Fungus . Equipment shall be protected against fungus growth.Scope of workmanship standards. SKA1 dedicated workmanship standards shall cover all phases of production, assembly and integration, testing, handling, and include clear requirements for acceptance/rejection criteria.Best practice . Best available methods for reducing adverse effects of operational and maintenance environments on critical components shall be adopted.Critical-useful-life components . Any critical-useful-life components shall be identified.Component selection . Parts and components shall be selected to meet reliability requirements.Matching components . Parts requiring select on test shall be eliminated by deign if possible.Known f ailure rate parts. The failure rate of parts shall be known (e.g. through analysis or modelling) before inclusion in SKA design.High failure rate parts. Parts with excessive failure rates shall be identified.Reliability testing . A testing and evaluation master plan shall be generated for high-risk reliability components.Spares and repair parts testing . Critical spare and repair line replaceable units shall be tested before deployment.Component derating . Safety factors and margins shall be applied in the selection of modules and components

Shelf life and wear out characteristics . The shelf life and wear out characteristics of all components and parts shall be known before inclusion in SKA designs.Special procurement components . Critical parts requiring special procurement methods, testing and handling provisions shall be identified.Fail safe provisions . Designs shall implement fail-safe provisions to prevent secondary failures.Maintainability budgets. Maintainability budgets shall be allocated at the system decomposition level, and shall be consistent with the system level requirements for reliability and maintainability of the system.Test and Repair Instructions. Where end user repair is applicable Test and Repair Instructions shall be delivered with all equipment.Level of maintenance. The level of maintenance shall be identified for each repairable item.Maintenance test and support equipment. Equipment required for test and support shall be identified for each repairable item.Test and support equipment Test and support equipment shall be identified for each level of maintenance.Test and support equipment standardisation. Any test equipment not included in the standard test equipment list required for the integration, commissioning and maintenance of equipment shall be declared.Test and support equipment lifecycle costs. Life cycle costs shall be generated for all test and support equipment.Test equipment reliability Test equipment reliability shall be sufficient to meet the maintainability requirements.T raining A plan detailing the training required for maintenance, calibration and repair shall be generated.Direct fault indicators Where possible, direct fault indicators shall be designed in to equipment.Self-test . Self-Test capability such that all faults can be identified down to LRU level shall be provided.Continuous performance monitoring. Where possible, the system shall be designed to provide continuous performance monitoring.Malfunction detection. All equipment malfunction shall be detected at the system level.Ergonomics . The ergonomic design shall be compliant with ISO 6385.Access tools . Access requiring tools shall be minimised.Design for economic production . All designs for the SKA shall be designed for economic production. This is required to ensure that the SKA is buildable for a reasonable cost (Con Ops Section 1.2)Design definition . Design definition shall be in sufficient detail to allow one or more manufacturers to produce the same item within identified tolerances.Manufacturing facilities . Where possible, currently existing facilities shall be used for manufacturing.Standard manufacturing tools . Where possible, standard manufacturing tools shall be used.Materials list. Each sub-system supplier shall provide a Materials list for all items intended for use within SKA1.Hazardous Materials list. Each Element supplier shall provide a list of hazardous materials used for all items intended for use in the SKA1 detailing suggested handling precautions, disposal instructions and contra-indications.Parts list. Each Element supplier shall provide a parts list for all items intended for use in the SKA1.P rocess list. Each element supplier shall provide a process list for all items intended for use in the SKA1.Parts availability. The estimated availability of the parts shall be compatible with the final system's life cycle.Long lead time items . Long lead time items shall be identified to the project management.Material environmental rule compliance. All materials used in the SKA1 design shall be fully compliant to all environmental rules applicable to the SKA1 core and remote sites.Serial number . Each part shall be marked with a unique serial number in an easily visible location.Drawing numbers . Each LRU type shall be identified with a unique drawing number.Marking method. Method of marking shall be compatible with the nature of the item, its environment and its use.Electronically readable or scannable ID. Where possible line replaceable items shall be marked with an Electronically readable or scannable ID.Package part number marking . All packaging shall be marked with the part number of the contents.Package serial number marking . All packaging shall be marked with the serial number of the contents.Hazard warning marking . All items that present a potential hazard shall be labelled in accordance with BS EN ISO 7010.LRU electrostatic warnings All LRUs with electrostatic sensitive components shall be fitted with ESD warning labels.Packaging electrostatic warnings. All packaging containing static sensitive contents shall be marked with ESD warning labels.Cable identification. All cables ends shall carry a unique identifier.Connector plates. All connector plates shall carry identification labels for connectors.Modular packaging. The packaging of components shall be modular to limit maintenance to the removal of one module.Maintenance provisions. Repairable items shall be designed to include maintenance provisions such as test points, accessibility, and plug-in components.Discard at failure items. Discard at failure items shall be packed at low cost.Plug-in modules. The design shall implement plug-in modules to the maximum extent possible.Module access . Where applicable, access between modules shall be sufficient to facilitate hand grasping.Component removal . Modules and components shall be mounted such that removal of any single item will not require the removal of other items (component stacking to be avoided where possible)Secure mounting of modules . Modules shall be securely mounted (in compliance with the shock and vibration requirements) with the minimum number of fasteners.Shock mounting provision . Shock mounting provisions shall be made where applicable.Mounting preclusion . Provisions for the preclusion of mounting the wrong module shall be provided (key coding of connectors etc.).Mounting guides . Mounting guides and location pins shall be provided to facilitate module mounting.

Module labelling . Where possible, labelling of modules shall be on the top or adjacent in plain sight.Label robustness . Labels shall be permanently affixed and unlikely to come off during maintenance or as a result of the environment.Disposable LRU labelling . Disposable line replaceable units should be labelled as such.SKA1_Mid Pulsar phase binning. The SKA1_Mid, for each subarray, shall allow for pulse phase-resolved observations supporting the product of the number of phase bins, channel and polarisation products up to 1,000,000 (i.e. 4 x 256,000).Spectral stability: The spectral stability, on a time scale of 600 sec.,of the station beam bandpass, post station calibration and RFI-mitigation, shall be within 1.3 %, 0.4 %, 0.6 % and 1.1 % at 50 MHz, 100 MHz, 160 MHz, and 220 MHz respectively compared to the full polarization, parameterized beam model.Station beam stability. The difference between the parameterized station beam model and the actual station beam shall remain smaller than 1.3 %, 0.4 %, 0.6 % and 1.1 % relative to the main beam peak power, after calibration, at 50 MHz, 100 MHz, 160 MHZ and 220 MHz respectivelyCalibration update rate. Calibration measurements shall be necessary at a rate of no more than 10seconds.Real-time calibration. The LFAA reception system at station level shall provide on-line instrumental calibration functions with an update rate of 10 minutesClipped data flagging. Clipped data shall be flagged accordingly within the data stream .Telescope model. A dynamic computational model of the Telescope shall be used to answer all queries about the state of the Telescope. The telescope model shall consist of configuration information, numerical models, empirical parameters, and conventions.Seismic resilience. SKA1 structures and equipment shall survive and be fully operational after a seismic event of magnitude up to Richter 3.8. Note: Seismic event includes underground collapses in addition to earthquakes.Processing capability. SDP processing per telescope at Early Science shall support processing rates 10% of that required for Full Observing (decimation being in any or all of time, frequency, field of view )Backup archive retrieval . Backup archive items shall be retrievable to the full archive from an alternate source within 24 hoursBackup archive user access conversion. Users shall have access to the data of the entire archive within one week following an incident.Commensal Observing Data access rights. There shall be a documented data access rights policy for commensal observing for data sets shared across projects.Component obsolescence plan. There shall be a plan for the management of component obsolescence.Average annual availability. Each SKA1 telescope shall have an operational availability of 95%Availability budgets. Availability budgets shall be allocated at the system decomposition level, and shall be consistent with the system level requirements for reliability and maintainability of the system.Availability, reliability, and maintenance plans . There shall be an availability, reliability and maintenance plan for each SKA1 telescope.Aperture Array DDE . There shall be a direction dependent model for the aperture array primary beam to be used in calibration and imaging.Faraday rotation DDE. There shall be a direction dependent Faraday Rotation model for use in calibration and imaging.PAF DDE. There shall be a direction dependent model for the dish phased array feed sensitivity pattern to be used in calibration and imaging.Dish DDE. There shall be a direction dependent model for the dish primary beam to be used in calibration and imaging.Data migration design. The archive design shall support and facilitate migration from one medium to another.Calibration and imaging formalism. The Calibration and Imaging formalism shall be based upon the Rau framework [14].Location of Emergency stop . Emergency stop switches shall be located in such a way to minimize the risk of injury. (Verified by Analysis as 'minimisation' is unverifiable any other way.)CSP to SDP interface . The interface between CSP and SDP shall be compliant with the SKA-TEL.SDP.SE-TEL.CSP.SE-ICD-001 Interface Control DocumentLevels of access . Access to the archive shall be either anonymous with correspondingly limited capabilities or via SKA authentication and authorisation.Performance assessment: Performance assessment shall be based on multi-valued functions of an observed Image and optionally a template Image.Performance Goals: Performance goals shall be based on multi-valued functions of an observed Image and optionally a template Image.Quality assessment. Quality assessment shall be based on the comparison of a Performance Assessment and a Performance Goal.Astrometric performance metric: The Astrometric performance metric (APM) shall measure deviation (rms, average offset, and med) of source positions from known standards.Photometric performance metric: The Photometric performance metric (PPM) shall measure deviation (rms, average offset, and med) of source fluxes from known standards.Radiometric performance metric: The Radiometric performance metric (RPM) shall measure noise fluctuations (rms, average offset, and med) in an Image.Polarimetric performance metric: The Polarimetric performance metric (OPM) shall measure deviation (rms, average offset, and med) of source polarisations (polarisation degree and angle) from known standards.Spectrometric performance metric: The Spectrometric performance metric (SPM) shall measure deviation (rms, average offset, and med) of source spectral lines from known standards.Safety documentation file . Elements shall provide procedures for maintainers to recover from an unplanned shut-down, including safety checks to be conducted prior to start-up, as specified in SKA PRODUCT ASSURANCE SAFETY PLAN SKA-OFF.PAQA-SKO-QP-001.Non-propagation of failures . The equipment shall be designed such that hardware failures and software errors should not create a hazardous situation to interfacing systems.Environmental Impact Assessment . The Observatory shall undertake an Environmental Impact Assessment (EIA) in accordance with the local and national environmental legislation. NOTE: the EIA shall be undertaken in accordance with: South Africa - the National Environmental Management Act (NEMA); Australia - Western Australian EPA and Commonwealth EPBC.Personnel security training . All personnel shall receive the security training identified in the Security Management System necessary for their location. Additional specialist pre-deployment training shall be given prior to working in remote environments.Travel safety. Personnel shall adhere to local safety procedures for travelling in remote areas. NOTE: Safety procedures should include the training and equipment required, such as driving instruction, vehicles appropriate for the environment and radio equipment.Protection of equipment in stationary use at non-weather protected locations . Equipment in stationary use at non-weather protected locations shall be protected against environmental conditions 4K4H/ 4Z1/ 4Z5/ 4Z6/ 4B2/ 4C1/ 4S3/ 4M4 in accordance with BS EN IEC 60721-3-4. NOTE: 4Z5 refers to the survival, non-operational mode. The equipment shall be able to operate normally for air movement up to 11 m/sProtection of equipment in weather-protected locations. Equipment in stationary use at weather protected locations shall be protected against environmental conditions 3K8H/ 3Z1/ 3Z11/ 3Z12/ 3B3/ 3C1R/ 3S3/ 3M4 in accordance with BS EN IEC 60721-3-3.Transportation of equipment . Equipment shall be designed to withstand transportation from an engineering depot to a station exposed to environmental conditions 2K5H/2B3/2C1/2S3/2M3 as detailed in BS EN IEC 60721-3-2. NOTE: It may be assumed that the equipment will be transported in the original packaging that it was delivered to the engineering depot.Storage of equipment. Designs shall identify any requirements for equipment to be stored in environmental conditions less severe than 1K11/1B3/1C1/1S3/1M3 as specified inBS EN IEC 60721-3-1. Note: It may be assumed that equipment will be stored in its original packaging.Design for maintainability . Designs shall incorporate maintainability studies and analysis in accordance with BS EN IEC 60706-2 with emphasis on minimising the need for maintainers on sites. This activity should incorporate best practice such as described by B.S. Blanchard W.J. Fabrycky 'Systems Engineering and Analysis', Pearson 2011.Product Assurance . Product Assurance shall be managed following a process modelled on the SKA Product Assurance Safety Plan SKA-OFF.PAQA-SKO-QP-001Design for testability. Designs shall include an assessment of testability in accordance with BS EN IEC 60706-5Marking of machinery - safety. In accordance with ISO 61310_2, machinery shall bear all markings which are necessary ? for its unambiguous identification; ? for its safe use; and supplementary information shall be given, as appropriate: ? permanently on the machinery; ? in accompanying documents such as instruction handbooks; ? on the packagingSafety of machinery risk assessment . A risk assessment shall be conducted for each item of machinery in accordance with BS EN ISO 12100.

Safety of equipment with rated voltage not exceeding 600V . Equipment shall comply with the safety requirements of BS EN IEC 60950. NOTE: This includes electric shock, energy related hazards, fire, heat related hazards, mechanical hazards, radiation and chemical hazards.Archive. There shall be an archive for each telescope, located in the Science Processing Centre, for storing selected science data products for subsequent access by users according to science data access policy.Information security risk assessment . An information security risk assessment shall be conducted for each element in accordance with ISO/IEC 27005.Information security management for inter-organizational communications. Information transfer between organisations shall be controlled in accordance with ISO/IEC 27010 as tailored by SKA Organisation Security Policy.Absolute flux scale : The absolute flux scale shall be accurate to 5%Absolute flux scale: The absolute flux scale shall be accurate to 5% rms.Absolute flux scale: The absolute flux scale shall be accurate to 3% rms.System Availability . System designs shall meet the system availability allocations specified in SKA-OFF.SE.ARC-SKAO-RAM-001.Absolute flux scale: The absolute flux scale shall be accurate to 5% rmsAbsolute flux scale: The absolute flux scale shall be accurate to 3% rmsSKA1_Mid Pulsar phase bin width. The SKA1_Mid shall be capable of providing pulsar phase bin widths with a time resolution of better than 10us.SKA1_Mid inclusion of MeerKAT. The SKA1_Mid shall incorporate the 64 antennas in both monitor and control and data collection functions.SKA1_Mid-MeerKAT infrastructure reuse. Where economically practicable, the existing MeerKAT infrastructure will be reusedVLBI data sources. The SKA1_Mid and SKA1_Survey telescopes shall be data sources for VLBI data acquisition system. The interface between the telescopes SAK1_Mid and SkA1_Survey and the external VLBI data acquisition system shall be compliant with the ICD SKA-TEL-SKO-0000116Provision of equipment for recording . Provision of equipment for recording or capturing VLBI data is outside the scope of SKA1VLBI equipment and eVLBI connectivity. VLBI equipment and eVLBI connectivity beyond the interface boundary described in the ICD SKA-TEL-SKO-0000116 is outside the scope of supply of the SKA1 project.VLBI Processing . VLBI processing, with the exception of beam-forming and SKA1 imaging in support of VLBI. is outside the scope of the SKA1SKA1_Mid VLBI store the time-dependent antenna weights. SKA1_Mid shall be able to store the time-dependent antenna weights used for each tied-array beam sumSKA1_Mid VLBI relative sensitivity and coherence losses. The SKA1_Mid beamformer shall be able to weight the antenna inputs into the tied-array sums based on relative sensitivity and coherence losses.SKA1_Mid VLBI spectral resolution. SKA1_Mid shall be able to generate VLBI beams with a spectral resolutions different from the spectral resolution used for imaging within the same VLBI sub-arraySKA1_Mid VLBI imaging and beamforming SKA1_Mid shall be able to simultaneously generate imaging data using all antennas in a VLBI sub-array, as well as generating the VLBI beams.SKA1_Mid VLBI spectral line and time domain observation SKA1_Mid shall be able to generate VLBI beams optimised for either spectral line observations (to mitigate spectral leakage) or time domain observations (to mitigate time smearing)SKA1_Survey VLBI store the time-dependent antenna weight. SKA1_Survey shall be able to store the time-dependent antenna weights used for each tied-array beam sum.SKA1_Survey VLBI timestamp accuracy. SKA1_Survey shall be able to generate data from the VLBI beams with samples traceable to a timestamp with an accuracy of 1 nsec or better.SKA1_Survey VLBI relative sensitivity and coherence. The SKA1_Survey beamformer shall be able to weight the antenna inputs into the tied-array sums based on relative sensitivity and coherence losses.SKA1_Survey VLBI spectral resolution. SKA1_Survey shall be able to generate VLBI beams with a spectral resolutions different from the spectral resolution used for imaging within the same VLBI sub-arraySKA1_Survey VLBI imaging and beamforming. SKA1_Survey shall be able to simultaneously generate imaging data using all antennas in a VLBI sub-array, as well as generating the VLBI beams.SKA1_Survey VLBI spectral line and time domain observation. SKA1_Survey shall be able to generate VLBI beams optimised for either spectral line observations (to mitigate spectral leakage) or time domain observations (to mitigate time smearing).An element of verification in which scientific principles and procedures are applied to determine the properties or functional capabilities of an item.An element of verification that uses established technical or mathematical models or simulations, algorithms, charts, graphs, circuit diagrams, or other scientific principles and procedures to provide evidence that stated requirements are met.An element of verification that involves the actual operation of an item to provide evidence that the required functions are accomplished under specific scenarios. The items may be instrumented and performance monitored.An element of verification that is generally non-destructive and typically includes the use of sight, hearing, smell, touch, and taste; simple physical manipulation; and mechanical and electrical gauging and measurement.

DecomposesSKA1-SYS_REQ-2133 Mode transition, SDP_REQ-29 Targets of Opportunity, SDP_REQ-1 Mode handling, SDP_REQ-94 User Authorisation, SDP_REQ-571 Access to data and metadata, SDP_REQ-94 User Authorisation, SDP_REQ-94 User Authorisation, SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-103 Proprietary Period, SDP_REQ-103 Proprietary Period, SKA1-SYS_REQ-2366 Distribution of data products., SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SKA1-SYS_REQ-2224 Frequency agility., SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution, SKA1-SYS_REQ-2366 Distribution of data products., SDP_REQ-118 Delivery strategy, SDP_REQ-11 Frequency handling, SDP_REQ-118 Delivery strategy, SDP_REQ-118 Delivery strategy, SDP_REQ-118 Delivery strategy, SDP_REQ-118 Delivery strategy, SDP_REQ-118 Delivery strategy, SDP_REQ-118 Delivery strategy, SDP_REQ-118 Delivery strategy, SDP_REQ-118 Delivery strategy, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-11 Frequency handling, SDP_REQ-65 Data Delivery, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2207 Number of beams: Pulsar timing., SKA1-SYS_REQ-2220 Binary search, SDP_REQ-4 Capability availability, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2201 Beam-former sub-array support., SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2201 Beam-former sub-array support., SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SDP_REQ-4 Capability availability, SDP_REQ-4 Capability availability, SDP_REQ-5 Observation scheduling, SDP_REQ-5 Observation scheduling, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2827 System Availability,

SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2491 Safety., SDP_REQ-185 Safety Compliance, SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-2827 System Availability, SDP_REQ-5 Observation scheduling, SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-2827 System Availability, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-2716 Telescope availability, SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2827 System Availability, SDP_REQ-189 Ease of Physical Access, SDP_REQ-189 Ease of Physical Access, SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2133 Mode transition, SDP_REQ-5 Observation scheduling, SKA1-SYS_REQ-2457 Illumination., SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion., SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2505 Sand and Dust., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2502 Condensation., SKA1-SYS_REQ-2502 Condensation., SKA1-SYS_REQ-2501 Storage and transport Humidity., SKA1-SYS_REQ-2500 Operating Humidity., SDP_REQ-7 Observation Control, SDP_REQ-206 Computing equipment temperature control, SKA1-SYS_REQ-2464 Electromagnetic Compatibility Standards, SDP_REQ-206 Computing equipment temperature control, SDP_REQ-205 Fire Suppression Systems, SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-2827 System Availability, SDP_REQ-192 Spare Parts Storage, SDP_REQ-216 Storage Temperature, SDP_REQ-190 Assembly Space, SDP_REQ-216 Storage Temperature, SDP_REQ-189 Ease of Physical Access, SDP_REQ-214 Air quality for equipment, SDP_REQ-7 Observation Control, SKA1-SYS_REQ-2454 Fire fighting equipment., SDP_REQ-195 SDP availability,

Equipment in the Science Processing Centres that continues running after a power failure shall be adequately cooled.SDP_REQ-195 SDP availability, SKA1-SYS_REQ-2462 Electromagnetic Radiation, SKA1-SYS_REQ-2458 Clean air, SDP_REQ-229 Visitor Policy, SKA1-SYS_REQ-2478 Equipment security, SKA1-SYS_REQ-2827 System Availability, SDP_REQ-7 Observation Control, SDP_REQ-229 Visitor Policy, SDP_REQ-189 Ease of Physical Access, SKA1-SYS_REQ-2460 Occupational health legislation and regulations.,

TBD (The SDP facilities shall supply 3-phase 400V AC to each of the SDP racks? Too premature for this decision?)SKA1-SYS_REQ-2827 System Availability,

SDP_REQ-195 SDP availability, The SDP equipment in each Science Processing Centres shall be supplied with power TBD average and TBD peak..

SKA1-SYS_REQ-???? SDP Power Cap, SDP_REQ-7 Observation Control, SDP_REQ-195 SDP availability, SKA1-SYS_REQ-2432 SDP to INFRA interface., SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-???? SDP Power Cap, SDP_REQ-239 Power Monitoring, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2739 Levels of access to the archive, SDP_REQ-269 Storage Technology Transition, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SDP_REQ-247 Data Layer Management, SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2688 Data access rights, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-247 Data Layer Management, SDP_REQ-574 Science Data Archive, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2127 Sub-Arraying., SDP_REQ-599 Data Service Layer, SDP_REQ-276 Data Product Provenance, SDP_REQ-271 Data Products, SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-271 Data Products, SDP_REQ-278 Local sky model, SDP_REQ-25 Independent Operations, SDP_REQ-281 Backup sites, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-283 Restore archive access, SKA1-SYS_REQ-2366 Distribution of data products., SKA1-SYS_REQ-2728 Data migration design, SDP_REQ-248 Data Life Cycle Management, SDP_REQ-285 Accessibility, SDP_REQ-266 Status Information, SDP_REQ-287 Continuous performance monitoring., SKA1-SYS_REQ-2431 SDP to TM interface., SDP_REQ-288 Telescope Model, SKA1-SYS_REQ-2361 Archive access., SDP_REQ-247 Data Layer Management, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2364 Data migration plan., SKA1-SYS_REQ-2133 Mode transition, SDP_REQ-7 Observation Control, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2344 Spectral line absorption data products., SKA1-SYS_REQ-2346 Slow transient data products., SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2340 Continuum imaging data products., SKA1-SYS_REQ-2339 Continuum imaging pipeline., SDP_REQ-67 AccessData Delivery, SDP_REQ-385 Web Interface, SKA1-SYS_REQ-2366 Distribution of data products., SKA1-SYS_REQ-2355 Data product provenance., SDP_REQ-279 User-defined Group Management, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-94 User Authorisation, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2739 Levels of access to the archive, SKA1-SYS_REQ-2482 Accessibility, SDP_REQ-285 Accessibility, SKA1-SYS_REQ-2546 Continuous performance monitoring., SKA1-SYS_REQ-2645 Telescope Model, SKA1-SYS_REQ-2363 Archive lifetime.,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2283 Target of opportunity, SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2133 Mode transition, SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-2148 SKA1_Low channelisation, SDP_REQ-470 Receive Data, SKA1-SYS_REQ-2150 SKA1_Low correlator Integration rate., SDP_REQ-30 Graceful degradation, SDP_REQ-30 Graceful degradation, SKA1-SYS_REQ-2474 RFI masking, SKA1-SYS_REQ-2544 Self-test., SKA1-SYS_REQ-2312 Alarm latency., SKA1-SYS_REQ-2449 Construction Safety Plan., SKA1-SYS_REQ-2819 Safety of machinery risk assessment, SKA1-SYS_REQ-2455 Noise level dosage., SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2437 Design for hazard elimination., SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2444 Safety grounding and bonding., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2457 Illumination., SKA1-SYS_REQ-2439 Emergency stop., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2818 Marking of

SKA1-SYS_REQ-2716 Telescope availability, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2432 SDP to INFRA interface., SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2466 EMC compatibility marking., SKA1-SYS_REQ-2464 Electromagnetic Compatibility Standards, SKA1-SYS_REQ-2463 Self-induced RFI, SKA1-SYS_REQ-2462 Electromagnetic Radiation, SKA1-SYS_REQ-2467 Electromagnetic susceptibility., SKA1-SYS_REQ-2465 Electricity network Electromagnetic Compatibility, SDP_REQ-35 Alarms, SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion., SKA1-SYS_REQ-2793 Personnel security training, SKA1-SYS_REQ-2823 Information security management for inter-organizational communications, SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2822 Information security risk assessment, SKA1-SYS_REQ-2478 Equipment security, SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2594 Modular packaging., SKA1-SYS_REQ-2505 Sand and Dust., SKA1-SYS_REQ-2502 Condensation., SKA1-SYS_REQ-2596 Discard at failure items., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2799 Protection of equipment in weather- protected locations, SKA1-SYS_REQ-2798 Protection of equipment in stationary use at non-weather protected locations, SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2515 Component selection., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2525 Fail safe provisions., SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2599 Component removal., SKA1-SYS_REQ-2501 Storage and transport Humidity., SKA1-SYS_REQ-2579 Hazard warning markingSKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2539 Test and support equipment standardisation, SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2523 Special procurement components., SKA1-SYS_REQ-2541 Test equipment reliability, SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2517 Known failure rate parts., SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2520 Spares and repair parts testing., SKA1-SYS_REQ-2544 Self-test., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2540 Test and support equipment lifecSKA1-SYS_REQ-2571 Long lead time items., SKA1-SYS_REQ-2569 Process list., SKA1-SYS_REQ-2560 Design definition., SKA1-SYS_REQ-2570 Parts availability., SKA1-SYS_REQ-2566 Materials list., SKA1-SYS_REQ-2567 Hazardous Materials list., SKA1-SYS_REQ-2562 Standard manufacturing tools., SKA1-SYS_REQ-2568 Parts list., SKA1-SYS_REQ-2561 Manufacturing facilities., SKA1-SYS_REQ-2559 Design for economic production., SKA1-SYS_REQ-2312 Alarm latency., SDP_REQ-35 Alarms, SKA1-SYS_REQ-2657 Processing capability, SKA1-SYS_REQ-2224 Frequency agility., SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2133 Mode transition, SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-375 SDP platform management, SDP_REQ-375 SDP platform management, SDP_REQ-34 Self testing, SDP_REQ-375 SDP platform management, SDP_REQ-375 SDP platform management, SKA1-SYS_REQ-2645 Telescope Model, SDP_REQ-379 Scheduler, SDP_REQ-379 Scheduler, SDP_REQ-375 SDP platform management, SDP_REQ-598 Storage Hierarchy, SDP_REQ-266 Status Information, SKA1-SYS_REQ-2352 Web interface., SKA1-SYS_REQ-2247 SKA1_Survey number of beams., SKA1-SYS_REQ-2187 RF system sampled bandwidth band 3, SKA1-SYS_REQ-2240 RF system frequency range PAF band 3, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2153 Diameter, SKA1-SYS_REQ-2256 SKA1_Survey imaging dynamic range., SKA1-SYS_REQ-2147 Instantaneous bandwidth., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2142 SKA1_Low number of stations., SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2266 SKA1_Survey PAF rotation., SKA1-SYS_REQ-2189 RF system sampled bandwidth band 5, SKA1-SYS_REQ-2174 Combined SKA1_Mid configuration., SKA1-SYS_REQ-2134 Electromagnetic frequency range., SKA1-SYS_REQ-2188 RF system sampled bandwidth band 4, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1,SKA1-SYS_REQ-2247 SKA1_Survey number of beams., SKA1-SYS_REQ-2187 RF system sampled bandwidth band 3, SKA1-SYS_REQ-2240 RF system frequency range PAF band 3, SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2153 Diameter, SKA1-SYS_REQ-2256 SKA1_Survey imaging dynamic range., SKA1-SYS_REQ-2147 Instantaneous bandwidth., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2142 SKA1_Low number of stations., SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2266 SKA1_Survey PAF rotation., SKA1-SYS_REQ-2189 RF system sampled bandwidth band 5, SKA1-SYS_REQ-2174 Combined SKA1_Mid configuration., SKA1-SYS_REQ-2134 Electromagnetic frequency range., SKA1-SYS_REQ-2188 RF system sampled bandwidth band 4, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2185 RF system sampled baSKA1-SYS_REQ-2247 SKA1_Survey number of beams., SKA1-SYS_REQ-2187 RF system sampled bandwidth band 3, SKA1-SYS_REQ-2240 RF system frequency range PAF band 3, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2153 Diameter, SKA1-SYS_REQ-2256 SKA1_Survey imaging dynamic range., SKA1-SYS_REQ-2147 Instantaneous bandwidth., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2142 SKA1_Low number of stations., SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2266 SKA1_Survey PAF rotation., SKA1-SYS_REQ-2189 RF system sampled bandwidth band 5, SKA1-SYS_REQ-2174 Combined SKA1_Mid configuration., SKA1-SYS_REQ-2134 Electromagnetic frequency range., SKA1-SYS_REQ-2188 RF system sampled bandwidth band 4, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2185 RF system sampled SKA1-SYS_REQ-2247 SKA1_Survey number of beams., SKA1-SYS_REQ-2187 RF system sampled bandwidth band 3, SKA1-SYS_REQ-2240 RF system frequency range PAF band 3, SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2153 Diameter, SKA1-SYS_REQ-2256 SKA1_Survey imaging dynamic range., SKA1-SYS_REQ-2147 Instantaneous bandwidth., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2142 SKA1_Low number of stations., SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2266 SKA1_Survey PAF rotation., SKA1-SYS_REQ-2189 RF system sampled bandwidth band 5, SKA1-SYS_REQ-2174 Combined SKA1_Mid configuration., SKA1-SYS_REQ-2134 Electromagnetic frequency range., SKA1-SYS_REQ-2188 RF system sampled bandwidth band 4, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2185 RF system sampled bandwidth SDP_REQ-38 Metadata input,

SKA1-SYS_REQ-2324 Multi-frequency synthesis imaging., SKA1-SYS_REQ-2330 Peeling., SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, SKA1-SYS_REQ-2344 Spectral line absorption data products., SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-388 Spectral line absorption pipeline, SKA1-SYS_REQ-2729 Calibration and Imaging formalism, SKA1-SYS_REQ-2340 Continuum imaging data products., SDP_REQ-397 Imager, SDP_REQ-398 Gridding & de-gridding, SKA1-SYS_REQ-2133 Mode transition, SKA1-SYS_REQ-2744 Quality assessment, SKA1-SYS_REQ-2742 Performance assessment, SKA1-SYS_REQ-2743 Performance goals, SDP_REQ-398 Gridding & de-gridding, SDP_REQ-398 Gridding & de-gridding, SKA1-SYS_REQ-2726 PAF DDE, SKA1-SYS_REQ-2724 Aperture Array DDE, SKA1-SYS_REQ-2727 Dish DDE, SDP_REQ-397 Imager, SKA1-SYS_REQ-2729 Calibration and Imaging formalism, SDP_REQ-397 Imager, SDP_REQ-504 Scale sensitive deconvolution, SDP_REQ-390 Multi-frequency synthesis imaging, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-40 Quality assessment interface, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2621 Spectral stability, SKA1-SYS_REQ-2635 Real time calibration, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2158 Pointing repeatability., SKA1-SYS_REQ-2729 Calibration and Imaging formalism, SKA1-SYS_REQ-2724 Aperture Array DDE, SKA1-SYS_REQ-2629 Station beam stability, SKA1-SYS_REQ-2328 Solution for pointing errors., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2726 PAF DDE, SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2727 Dish DDE, SDP_REQ-40 Quality assessment interface, SKA1-SYS_REQ-2743 Performance goals, SKA1-SYS_REQ-2165 Polarisation Purity, SKA1-SYS_REQ-2744 Quality assessment, SDP_REQ-40 Quality assessment interface, SKA1-SYS_REQ-2825 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2829 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2824 SKA1_Low Absolute flux scale, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SDP_REQ-442 Astrometric performance metric, SDP_REQ-40 Quality assessment interface, SKA1-SYS_REQ-2347 Automated Quality Assessment., SKA1-SYS_REQ-2745 Astrometry performance metric, SKA1-SYS_REQ-2746 Photometric performance metric, SKA1-SYS_REQ-2747 Radiometric performance metric, SKA1-SYS_REQ-2748 Polarimetric performance metric, SKA1-SYS_REQ-2749 Spectrometric performance metric, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-443 Photometric performance metric, SDP_REQ-40 Quality assessment interface, SKA1-SYS_REQ-2336 Standard pipeline products., SDP_REQ-40 Quality assessment interface, SDP_REQ-444 Radiometric performance metric, SDP_REQ-441 Automated Quality Assessment., SDP_REQ-441 Automated Quality Assessment., SDP_REQ-441 Automated Quality Assessment., SDP_REQ-441 Automated Quality Assessment., SDP_REQ-40 Quality assessment interface, SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2738 CSP to SDP Interface, SDP_REQ-470 Receive Data, SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2738 CSP to SDP Interface, SDP_REQ-470 Receive Data, SKA1-SYS_REQ-2474 RFI masking, SKA1-SYS_REQ-2640 Clipped Data Flagging, SKA1-SYS_REQ-2472 RFI flagging, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2472 RFI flagging, SKA1-SYS_REQ-2473 RFI excision,

SDP_REQ-40 Quality assessment interface, SDP_REQ-446 Spectrometric performance metric, SKA1-SYS_REQ-2197 SKA1_Mid correlator integration rate., SDP_REQ-472 Handle Missing Data, SDP_REQ-472 Handle Missing Data, SDP_REQ-473 Merge Meta Data, SDP_REQ-474 Gather Data, SDP_REQ-470 Receive Data, SDP_REQ-478 Detect RFI, SDP_REQ-476 Flag RFI, SKA1-SYS_REQ-2640 Clipped Data Flagging, SDP_REQ-476 Flag RFI, SKA1-SYS_REQ-2640 Clipped Data Flagging, SDP_REQ-476 Flag RFI, SDP_REQ-477 Excise RFI, SDP_REQ-478 Detect RFI, SKA1-SYS_REQ-2431 SDP to TM interface., SDP_REQ-478 Detect RFI, SDP_REQ-476 Flag RFI, SDP_REQ-477 Excise RFI, SKA1-SYS_REQ-2347 Automated Quality Assessment., SDP_REQ-477 Excise RFI, SDP_REQ-491 Spatial Filtering, SDP_REQ-470 Receive Data, SDP_REQ-417 Calibration pipeline., SDP_REQ-417 Calibration pipeline., SDP_REQ-417 Calibration pipeline., SKA1-SYS_REQ-2133 Mode transition, SKA1-SYS_REQ-2482 Accessibility, SKA1-SYS_REQ-2431 SDP to TM interface., SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-417 Calibration pipeline., SKA1-SYS_REQ-2247 SKA1_Survey number of beams., SKA1-SYS_REQ-2187 RF system sampled bandwidth band 3, SKA1-SYS_REQ-2240 RF system frequency range PAF band 3, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2153 Diameter, SKA1-SYS_REQ-2256 SKA1_Survey imaging dynamic range., SKA1-SYS_REQ-2147 Instantaneous bandwidth., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2142 SKA1_Low number of stations., SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2266 SKA1_Survey PAF rotation., SKA1-SYS_REQ-2189 RF system sampled bandwidth band 5, SKA1-SYS_REQ-2174 Combined SKA1_Mid configuration., SKA1-SYS_REQ-2134 Electromagnetic frequency range., SKA1-SYS_REQ-2188 RF system sampled bandwidth band 4, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2330 Peeling., SKA1-SYSSDP_REQ-417 Calibration pipeline., SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SDP_REQ-278 Local sky model, SDP_REQ-386 Continuum imaging pipeline, SKA1-SYS_REQ-2333 Continuum source finding., SDP_REQ-511 Continuum Source Finding, SDP_REQ-514 Source Analysis (TBC), SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2344 Spectral line absorption data products., SKA1-SYS_REQ-2334 Spectral line source finding., SKA1-SYS_REQ-2342 Spectral line emission data products., SKA1-SYS_REQ-2340 Continuum imaging data products., SKA1-SYS_REQ-2333 Continuum source finding., SKA1-SYS_REQ-2340 Continuum imaging data products., SKA1-SYS_REQ-2333 Continuum source finding., SKA1-SYS_REQ-2335 Stacking., SDP_REQ-512 Stacking, SKA1-SYS_REQ-2334 Spectral line source finding., SKA1-SYS_REQ-2333 Continuum source finding., SDP_REQ-514 Source Analysis (TBC), SDP_REQ-511 Continuum Source Finding, SDP_REQ-511 Continuum Source Finding, SDP_REQ-512 Stacking, SKA1-SYS_REQ-2788 Non-propagation of failures, SDP_REQ-510 Science Analysis input data conditioning, SDP_REQ-510 Science Analysis input data conditioning, SDP_REQ-262 Data Layer Product Distribution, SDP_REQ-262 Data Layer Product Distribution, SKA1-SYS_REQ-2738 CSP to SDP Interface, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-534 Pulsar Timing Data Preparation, SKA1-SYS_REQ-2738 CSP to SDP Interface, SDP_REQ-527 Pulsar Search Data Input, SKA1-SYS_REQ-2130 Pulsar Timing Mode.,

SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-565 Pulsar Timing Model Fitting, SKA1-SYS_REQ-2131 Transient search mode, SDP_REQ-147 Periodicity Search Number of Beams, SDP_REQ-558 Periodicity Search Output, SKA1-SYS_REQ-2231 Pulsar timing Dispersion Measure, SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timing, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2216 Time resolution, SDP_REQ-539 Non-imaging Transient Input, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-552 Periodicity Search Alerts, SDP_REQ-565 Pulsar Timing Model Fitting, SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2354 Archive API., SKA1-SYS_REQ-2353 Virtual Observatory interface., SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-552 Periodicity Search Alerts, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2131 Transient search mode, SDP_REQ-532 Non-imaging Transient Post Processing, SKA1-SYS_REQ-2131 Transient search mode, SDP_REQ-133 Periodicity Search Post Processing, SKA1-SYS_REQ-2230 Multiple timings., SDP_REQ-524 Pulsar Timing Input, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-72 Metadata Conditioning, SDP_REQ-271 Data Products, SDP_REQ-565 Pulsar Timing Model Fitting, SDP_REQ-565 Pulsar Timing Model Fitting, SKA1-SYS_REQ-2129 Pulsar Search Mode., SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-532 Non-imaging Transient Post Processing, SDP_REQ-565 Pulsar Timing Model Fitting, SDP_REQ-565 Pulsar Timing Model Fitting, SDP_REQ-558 Periodicity Search Output, SKA1-SYS_REQ-2129 Pulsar Search Mode., SDP_REQ-133 Periodicity Search Post Processing, SDP_REQ-271 Data Products, SDP_REQ-72 Metadata Conditioning, SDP_REQ-133 Periodicity Search Post Processing, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-546 Non-imaging Transient Search Output, SKA1-SYS_REQ-2131 Transient search mode, SDP_REQ-148 Non-imaging Transient Search Number of Beams, SDP_REQ-546 Non-imaging Transient Search Output, SDP_REQ-544 Non-imaging Transient Alerts, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2230 Multiple timings., SDP_REQ-546 Non-imaging Transient Search Output, SDP_REQ-558 Periodicity Search Output, SDP_REQ-544 Non-imaging Transient Alerts, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-271 Data Products, SDP_REQ-72 Metadata Conditioning, SDP_REQ-532 Non-imaging Transient Post Processing, SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-76 Data Visualisation Client, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2821 Archive, SDP_REQ-262 Data Layer Product Distribution,

SDP_REQ-262 Data Layer Product Distribution, SDP_REQ-574 Science Data Archive, SKA1-SYS_REQ-2354 Archive API., SKA1-SYS_REQ-2353 Virtual Observatory interface., SDP_REQ-58 Data Discovery, SKA1-SYS_REQ-2280 System status., SKA1-SYS_REQ-2280 System status., SKA1-SYS_REQ-2280 System status., SKA1-SYS_REQ-2357 QA annotation., SDP_REQ-206 Computing equipment temperature control, SDP_REQ-377 System health monitoring, SDP_REQ-247 Data Layer Management, SDP_REQ-248 Data Life Cycle Management, SDP_REQ-1 Mode handling, SDP_REQ-58 Data Discovery, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-50 Invalid input handling, SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SDP_REQ-28 Precursor integration, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SDP_REQ-28 Precursor integration, SDP_REQ-3 Observation Handling, SDP_REQ-33 Flagging control, SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2360 Science data product archive policy., SDP_REQ-248 Data Life Cycle Management, SDP_REQ-58 Data Discovery, SDP_REQ-248 Data Life Cycle Management, SDP_REQ-248 Data Life Cycle Management, SDP_REQ-248 Data Life Cycle Management, SDP_REQ-248 Data Life Cycle Management,

The scientific quality and usability of SDP outputs shall be no worse than if all of the relevant processing steps inside the SDP were carried in double precision floating point arithmetic.SKA1-SYS_REQ-2338 Calibration pipeline.,

The SDP shall be able to restore visibilities from the science data archive to the buffer in order to process visibilities from previousobservations.SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2339 Continuum imaging pipeline., SDP_REQ-617 Restore images from archive to buffer, SDP_REQ-618 Tranfer images from archive to buffer, SKA1-SYS_REQ-2354 Archive API., SKA1-SYS_REQ-2353 Virtual Observatory interface.,

The SDP shall recover gracefully from internal failures in both hardware and software. Priority is to be placed on preserving partially processed or buffered data to allow processing to be restarted if possible.SDP_REQ-620 Graceful Error Recovery, SDP_REQ-620 Graceful Error Recovery, SDP_REQ-620 Graceful Error Recovery, SDP_REQ-24 Control - Feedback, SDP_REQ-624 Data Flow Graphs, SDP_REQ-624 Data Flow Graphs, SDP_REQ-624 Data Flow Graphs, SDP_REQ-624 Data Flow Graphs, SDP_REQ-244 Power control, SDP_REQ-62 Data Description, SDP_REQ-629 Power Management, SDP_REQ-251 Concurrency, SDP_REQ-35 Alarms,

SDP_REQ-35 Alarms, SDP_REQ-288 Telescope Model, SDP_REQ-288 Telescope Model, SDP_REQ-288 Telescope Model, SDP_REQ-635 Telescope Model-Update, SDP_REQ-62 Data Description, SKA1-SYS_REQ-2353 Virtual Observatory interface., SDP_REQ-65 Data Delivery, SDP_REQ-65 Data Delivery, SDP_REQ-65 Data Delivery, SKA1-SYS_REQ-2133 Mode transition, SDP_REQ-54 Archive Metadata, SKA1-SYS_REQ-2352 Web interface., SDP_REQ-73 Metadata Visualisation Client, SDP_REQ-73 Metadata Visualisation Client, SKA1-SYS_REQ-2352 Web interface., SDP_REQ-62 Data Description, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-1 Mode handling, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SDP_REQ-76 Data Visualisation Client, SKA1-SYS_REQ-2739 Levels of access to the archive, SDP_REQ-88 User Authentication, SDP_REQ-29 Targets of Opportunity, SDP_REQ-1 Mode handling, SDP_REQ-88 User Authentication, SDP_REQ-88 User Authentication, SDP_REQ-72 Metadata Conditioning, SDP_REQ-88 User Authentication, SKA1-SYS_REQ-2739 Levels of access to the archive, SKA1-SYS_REQ-2366 Distribution of data products., SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-94 User Authorisation, SDP_REQ-94 User Authorisation, SDP_REQ-94 User Authorisation, SDP_REQ-571 Access to data and metadata, SDP_REQ-106 Product distribution, SDP_REQ-106 Product distribution,

South African Engineering Operations Centre. The South African Engineering Operations Centre shall be located at Klerefontein.South African Science Processing Centre.The South African Science Processing centre shall be located in Cape TownAustralian Engineering Operations Centre The Australian Engineering Operations Centre shall be in in Geraldton.Australian Science processing centre The Australian Science Processing Centre shall make use of floor space, power, cooling, and other infrastructure at the Pawsey centre in Perth.Simultaneous operation of telescopes. All three telescopes shall be capable of operating concurrently and independently.

Sub-Arraying. All of the SKA1 telescopes shall be capable of operating independently with one to sixteen sub-arrays (i.e. collecting area is split and allocated to separate, concurrently observing programmes).Continuum and spectral line imaging mode. All three SKA1 telescopes shall be capable of operating in a Continuum and Spectral-line imaging mode concurrently.Pulsar Search Mode . The SKA1_mid telescope shall be capable of operating in a Pulsar search mode, concurrently with Continuum imaging mode.Pulsar Timing Mode. The SKA1_mid telescope shall be capable of operating in a Pulsar timing mode, concurrently with continuum imaging mode.Transient search mode . Each of the SKA1 telescopes shall be capable of operating in a transient search mode TBCMode transition. The switching time between telescope operating modes shall take less than 30 seconds (not including antenna slewing time)Electromagnetic frequency range. SKA1_Low shall be able to measure electromagnetic radiation in a frequency range from 50 MHz to 350 MHz.SKA1_Low station diameter . The station diameter will be 35 metres, which is consistent with being able to provide a single, circularly symmetric, beam of 5 degrees at the half-power points at 100 MHz (centre of the EoR frequency range) while meeting the sensitivity requirements with 256 antennas per station evenly distributed in an irregular-random configuration.

Instantaneous bandwidth. The SKA1_Low shall be capable of simultaneously processing 300 MHz of bandwidth.SKA1_Low channelisation. The SKA1_Low channelisation for each sub array shall provide up to 256,000 linearly spaced frequency channels across the available frequency range of each band.SKA1_Low correlator Integration rate . T he SKA1_Low correlator for each sub array shall have independently configurable visibility integration periods in the range 6s to 0.6s.Diameter. SKA1 dishes shall have a projected diameter of larger than or equal to 15m and smaller than 16.5m.Pointing repeatability. The pointing repeatability shall be better than 10 arc seconds rms for winds 7 m/s at night time.Pointing repeatability . The pointing repeatability shall be better than 17 arc seconds rms for an average wind speed of 7 m/s in the day timePointing repeatability. The pointing repeatability shall be better than 180 arc seconds rms for an average wind speed between 7 and 20 m/sPolarisation Purity. The IXR shall be better than 15 dB over the whole observing bandwidth within the HPBWMeerKAT array. The monitor and control functions of MeerKAT shall be made available to SKA1_Mid via a Foreign Telescope interface consisting of a Local Monitor and Control system connected to the SKA1_Mid Telescope Manager.Combined SKA1 Mid Configuration. 42 % of the Combined SKA1_Mid shall be within a radius of 400 m of the array centre.Combined SKA1_Mid configuration. 14 % of the combined SKA1_Mid array shall be within a radius between 4,000m and 100,000 m of the array centre.RF system sampled bandwidth band 1. The instantaneous bandwidth for band 1 will be 700MHz and shall be sampled to at least 2.0 G samples per second for each polarisation.RF system sampled bandwidth band 2. The instantaneous bandwidth for band 2 will be 810 MHz and shall be sampled to at least 2.0 G sample per second for each polarisation.RF system sampled bandwidth band 3 The instantaneous bandwidth for band 3 will be 1,403 MHz and shall be sampled to at least 5.0 G samples per second for each polarisation.RF system sampled bandwidth band 4 The instantaneous bandwidth for band 4 will be 2,380 MHz and shall be sampled at at least 5.0 G samples per second for each polarisation.RF system sampled bandwidth band 5 The SKA_Mid, for band 5, shall digitise two separate 2.5 GHz bands for each polarisation.SKA1_Mid channelisation. The SKA1_Mid channelisation for each sub array shall provide up to 256, 000 linearly spaced frequency channels across the sampled bandwidth of each band.SKA1_Mid correlation integration period. The SKA1_Mid shall have independently configurable visibility integration period from a maximum integration time of 0.8s to a minimum of 0.08s for each subarray.Beam-former sub-array support. The SKA1_Mid central beam-former shall be able to form beams or more beams for one to sixteen sub-arrays independently and concurrently.Number of beams: Pulsar search. SKA1_Mid, when performing the Pulsar Search function, shall simultaneously form up to a total of 2222 beams per observation across all sub arrays .Beamformer S/N pulsar search. The SKA1_Mid central beam-forming for each sub array shall have a Signal to Noise ratio greater or equal to 98% of ideal analogue beam forming for the same sub array:Number of beams: Pulsar timing. The SKA1_Mid central beam-former for Pulsar timing shall be capable of forming up to 16 dual polarisation coherent beams in total across all timing sub-arrays.Beamforming S/N ratio: Pulsar timing. The SKA1_Mid for Pulsar timing shall have a Signal to Noise ratio greater or equal to 98% of an ideal analogue beam former.Time resolution. The time resolution of the SKA1_Mid pulsar search processing for each sub-array shall be equivalent to the temporal smearing due to dispersion at the observation frequency and bandwidth of the observation with a quantisation of value in powers of 2 from 50 µs to 800 usBinary search. For each Pulsar search sub-array within SKA1_Mid the processing shall be capable of searching for binary systems with accelerations due to their orbital motion of up to 350 ms -2 .Frequency agility. The SKA1_Mid system shall, for each timing sub-array, be able to change from observing in any frequency band, to observing in any other frequency band in less than or equal to 30 seconds.Multiple timings. The SKA Phase 1 shall be capable of timing up to 16 pulsars simultaneously in total across all timing sub arrays .Pulsar timing Dispersion Measure. The SKA1_Mid shall be capable of timing pulsars with dispersion measures between 0 to 3000 pc cm -3 such that residual dispersive smearing is less than 500 ns.SKA1_Survey configuration. 22% of the SKA1_Survey array shall be within a radius of 4,000 m and 25,000 m of the array centreRF system frequency range PAF band 1 The SKA1_Survey PAF for band 1 shall have a frequency range from 350 to 900 MHz for each polarisation.RF system frequency range PAF band 2 The SKA1_Survey PAF for band 2 shall have a frequency range from 0.650 to 1.670 GHz for each polarisation.RF system frequency range PAF band 3. The SKA1_Survey PAF for band 3 shall have a frequency range from 1.500 to RF system frequency range PAF band 3 The SKA1_Survey PAF for band 3 shall have a frequency range from 1.500 to 4.000 GHz for each polarisation.Maximum available bandwidth The SKA1_Survey shall have a PAF bandwidth of at least 500 MHz for each polarisation and beamSKA1_Survey digitised bandwidth The SKA1_Survey digitised bandwidth for each PAF shall be greater than 500 MHz for each polarisation.SKA1_Survey number of beams. The SKA1_Survey shall beam-form the element signals in each band to provide 36 full bandwidth, dual polarisation beams per antenna.SKA1_Survey channelisation. The SKA1_Survey channelisation shall provide 256, 000 linearly spaced frequency channels across the frequency band of each PAF band.SKA1_Survey correlator dump period. The SKA1_Survey correlator shall have a programmable dump period in the range 3 seconds to 0.3 seconds

€“ band 1. The SKA1_Survey array shall have an imaging dynamic range of greater than:band 1: 55dB for a 1000 hour single-field integrationband 2: 56dB for a 1000 hour single-field integrationband 3: 54dB for a 1000 hour single-field integration.SKA1_Survey spectral dynamic range. The spectral dynamic range for SKA1_Survey shall be better than 30dB between adjacent channels and 60dB globally.SKA1_Survey inclusion of ASKAP. The SKA1_Survey shall incorporate the 36 ASKAP antennas in both monitor and control and data collection functions.SKA1_Survey single array operation . SKA1-Survey shall be capable of operating ASKAP and SKA1 dishes as single array for frequency band 2.

SKA1_Survey sub-arraying. It shall be possible to split the SKA1_Survey array into independent operable ASKAP and SKA1 dish sub-arrays.SKA1_Survey derotation. SKA1_Survey shall provide PAF rotation capability sufficient to orient Phased Array Feed beams on a sky coordinate frame independent of parallactic angle.System status. The system shall extract information about the current condition of the system from the science and calibration data streams, and log this information along with other relevant system and environmental status information. Based on this information, it shall be possible to monitor, save, and analyse the technical performance of the system.Central location for data bases. External sources of information used by the Elements shall be cached by Telescope Manager. No sources other than those cached by TM shall be used.

Latency of TOO scheduling block initiation . Scheduling intervention on TOO triggers shall be initiated within 1s of receiving the trigger.Discard previous scheduling block . At the launching of a TOO Scheduling Block, the results from any active Scheduling Blocks shall be discarded.

Closed loop calibration. The telescope calibration shall be solved by comparison of observed with GSM predictions with a time scale appropriate to the component and physical effect being calibrated and fed back to the telescope.Direction dependent effects. Self-calibration and image reconstruction algorithms shall be capable of dealing with direction dependent effects.Global sky model. Calibration and continuum subtraction shall use a Local Sky Model, derived from a Global Sky Model or previous Local Sky Model.Multi-frequency synthesis imaging . All imaging shall construct and make use of frequency dependent image models over the entire observed bandwidth.Deconvolution of single channels Scale sensitive two-dimensional (i.e. on the tangent plane) deconvolution shall be available.Solution for pointing errors. It shall be possible to solve for and correct time- and station-dependent pointing errors with accuracy and timescale limited by signal to noise ratio.Peeling. Peeling of bright sources (strength limited by signal to noise ratio) from the visibility data shall be possible.Continuum source finding. Where appropriate, continuum source finding shall be conducted on images generated by the Continuum Imaging pipeline. Polarization shall be fitted if available.Spectral line source finding. Where appropriate, spectral line source finding shall be conducted on image cube generated by the Spectral Line pipeline.Stacking. Where appropriate, spectral line stacking shall be conducted on image cubes generated by the pipelines using a priori known source lists.Standard pipeline products. All pipelines shall include as data products the pipeline processing log, and Quality Assessment log.Calibration pipeline. There shall be a Calibration pipeline that derives current telescope parameters using a recent observation and a Global Sky Model, either a known GSM or the most recent GSM.Continuum imaging pipeline. There shall be a Continuum Imaging pipeline that shall have the goal of constructing noise-limited wide-band images for observations up to 1000h integration time. Polarisation shall be available if requested or necessary for calibration or quality assurance.Continuum imaging data products. The Data Products shall include the first n moment images for multi-frequency synthesis, corresponding residual images (if deconvolved), sensitivity image and representative PSF image, where n is set by signal to noise ratio.Spectral line emission pipeline. There shall be a Spectral Line Emission pipeline that is optimised for constructing noise-limited (up to 1000h integration) channel cubes of spectral line emission either with continuum emission remaining or with continuum emission removed.Spectral line emission data products. The data products shall include spectral line cube image, continuum model images, sensitivity image, and representative point spread function.Spectral line absorption pipeline. There shall be a Spectral Line Absorption pipeline that is optimised for constructing noise-limited channel cubes of spectral line absorption with continuum sources removed.Spectral line absorption data products. The data products shall include spectral line cube image, continuum model images, sensitivity image, and representative point spread function.Slow transient pipeline. There shall be a Slow Transient imaging pipeline that shall be capable of constructing a continuum image after a GSM has been subtracted for every correlator integration time or slower, searching for transient sources, and producing a time-ordered catalogue.Slow transient data products. The data products shall include a catalogue of found sources, a sensitivity image, and representative PSF image.Automated Quality Assessment. All pipelines shall perform standardised, automated Quality Assessment of Images along the axes of astrometry, photometry, radiometry, polarimetry, and spectrometry.Role of science processing centres. The science-processing centre will convert the output data from the CSP into science data products to be stored in the science data archive.Mirror sites. All data within Science Archives shall have a secondary copy located offsite in a secure location.Web interface. The science data archives shall be accessible from the internet via a standardised web interface.Virtual Observatory interface. The science data archives shall be accessible via a set of recommended IVOA services chosen to allow access to all approved data products.Archive API. The science data archives shall publish a user accessible, open API in a small number of complementary languages such as Python, C++, and Java.Data product provenance. An official data product shall have known, documented provenance, and shall have been produced via SKA observations and processing.

Science data product archive policy. There shall be a policy, developed and administered by Operations, governing which types and sizes of data products will be retained in the archive and for how long.Archive access. A telescope archive will be nominally open for access 24/7/365, with no more than 24 hrs planned downtime per year. Unplanned downtime shall be consistent with availability budget.Archive lifetime. The science data archives shall be designed to provide an archived data lifetime of not less than 50 years from the start of archived observations.Data migration plan. Operations shall maintain at all times and update yearly a current data migration plan covering the contingency of moving from one archive platform to another.Distribution of data products. As limited by resource constraints, it will be possible to deliver science data products to approved off-site facilities, which may be globally distributed.SADT to SDP interface . The interface between SADT and SDP shall be compliant with the SKA-TEL.SADT.SE-TEL.SDP.SE-ICD-001 Interface Control Document.SDP to TM interface . The interface between SDP and TM shall be compliant with the SKA-TEL.SDP.SE-TEL.TM.SE-ICD-001 Interface Control Document.SDP to INFRA interface . The interface between SDP and Infra shall be compliant with the SKA.TEL.SDP.SE-TEL.INFRA.SE-ICD-001 Interface Control Document.Design for Extensibility .Design trade studies for SKA1 shall include scenarios where design features are included which will allow Increases in the number of receptors for SKA2 over SKA1 by a factor of 10 whilst re-using more than 90% of SKA1 hardware The introduction of AIP technologies at SKA2 scales whilst re-using more than 90% of SKA1 hardware Such trade studies shall yield the incremental cost of such scenarios over those which do not include such design features.Hazard analysis . A hazard analysis shall be performed at the system and element level in accordance with BS IEC 61882 and, where applicable, shall include a FMEA in accordance with EN 60812.Safety incident recovery plan. A safety incident recovery plan shall be produced in accordance with SKA PRODUCT ASSURANCE SAFETY PLAN SKA-OFF.PAQA-SKO-QP-001.Design for hazard elimination. Designs shall demonstrate the elimination, or mitigation to a risk level practically achievable, of all hazards by means of a subsystem hazard analysis (SSHA) report as described in EN 14738 and tailored by SKA Product Assurance and Safety Plan SKA-OFF.PAQA-SKO-QP-001.Fail safe design. Components and Equipment shall be designed to be locally fail-safe and not rely on external safety devices or measures to operate safely.

Emergency stop . The SKA1 Elements shall have emergency stop switches or brakes for all electro-mechanical or mechanical systems that have been identified by safety analyses (required under SKA1-SYS_REQ-2435) to pose a hazard.Protection from high voltages. High voltage cages or enclosures shall be used to protect personnel from inadvertent access to high voltages in accordance with AS/NZS3000 (Australia) and SANS10142 (South Africa).Safety grounding and bonding . External conductive parts shall be grounded in compliance to:South Africa:National Building Regulations and Building Standards Act, 1977Occupational Health and Safety act, 1993SANS 10313Australia:AS/NZ 3000,AS/NZ 1768Electrical circuit interlocks . Electrical circuit inter-locks shall be provided to prevent personnel coming into contact with hazards that cannot otherwise be eliminated from design.Electrical safety . Electrical risks and hazards shall be controlled in accordance with local, State and national legislation and Codes of Practice.NOTE: In South Africa, SANS 10142-1 and SANS 10142-2 shall apply.NOTE: In Australia, in addition to legislation, the following Codes of Practice shall be applied:AS/NZ 3000Safe Work Australia 'Managing Electrical Risks at the Workplace';Western Australia Director of Energy Safety 'Safe Low Voltage Work Practices by Electricians'Sharp metal edges . If they cannot be eliminated from design, sharp edges, access openings and corners shall be protected with covers or coatings where feasible.Stand-off and handles . Stand-offs and handles shall be used to protect system components from damage during shop maintenance.Construction and AIV Safety Plan. A comprehensive safety plan, tailored to construction and AIV activities, shall be established and implemented before the construction starts at the observatory site.Safety information for use. Where risks remain despite inherently safe design measures, safeguarding and the adoption ofcomplementary protective measures, the residual risks shall be identified in the information for use in accordance with BS EN ISO 12100 (section 6).The information for use shall include, but not be limited to, the following:âŽS afety training . All personnel shall be provided with appropriate Health and Safety training in compliance with local regulations.Protective clothing. Protective Clothing for areas where environments detrimental to human safety shall be worn.Fire fighting equipment . Fire fighting equipment shall be made available at all SKA premises and facilities.Noise level dosage. Personnel shall not be exposed to noise level dosages exceeding local health and safety guideline levels. The maximum noise levels shall not exceed an 8-hour average exposure of 85 decibels as specified in the Australian National Standard for Occupational Noise NOHSC: 1007(2000) and South African Noise-Induce Hearing Loss Regulations (No R.307 2003) of the Occupational Health and Safety Act, 1993 (Act No 85 of 1993). The desirable maximum noise level is 75 decibels. Note: The National Code of Practice for Noise Management and Protection of Hearing at Work [NOHSC:2009(2004)] provides practical guidance on how NOHSC:1007(2000) can be achieved.Transient noise level. Noise levels exceeding 85dB shall be controlled or mitigated in accordance with NOHSC National Standard for Occupational Noise [NOHSC: 1007].Illumination. Personnel shall be provided with a working illumination level which is compliant with local and national regulations including the current issue of SANS 10114-1 in South Africa and the AS/NZS 1680 series in Australia.Clean air. Personnel shall be provided with air quality at least compliant with the current issue of SANS 10400-O (South Africa - The application of National BuildingOccupational health legislation and regulations. The observatory shall comply with all applicable local, State and national occupational health regulations and standards in force at the time. Regulations include, but are not limited to:South Africa:Occupational Health and Safety Act, 1993, and all its regulations.Australia:Commonwealth Occupational Health and Safety Act 1991;OHS (Safety Arrangements) Regulations 1991;OHS (Safety Standards) Regulations 1994;OHS Codes of Practice 2008.Western Australia:Occupational Safety and Health Act 1984;Harmonised OHS legislation (as enacted).Electromagnetic Radiation. Any component of the observatory shall not emit electromagnetic radiation, in any of the stated frequency intervals for broad band and narrow band cases, that exceeds the SKA RFI/EMI Threshold Levels[4]Self-induced RFI. The SKA1 Telescope shall generate less self-induced RFI, within the Telescope's operating frequency bands, than the SKA RFI/EMI Protection Levels, for both broad band and narrow band cases, as specified in the "RFI/EMI Protection and Threshold Levels for the SKA" document. The SKA RFI/EMI Protection Levels are defined at the respective receiver input, and measured at the respective Telescope time series output.Electromagnetic Compatibility Standards. The SKA1 Telescopes shall be compliant with one or more of the following standards for emissions and one or more for susceptibility/immunity:*BS EN 61000-6-2. Electromagnetic compatibility (EMC). Generic standards. Immunity standard for industrial environments.*BS EN 61000-6-4 AMD2. Electromagnetic compatibility (EMC). Part 6-4. Generic standards. Emission standard for industrial environments.*BS CISPR 14-1. Electromagnetic compatibility. Requirements for household appliances, electric tools and similar apparatus. Part 1. Emission.*MIL-STD-464CElectricity network Electromagnetic Compatibility. The SKA1 telescopes shall follow the TBD code of practice for the application of Electromagnetic Compatibility (EMC) standards and guidelines in electricity utility networks.EMC compatibility marking. All "off-the-shelf" equipment shall possess as a minimum the host country EMC marking.Electromagnetic susceptibility. The observatory shall not be susceptible to terrestrial electromagnetic radiation at any frequency that significantly interferes with its normal operation.RFI flagging. The SKA1 telescopes shall automatically flag frequency data with a resolution of one channel and time data to the resolution of the integration unit if the data is corrupted by RFI.

Equipment security. The observatory shall provide a secure environment for equipment. This shall include protection of generators, fuel, solar cells and inter-station assets such as copper cables.

Emergency communication. The observatory shall provide an independent system to communicate with outside locations in emergencies.Accessibility. It shall be possible to control on a per user basis which SKA1 facilities and resources (both hardware and software) may be accessed by the user.Environment protection plan . An Environmental protection plan shall be developed and maintained. This shall include the management of Environmental Impact Assessments (EIA) in accordance with SA NEMA, WA EPA and Commonwealth EPBC.Environmental legislation and regulations. The observatory shall be compliant with all local, State and national environmental protection legislation and regulations.NOTE: Legislation takes precedence over project/contract documentation and requirements. Omission of a law from this requirement does not affect its enforceability. Legislation is also subject to amendment and so the Environmental Laws identified during the Request for Information (copied below) may be modified by the Hosting Agreements and subsequent Acts and Amendments.Legislation and regulations identified during the response to Request for Information include:South Africa:National Environmental Management Act, 1998 ("NEMA");National Water Act, 1998;National Environmental Management: Air Quality Act, 2004;National Environmental Management Waste Act, 2008;National Environment Management: Biodiversity Act, 2004;National Heritage Resources Act, 1999.*Australia:The Commonwealth Environment Protection and Biodiversity Conservation (EPBC) Act 1999.Safety. SKA1 equipment and buildings shall be designed and built in compliance with national and State regulations including AS 1170.4 (Importance level 3, design life 50 years) and SANS 10160-4 for earthquakes of magnitude up to Richter 3.8.

Storage and transport Humidity . The storage and transport humidity shall be between 40% and 95%.Condensation . Appropriate measures shall be taken to prevent the formation of condensation on operating electronic components.Pressure . Components shipped by air shall be capable of surviving pressures down to 11 kPa (equivalent altitude ~ 50,000 feet).Facilities and Equipment Intrusion . Where appropriate, SKA1 equipment facilities shall be adequately protected against intrusion by insect and "larger" wandering animals.

Scope of workmanship standards. SKA1 dedicated workmanship standards shall cover all phases of production, assembly and integration, testing, handling, and include clear requirements for acceptance/rejection criteria.Best practice . Best available methods for reducing adverse effects of operational and maintenance environments on critical components shall be adopted.

Known f ailure rate parts. The failure rate of parts shall be known (e.g. through analysis or modelling) before inclusion in SKA design.

Reliability testing . A testing and evaluation master plan shall be generated for high-risk reliability components.Spares and repair parts testing . Critical spare and repair line replaceable units shall be tested before deployment.Component derating . Safety factors and margins shall be applied in the selection of modules and components

Shelf life and wear out characteristics . The shelf life and wear out characteristics of all components and parts shall be known before inclusion in SKA designs.Special procurement components . Critical parts requiring special procurement methods, testing and handling provisions shall be identified.

Maintainability budgets. Maintainability budgets shall be allocated at the system decomposition level, and shall be consistent with the system level requirements for reliability and maintainability of the system.Test and Repair Instructions. Where end user repair is applicable Test and Repair Instructions shall be delivered with all equipment.

Maintenance test and support equipment. Equipment required for test and support shall be identified for each repairable item.Test and support equipment Test and support equipment shall be identified for each level of maintenance.Test and support equipment standardisation. Any test equipment not included in the standard test equipment list required for the integration, commissioning and maintenance of equipment shall be declared.Test and support equipment lifecycle costs. Life cycle costs shall be generated for all test and support equipment.Test equipment reliability Test equipment reliability shall be sufficient to meet the maintainability requirements.T raining A plan detailing the training required for maintenance, calibration and repair shall be generated.

Self-test . Self-Test capability such that all faults can be identified down to LRU level shall be provided.Continuous performance monitoring. Where possible, the system shall be designed to provide continuous performance monitoring.

Design for economic production . All designs for the SKA shall be designed for economic production. This is required to ensure that the SKA is buildable for a reasonable cost (Con Ops Section 1.2)Design definition . Design definition shall be in sufficient detail to allow one or more manufacturers to produce the same item within identified tolerances.

Materials list. Each sub-system supplier shall provide a Materials list for all items intended for use within SKA1.Hazardous Materials list. Each Element supplier shall provide a list of hazardous materials used for all items intended for use in the SKA1 detailing suggested handling precautions, disposal instructions and contra-indications.

P rocess list. Each element supplier shall provide a process list for all items intended for use in the SKA1.Parts availability. The estimated availability of the parts shall be compatible with the final system's life cycle.

Material environmental rule compliance. All materials used in the SKA1 design shall be fully compliant to all environmental rules applicable to the SKA1 core and remote sites.

Marking method. Method of marking shall be compatible with the nature of the item, its environment and its use.Electronically readable or scannable ID. Where possible line replaceable items shall be marked with an Electronically readable or scannable ID.

Package serial number marking . All packaging shall be marked with the serial number of the contents.Hazard warning marking . All items that present a potential hazard shall be labelled in accordance with BS EN ISO 7010.LRU electrostatic warnings All LRUs with electrostatic sensitive components shall be fitted with ESD warning labels.Packaging electrostatic warnings. All packaging containing static sensitive contents shall be marked with ESD warning labels.

Modular packaging. The packaging of components shall be modular to limit maintenance to the removal of one module.Maintenance provisions. Repairable items shall be designed to include maintenance provisions such as test points, accessibility, and plug-in components.

Module access . Where applicable, access between modules shall be sufficient to facilitate hand grasping.Component removal . Modules and components shall be mounted such that removal of any single item will not require the removal of other items (component stacking to be avoided where possible)Secure mounting of modules . Modules shall be securely mounted (in compliance with the shock and vibration requirements) with the minimum number of fasteners.

Mounting preclusion . Provisions for the preclusion of mounting the wrong module shall be provided (key coding of connectors etc.).Mounting guides . Mounting guides and location pins shall be provided to facilitate module mounting.

Label robustness . Labels shall be permanently affixed and unlikely to come off during maintenance or as a result of the environment.

SKA1_Mid Pulsar phase binning. The SKA1_Mid, for each subarray, shall allow for pulse phase-resolved observations supporting the product of the number of phase bins, channel and polarisation products up to 1,000,000 (i.e. 4 x 256,000).Spectral stability: The spectral stability, on a time scale of 600 sec.,of the station beam bandpass, post station calibration and RFI-mitigation, shall be within 1.3 %, 0.4 %, 0.6 % and 1.1 % at 50 MHz, 100 MHz, 160 MHz, and 220 MHz respectively compared to the full polarization, parameterized beam model.Station beam stability. The difference between the parameterized station beam model and the actual station beam shall remain smaller than 1.3 %, 0.4 %, 0.6 % and 1.1 % relative to the main beam peak power, after calibration, at 50 MHz, 100 MHz, 160 MHZ and 220 MHz respectivelyCalibration update rate. Calibration measurements shall be necessary at a rate of no more than 10seconds.Real-time calibration. The LFAA reception system at station level shall provide on-line instrumental calibration functions with an update rate of 10 minutes

Telescope model. A dynamic computational model of the Telescope shall be used to answer all queries about the state of the Telescope. The telescope model shall consist of configuration information, numerical models, empirical parameters, and conventions.Seismic resilience. SKA1 structures and equipment shall survive and be fully operational after a seismic event of magnitude up to Richter 3.8. Note: Seismic event includes underground collapses in addition to earthquakes.Processing capability. SDP processing per telescope at Early Science shall support processing rates 10% of that required for Full Observing (decimation being in any or all of time, frequency, field of view )Backup archive retrieval . Backup archive items shall be retrievable to the full archive from an alternate source within 24 hoursBackup archive user access conversion. Users shall have access to the data of the entire archive within one week following an incident.Commensal Observing Data access rights. There shall be a documented data access rights policy for commensal observing for data sets shared across projects.Component obsolescence plan. There shall be a plan for the management of component obsolescence.

Availability budgets. Availability budgets shall be allocated at the system decomposition level, and shall be consistent with the system level requirements for reliability and maintainability of the system.Availability, reliability, and maintenance plans . There shall be an availability, reliability and maintenance plan for each SKA1 telescope.Aperture Array DDE . There shall be a direction dependent model for the aperture array primary beam to be used in calibration and imaging.Faraday rotation DDE. There shall be a direction dependent Faraday Rotation model for use in calibration and imaging.PAF DDE. There shall be a direction dependent model for the dish phased array feed sensitivity pattern to be used in calibration and imaging.Dish DDE. There shall be a direction dependent model for the dish primary beam to be used in calibration and imaging.Data migration design. The archive design shall support and facilitate migration from one medium to another.Calibration and imaging formalism. The Calibration and Imaging formalism shall be based upon the Rau framework [14].Location of Emergency stop . Emergency stop switches shall be located in such a way to minimize the risk of injury. (Verified by Analysis as 'minimisation' is unverifiable any other way.)CSP to SDP interface . The interface between CSP and SDP shall be compliant with the SKA-TEL.SDP.SE-TEL.CSP.SE-ICD-001 Interface Control DocumentLevels of access . Access to the archive shall be either anonymous with correspondingly limited capabilities or via SKA authentication and authorisation.Performance assessment: Performance assessment shall be based on multi-valued functions of an observed Image and optionally a template Image.Performance Goals: Performance goals shall be based on multi-valued functions of an observed Image and optionally a template Image.Quality assessment. Quality assessment shall be based on the comparison of a Performance Assessment and a Performance Goal.Astrometric performance metric: The Astrometric performance metric (APM) shall measure deviation (rms, average offset, and med) of source positions from known standards.Photometric performance metric: The Photometric performance metric (PPM) shall measure deviation (rms, average offset, and med) of source fluxes from known standards.Radiometric performance metric: The Radiometric performance metric (RPM) shall measure noise fluctuations (rms, average offset, and med) in an Image.Polarimetric performance metric: The Polarimetric performance metric (OPM) shall measure deviation (rms, average offset, and med) of source polarisations (polarisation degree and angle) from known standards.Spectrometric performance metric: The Spectrometric performance metric (SPM) shall measure deviation (rms, average offset, and med) of source spectral lines from known standards.Safety documentation file . Elements shall provide procedures for maintainers to recover from an unplanned shut-down, including safety checks to be conducted prior to start-up, as specified in SKA PRODUCT ASSURANCE SAFETY PLAN SKA-OFF.PAQA-SKO-QP-001.Non-propagation of failures . The equipment shall be designed such that hardware failures and software errors should not create a hazardous situation to interfacing systems.Environmental Impact Assessment . The Observatory shall undertake an Environmental Impact Assessment (EIA) in accordance with the local and national environmental legislation. NOTE: the EIA shall be undertaken in accordance with: South Africa - the National Environmental Management Act (NEMA); Australia - Western Australian EPA and Commonwealth EPBC.Personnel security training . All personnel shall receive the security training identified in the Security Management System necessary for their location. Additional specialist pre-deployment training shall be given prior to working in remote environments.Travel safety. Personnel shall adhere to local safety procedures for travelling in remote areas. NOTE: Safety procedures should include the training and equipment required, such as driving instruction, vehicles appropriate for the environment and radio equipment.Protection of equipment in stationary use at non-weather protected locations . Equipment in stationary use at non-weather protected locations shall be protected against environmental conditions 4K4H/ 4Z1/ 4Z5/ 4Z6/ 4B2/ 4C1/ 4S3/ 4M4 in accordance with BS EN IEC 60721-3-4. NOTE: 4Z5 refers to the survival, non-operational mode. The equipment shall be able to operate normally for air movement up to 11 m/sProtection of equipment in weather-protected locations. Equipment in stationary use at weather protected locations shall be protected against environmental conditions 3K8H/ 3Z1/ 3Z11/ 3Z12/ 3B3/ 3C1R/ 3S3/ 3M4 in accordance with BS EN IEC 60721-3-3.Transportation of equipment . Equipment shall be designed to withstand transportation from an engineering depot to a station exposed to environmental conditions 2K5H/2B3/2C1/2S3/2M3 as detailed in BS EN IEC 60721-3-2. NOTE: It may be assumed that the equipment will be transported in the original packaging that it was delivered to the engineering depot.Storage of equipment. Designs shall identify any requirements for equipment to be stored in environmental conditions less severe than 1K11/1B3/1C1/1S3/1M3 as specified inBS EN IEC 60721-3-1. Note: It may be assumed that equipment will be stored in its original packaging.Design for maintainability . Designs shall incorporate maintainability studies and analysis in accordance with BS EN IEC 60706-2 with emphasis on minimising the need for maintainers on sites. This activity should incorporate best practice such as described by B.S. Blanchard W.J. Fabrycky 'Systems Engineering and Analysis', Pearson 2011.Product Assurance . Product Assurance shall be managed following a process modelled on the SKA Product Assurance Safety Plan SKA-OFF.PAQA-SKO-QP-001Design for testability. Designs shall include an assessment of testability in accordance with BS EN IEC 60706-5Marking of machinery - safety. In accordance with ISO 61310_2, machinery shall bear all markings which are necessary ? for its unambiguous identification; ? for its safe use; and supplementary information shall be given, as appropriate: ? permanently on the machinery; ? in accompanying documents such as instruction handbooks; ? on the packagingSafety of machinery risk assessment . A risk assessment shall be conducted for each item of machinery in accordance with BS EN ISO 12100.

Safety of equipment with rated voltage not exceeding 600V . Equipment shall comply with the safety requirements of BS EN IEC 60950. NOTE: This includes electric shock, energy related hazards, fire, heat related hazards, mechanical hazards, radiation and chemical hazards.Archive. There shall be an archive for each telescope, located in the Science Processing Centre, for storing selected science data products for subsequent access by users according to science data access policy.Information security risk assessment . An information security risk assessment shall be conducted for each element in accordance with ISO/IEC 27005.Information security management for inter-organizational communications. Information transfer between organisations shall be controlled in accordance with ISO/IEC 27010 as tailored by SKA Organisation Security Policy.

System Availability . System designs shall meet the system availability allocations specified in SKA-OFF.SE.ARC-SKAO-RAM-001.

SKA1_Mid Pulsar phase bin width. The SKA1_Mid shall be capable of providing pulsar phase bin widths with a time resolution of better than 10us.SKA1_Mid inclusion of MeerKAT. The SKA1_Mid shall incorporate the 64 antennas in both monitor and control and data collection functions.SKA1_Mid-MeerKAT infrastructure reuse. Where economically practicable, the existing MeerKAT infrastructure will be reusedVLBI data sources. The SKA1_Mid and SKA1_Survey telescopes shall be data sources for VLBI data acquisition system. The interface between the telescopes SAK1_Mid and SkA1_Survey and the external VLBI data acquisition system shall be compliant with the ICD SKA-TEL-SKO-0000116Provision of equipment for recording . Provision of equipment for recording or capturing VLBI data is outside the scope of SKA1VLBI equipment and eVLBI connectivity. VLBI equipment and eVLBI connectivity beyond the interface boundary described in the ICD SKA-TEL-SKO-0000116 is outside the scope of supply of the SKA1 project.VLBI Processing . VLBI processing, with the exception of beam-forming and SKA1 imaging in support of VLBI. is outside the scope of the SKA1SKA1_Mid VLBI store the time-dependent antenna weights. SKA1_Mid shall be able to store the time-dependent antenna weights used for each tied-array beam sumSKA1_Mid VLBI relative sensitivity and coherence losses. The SKA1_Mid beamformer shall be able to weight the antenna inputs into the tied-array sums based on relative sensitivity and coherence losses.SKA1_Mid VLBI spectral resolution. SKA1_Mid shall be able to generate VLBI beams with a spectral resolutions different from the spectral resolution used for imaging within the same VLBI sub-arraySKA1_Mid VLBI imaging and beamforming SKA1_Mid shall be able to simultaneously generate imaging data using all antennas in a VLBI sub-array, as well as generating the VLBI beams.SKA1_Mid VLBI spectral line and time domain observation SKA1_Mid shall be able to generate VLBI beams optimised for either spectral line observations (to mitigate spectral leakage) or time domain observations (to mitigate time smearing)SKA1_Survey VLBI store the time-dependent antenna weight. SKA1_Survey shall be able to store the time-dependent antenna weights used for each tied-array beam sum.SKA1_Survey VLBI timestamp accuracy. SKA1_Survey shall be able to generate data from the VLBI beams with samples traceable to a timestamp with an accuracy of 1 nsec or better.SKA1_Survey VLBI relative sensitivity and coherence. The SKA1_Survey beamformer shall be able to weight the antenna inputs into the tied-array sums based on relative sensitivity and coherence losses.SKA1_Survey VLBI spectral resolution. SKA1_Survey shall be able to generate VLBI beams with a spectral resolutions different from the spectral resolution used for imaging within the same VLBI sub-arraySKA1_Survey VLBI imaging and beamforming. SKA1_Survey shall be able to simultaneously generate imaging data using all antennas in a VLBI sub-array, as well as generating the VLBI beams.SKA1_Survey VLBI spectral line and time domain observation. SKA1_Survey shall be able to generate VLBI beams optimised for either spectral line observations (to mitigate spectral leakage) or time domain observations (to mitigate time smearing).An element of verification in which scientific principles and procedures are applied to determine the properties or functional capabilities of an item.An element of verification that uses established technical or mathematical models or simulations, algorithms, charts, graphs, circuit diagrams, or other scientific principles and procedures to provide evidence that stated requirements are met.An element of verification that involves the actual operation of an item to provide evidence that the required functions are accomplished under specific scenarios. The items may be instrumented and performance monitored.An element of verification that is generally non-destructive and typically includes the use of sight, hearing, smell, touch, and taste; simple physical manipulation; and mechanical and electrical gauging and measurement.

Decomposed by Satisfied bySDP_REQ-10 Observation control - status, SDP_REQ-6 Observation scheduling feedback, SDP_REQ-8 Observation control - start, SDP_REQ-9 Observation control - stop, F.15.1 Control,

F.15.1.5 Observation Control, SDP_REQ-94 User Authorisation, SDP_REQ-571 Access to data and metadata, F.14.1.3.1 Maintain User Credentials (Client),

F.14.1.3 Maintain User Credentials, F.14.1.3.2 Maintain User Credentials (Service), F.14.1.3.1 Maintain User Credentials (Client),

SDP_REQ-105 Proprietary data period, SDP_REQ-104 Proprietary metadata period, F.14.2.6 Query Authorised Metadata, F.14.2.6.1 Append Authorisation Parameters to Query, F.14.2.4 Filter By Authorisation,

SDP_REQ-108 Delivery performance, SDP_REQ-114 Analysis output storage, SDP_REQ-107 Identify distribution destination, SDP_REQ-115 Metadata replication, SDP_REQ-110 RC storage capacity, SDP_REQ-98 User access log consistency, SDP_REQ-117 RC unexpected downtime, SDP_REQ-113 RC analysis execution, SDP_REQ-109 Delivery interruption, SDP_REQ-116 RC expected downtime, SDP_REQ-111 RC data transfer rate, SDP_REQ-112 RC storage rate, SDP_REQ-99 User Credentials Replication, F.13.1 Data distribution policy, F.13.1.1 Maintain remote products, F.14.2.5 Select Destination, F.13.2.2 Receive Data at Regional Centre, F.13.2.2 Receive Data at Regional Centre,

SDP_REQ-12 Frequency availability, SDP_REQ-13 Frequency control - switch, F.15.1 Control, F.13.2.1 WAN Interface, F.13.2.1 WAN Interface, F.13.2.1 WAN Interface, F.13.2.1 WAN Interface, F.13.1.1.1 Analyse Data, F.13.2.1 WAN Interface, F.13.2.1 WAN Interface, F.13.2.1 WAN Interface, F.13.2.1 WAN Interface,

SDP_REQ-120 Data delivery priority, SDP_REQ-119 Delivery Count Limit, SDP_REQ-122 High priority delivery, SDP_REQ-123 Low priority delivery, SDP_REQ-125 Trigger data removal, SDP_REQ-121 Data delivery budget, SDP_REQ-127 RC Product Renewal, SDP_REQ-126 Trigger data update, SDP_REQ-124 Delivery strategy data model, F.14.3 Request Data Delivery, F.13.2.3 Schedule data delivery, F.13.2.3.1 Check previous deliveries, F.15.1.5.2 Observation Resource Estimation, F.13.2.3.3 Prioritise data for delivery, F.13.2.3.2 Check Data Transfer budget, F.13.2.3.2 Check Data Transfer budget, F.13.2.3.2 Check Data Transfer budget, F.13.2.3.1 Check previous deliveries, F.13.1.1.2 Delete Remote Products, F.13.1.1.3 Update Remote Products, F.13.1.1.1 Analyse Data, F.14.5.3 View Data with Core analysis, F.14.5.3 View Data with Core analysis, F.15.1.5 Observation Control, F.14.2 Discover Data, F.14.5 Visualise data, F.14.5.4 Annotate Archive Data,

SDP_REQ-560 Identify multi-beam candidates, SDP_REQ-559 Extract pulsar search heuristics, SDP_REQ-547 Classify Candidates (pulsars), F.10.1 Periodicity Search Post Processing , F.15.1.5.2 Observation Resource Estimation,

SDP_REQ-533 Merge Data from Multiple Beams, F.10.1 Periodicity Search Post Processing , SDP_REQ-563 Merge Data from Multiple Beams (transients), F.8 Non-Imaging Transient Post Processing,

F.15.1.5.2 Observation Resource Estimation, F.15.1.5.2 Observation Resource Estimation, F.15.1.5 Observation Control, F.15.1.5 Observation Control, P.8 Operations, P.8 Operations, P.8 Operations,

P.8 Operations, SDP_REQ-186 Cable Management, P.8 Operations,

SKA1-SYS_REQ-2491 Safety., SDP_REQ-185 Safety Compliance, SKA1-SYS_REQ-2827 System Availability, P.8 Operations, SDP_REQ-232 Cable Tray Access, SDP_REQ-219 Cardboard, SDP_REQ-198 Physical footprint, SDP_REQ-196 Ease of Physical Access (Clearance Parameters), P.8 Operations,

F.15.1.5 Observation Control, SDP_REQ-218 Assembly Area Temperature, P.8 Operations, SDP_REQ-217 Parts Storage Temperature, P.8 Operations,

P.8 Operations, P.8 Operations,

SDP_REQ-222 Plant Failure, SDP_REQ-237 Power Reliability, SDP_REQ-224 Liquid Spill, SDP_REQ-240 Power Maintenance, P.8 Operations, P.8 Operations, P.8 Operations, P.8 Operations,

SDP_REQ-603 Capability Handling TBD, F.15.1 Control, F.15.1.5 Observation Control, P.7 Environmental, P.7 Environmental, P.7 Environmental, P.7 Environmental, P.7 Environmental,

SDP_REQ-213 Fire Suppression Systems Standards Compliance, P.10 Protection, SDP_REQ-212 Heatwave Cooling, SDP_REQ-596 Liquid Cooling for local storage and network rack cooling, SDP_REQ-210 Liquid Cooling for compute racks, P.10 Protection,

P.10 Protection, P.10 Protection, P.10 Protection, F.15.1.5 Observation Control, P.10 Protection, P.10 Protection, P.10 Protection, P.10 Protection,

SDP_REQ-219 Cardboard, P.10 Protection, SDP_REQ-218 Assembly Area Temperature, SDP_REQ-217 Parts Storage Temperature, P.10 Protection,

SDP_REQ-192 Spare Parts Storage, SDP_REQ-216 Storage Temperature, P.10 Protection, SDP_REQ-190 Assembly Space, SDP_REQ-216 Storage Temperature, P.10 Protection, SDP_REQ-189 Ease of Physical Access, SDP_REQ-214 Air quality for equipment, P.10 Protection,

F.15.1.5 Observation Control, P.10 Protection, P.10 Protection, P.10 Protection, P.10 Protection, P.10 Protection, P.9 Health and Safety, P.9 Health and Safety,

SDP_REQ-230 Visitor Impact, SDP_REQ-228 Security System Effects, P.9 Health and Safety, F.15.1.5 Observation Control, P.9 Health and Safety, P.9 Health and Safety,

SKA1-SYS_REQ-2460 Occupational health legislation and regulations., P.9 Health and Safety, P.11 Power Supply, P.11 Power Supply,

P.11 Power Supply, P.11 Power Supply,

SDP_REQ-245 Power Monitoring, P.11 Power Supply, SDP_REQ-624 Data Flow Graphs, F.15.1.5 Observation Control,

P.11 Power Supply, NF.4 Operations,

SDP_REQ-193 Comms Room, NF.4 Operations, SDP_REQ-629 Power Management, P.11 Power Supply,

P.8.7 PUE, SDP_REQ-250 DB Interface, SDP_REQ-267 Availability Metric, SDP_REQ-598 Storage Hierarchy, SDP_REQ-248 Data Life Cycle Management, F.12.1 Data Layer Management, SDP_REQ-609 Release Status, SDP_REQ-612 Data Product Types, SDP_REQ-263 Data Migration Design, SDP_REQ-610 Consistent Release State, SDP_REQ-611 User Roles, SDP_REQ-599 Data Service Layer, SDP_REQ-613 Meta Access, F.12.1.1 Data Life Cycle Control, SDP_REQ-26 Resource sharing, F.15.1.1 Manage LMC Instances,

SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-247 Data Layer Management, F.12.1.2.4 Database Access, SDP_REQ-631 Simulate observations, F.12.1 Data Layer Management,

SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2127 Sub-Arraying., F.12.1.1.1 Aggregation, F.12.1.2 Hierarchical Storage Management, F.12.2.2 Branding/Provenance, F.12.1.1.1 Aggregation, F.12.2.1 Indexing,

SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-271 Data Products, F.12.1.3.3 Aborting/Resetting, F.12.1.1.4 Retirement, F.12.1.3.1 Special Purpose Functions, F.15.1.1 Manage LMC Instances, F.15.1.5 Observation Control,

SDP_REQ-281 Backup sites, SDP_REQ-282 Backup Archive Retrieval, F.12.1.1.2 Replication of Data Objects, F.12.1.1.2 Replication of Data Objects,

SDP_REQ-576 Data Product Replication, SDP_REQ-523 Archive Database Service, SDP_REQ-577 Decoupling real-time Ops, SDP_REQ-522 Archive Bulk Data Access Service, F.13.2 Bulk Data Transfer, F.12.3 Archive Access, SKA1-SYS_REQ-2728 Data migration design, SDP_REQ-248 Data Life Cycle Management, F.12.1.1.3 Migration,

F.12.3.3 Access Control, SDP_REQ-266 Status Information, SDP_REQ-287 Continuous performance monitoring., F.12.1.4.1 Load Measurement,

SDP_REQ-265 Continuous Performance Monitoring Metrics, SDP_REQ-384 Notification Event, F.12.1.4.2 Status Reporting, F.12.1.4 Monitoring, SKA1-SYS_REQ-2361 Archive access., SDP_REQ-247 Data Layer Management, F.12.1.4.2 Status Reporting,

F.12.1.1 Data Life Cycle Control, F.12.1.1.3 Migration, SDP_REQ-248 Data Life Cycle Management, F.12.1.1.3 Migration,

SKA1-SYS_REQ-2133 Mode transition, SDP_REQ-7 Observation Control, F.15.1.5 Observation Control, F.12.3.3 Access Control,

SDP_REQ-55 ObsCore Archive Metadata, SDP_REQ-56 Image Archive Metadata, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-256 Discard Scheduling Block, SDP_REQ-255 Tracing Data, F.12 Archiving, F.14.4.1 Transfer Data to End User, F.14.1 Authenticate and Authorise, F.12.3.3 Access Control, F.12.3 Archive Access,

SDP_REQ-254 Provenance, F.12.2 Product Ingest, F.14.1.1.1 Authorise User (Service), F.14.1.4 Maintain user-defined groups,

SDP_REQ-257 Sky Model Access, SDP_REQ-505 Global Sky Model Update, F.1.6 Calibration, F.1 Continuum Imaging, SDP_REQ-277 User Defined Access Control , F.14.1.4 Maintain user-defined groups, SDP_REQ-605 ASKAP integration, SDP_REQ-604 MeerKAT integration, F.15.1 Control, SDP_REQ-260 Archive Backup, F.12 Archiving, SDP_REQ-260 Archive Backup, F.12 Archiving, SDP_REQ-261 Restoring Archive Operations of a failed site, F.12.1.1.2 Replication of Data Objects, SDP_REQ-264 Access Rules, SDP_REQ-286 Levels of access to the archive, F.15.1 Control,

F.12.3.3 Access Control, SDP_REQ-265 Continuous Performance Monitoring Metrics, F.12.1.4 Monitoring, SDP_REQ-636 Telescope Model-Serialise, SDP_REQ-634 Telescope Model-Validation, SDP_REQ-635 Telescope Model-Update, SDP_REQ-266 Status Information, F.15.4.2 Maintain Telescope Model, SDP_REQ-268 Rejuvenation, F.12 Archiving,

SDP_REQ-10 Observation control - status, SDP_REQ-8 Observation control - start, SDP_REQ-9 Observation control - stop, F.15.1 Control, SDP_REQ-270 Archive Security Traceability, F.12 Archiving, SDP_REQ-606 Receive observation request, F.15.1 Control, SDP_REQ-31 Graceful degradation - evaluation, SDP_REQ-32 Graceful degradation - reporting, F.15.1.3.2 Graceful Shutdown,

SKA1-SYS_REQ-2148 SKA1_Low channelisation, SDP_REQ-470 Receive Data, SKA1-SYS_REQ-2150 SKA1_Low correlator Integration rate., F.3.2 Receive and buffer (u,v) data, F.15.1.3.2 Graceful Shutdown, F.15.1.3.2 Graceful Shutdown,

SDP_REQ-607 Flagging control - LMC, F.15.1 Control, SDP_REQ-377 System health monitoring, F.15.1.8 LMC Self Test, SDP_REQ-36 Alarm timestamps, SDP_REQ-37 Alarm latency, SDP_REQ-633 Event aggregation, SDP_REQ-632 Event handler, F.15.2.3.1 Handle Alarms,

SKA1-SYS_REQ-2449 Construction Safety Plan., SKA1-SYS_REQ-2819 Safety of machinery risk assessment, SKA1-SYS_REQ-2455 Noise level dosage., SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2437 Design for hazard elimination., SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2444 Safety grounding and bonding., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2457 Illumination., SKA1-SYS_REQ-2439 Emergency stop., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2818 Marking of NF.6 Health, Safety & Environment,

SKA1-SYS_REQ-2716 Telescope availability, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2432 SDP to INFRA interface., SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-2118 South African Science Processing Centre, NF.4 Operations, SKA1-SYS_REQ-2466 EMC compatibility marking., SKA1-SYS_REQ-2464 Electromagnetic Compatibility Standards, SKA1-SYS_REQ-2463 Self-induced RFI, SKA1-SYS_REQ-2462 Electromagnetic Radiation, SKA1-SYS_REQ-2467 Electromagnetic susceptibility., SKA1-SYS_REQ-2465 Electricity network Electromagnetic Compatibility, NF.5 EMC & RFI,

F.15.2.3.1 Handle Alarms, SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion., SKA1-SYS_REQ-2793 Personnel security training, SKA1-SYS_REQ-2823 Information security management for inter-organizational communications, SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2822 Information security risk assessment, SKA1-SYS_REQ-2478 Equipment security, NF.1 Security, SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2594 Modular packaging., SKA1-SYS_REQ-2505 Sand and Dust., SKA1-SYS_REQ-2502 Condensation., SKA1-SYS_REQ-2596 Discard at failure items., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2799 Protection of equipment in weather- protected locations, SKA1-SYS_REQ-2798 Protection of equipment in stationary use at non-weather protected locations, SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2515 Component selection., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2525 Fail safe provisions., SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2599 Component removal., SKA1-SYS_REQ-2501 Storage and transport Humidity., SKA1-SYS_REQ-2579 Hazard warning markingNF.2 Equipment & Component Specifications, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2539 Test and support equipment standardisation, SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2523 Special procurement components., SKA1-SYS_REQ-2541 Test equipment reliability, SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2517 Known failure rate parts., SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2520 Spares and repair parts testing., SKA1-SYS_REQ-2544 Self-test., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2540 Test and support equipment lifecNF.7 Maintenance, Test & Support, SKA1-SYS_REQ-2571 Long lead time items., SKA1-SYS_REQ-2569 Process list., SKA1-SYS_REQ-2560 Design definition., SKA1-SYS_REQ-2570 Parts availability., SKA1-SYS_REQ-2566 Materials list., SKA1-SYS_REQ-2567 Hazardous Materials list., SKA1-SYS_REQ-2562 Standard manufacturing tools., SKA1-SYS_REQ-2568 Parts list., SKA1-SYS_REQ-2561 Manufacturing facilities., SKA1-SYS_REQ-2559 Design for economic production., NF.3 Production & Manufacturing Specifications,

F.15.2.3.1 Handle Alarms, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.6 Science Analysis, F.7 Imaging Transient Search, F.3 Ingest Data,

SDP_REQ-382 Component system consistency, SDP_REQ-377 System health monitoring, SDP_REQ-378 Deployment system, SDP_REQ-379 Scheduler, SDP_REQ-376 Platform management interface to LMC, F.20.1 Platform Management, F.15.1.4 Sub-element Control, F.20.1 Platform Management, F.15.1.4 Sub-element Control,

SDP_REQ-597 Component system state information, F.15.2.4 Health State, F.15.1.4 Sub-element Control, F.20.1.2 Deployment,

SDP_REQ-380 Scheduler Interface, SDP_REQ-381 Scheduler input, F.15.1.4 Sub-element Control, SDP_REQ-39 Metadata proxy, F.15.1.7 Receive observation configuration, F.15.4.1 Ingest Metadata,

F.15.1.4 Sub-element Control, F.15.1.5.1 Observation Runtime Estimation, F.15.1.4 Sub-element Control, F.20.1.2 Deployment, F.12.1.2.1 Transaction Management, F.12.1.4.3 Alerting,

SDP_REQ-274 Single Sign-On, F.14.2 Discover Data, SDP_REQ-397 Imager, SDP_REQ-396 LSM subtraction, SDP_REQ-500 Self-calibration loop, SDP_REQ-392 Peeling, SDP_REQ-447 Major and minor deconvolution cycles, SDP_REQ-404 Image plane spectral averaging, SDP_REQ-405 Image plane averaging 2, SDP_REQ-395 Additional Visibility Averaging, SDP_REQ-505 Global Sky Model Update, F.1 Continuum Imaging, SDP_REQ-397 Imager, SDP_REQ-396 LSM subtraction, SDP_REQ-447 Major and minor deconvolution cycles, SDP_REQ-600 Postage Stamp Selection, SDP_REQ-404 Image plane spectral averaging, SDP_REQ-405 Image plane averaging 2, SDP_REQ-601 Continuum Subtraction, SDP_REQ-395 Additional Visibility Averaging, SDP_REQ-448 Phase Rotation, F.2 Spectral line Imaging, SDP_REQ-397 Imager, SDP_REQ-396 LSM subtraction, SDP_REQ-447 Major and minor deconvolution cycles, SDP_REQ-600 Postage Stamp Selection, SDP_REQ-404 Image plane spectral averaging, SDP_REQ-405 Image plane averaging 2, SDP_REQ-601 Continuum Subtraction, SDP_REQ-395 Additional Visibility Averaging, SDP_REQ-448 Phase Rotation, F.2 Spectral line Imaging, SDP_REQ-395 Additional Visibility Averaging, F.7 Imaging Transient Search,

F.15.4.4 Simulate Telescope Model,

SDP_REQ-403 Deconvolution, F.1 Continuum Imaging, SKA1-SYS_REQ-2330 Peeling., SDP_REQ-386 Continuum imaging pipeline, F.1 Continuum Imaging, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-388 Spectral line absorption pipeline, F.2.10.1 uv Plane Averaging, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, F.1.4.6 Subtract from uv-data,

SDP_REQ-398 Gridding & de-gridding, SDP_REQ-403 Deconvolution, SDP_REQ-402 Fourier Transform Algorithm, F.1.4 Deconvolution, SDP_REQ-401 A-kernel, SDP_REQ-400 w-kernel, SDP_REQ-399 Anti-aliasing kernel, F.1.4.7 Gridding, F.1.4.5 De-gridding,

F.1.4.5 De-gridding, F.1.4.7 Gridding, SDP_REQ-15 Availability - Data Layer, SDP_REQ-16 Availability - Delivery, SDP_REQ-14 Availability - Compute, F.15.1.5.2 Observation Resource Estimation, SDP_REQ-48 Spectrometric performance metric, SDP_REQ-46 Radiometric performance metric, SDP_REQ-43 Quality assessment calculation, SDP_REQ-41 Performance assessment, SDP_REQ-47 Polarimetric performance metric, SDP_REQ-42 Performance goals, SDP_REQ-45 Photometric performance metric, SDP_REQ-44 Astrometric performance metric, F.15.3.2 QA Visualisation, F.15.3.2 QA Visualisation,

F.1.4.5 De-gridding, F.1.4.7 Gridding, SDP_REQ-398 Gridding & de-gridding, SKA1-SYS_REQ-2726 PAF DDE, SKA1-SYS_REQ-2724 Aperture Array DDE, SKA1-SYS_REQ-2727 Dish DDE, F.1.4.7 Gridding, F.1.4.5 De-gridding,

F.1.4.4 iFFT, F.1.4.8 FFT, SKA1-SYS_REQ-2729 Calibration and Imaging formalism, SDP_REQ-397 Imager, SDP_REQ-504 Scale sensitive deconvolution, SDP_REQ-390 Multi-frequency synthesis imaging, F.1.4.9 Major Cycle Loop, F.1.4.3 Identify Component, F.1.4.2 Subtract Component in Image Plane, F.1.4 Deconvolution, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, F.1.7 Image Plane Spectral Averaging, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-388 Spectral line absorption pipeline, F.2.10.1 uv Plane Averaging, F.1.7 Image Plane Spectral Averaging,

F.15.3.2.1 Client side rendering, F.15.3.2.1 Client side rendering, F.1.6 Calibration,

SDP_REQ-498 Fit model parameters, SDP_REQ-501 Predict visibilities, SDP_REQ-499 Correct, SDP_REQ-503 Flag (calibration), SDP_REQ-497 Subtract (calibration), F.1.6 Calibration, F.1.5 Initial Calibration (averaged data), F.3.7 Receive and Apply Initial Calibration (optional), F.15.3.2.2 Server side rendering, F.15.3.2.2 Server side rendering,

F.1.6 Calibration, F.15.3.2.2 Server side rendering, F.15.3.2.2 Server side rendering,

SKA1-SYS_REQ-2825 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2829 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2824 SKA1_Low Absolute flux scale, F.1.6 Calibration, F.1.6 Calibration, F.3 Ingest Data,

SDP_REQ-442 Astrometric performance metric, SDP_REQ-40 Quality assessment interface, F.15.3.1 Pipeline Metric Collection, SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-469 Perform Science Analysis Pipeline Automatic QA, SDP_REQ-466 Perform Calibration Pipeline Automatic QA, F.1.6 Calibration, SDP_REQ-44 Astrometric performance metric, F.1.6 Calibration, SDP_REQ-45 Photometric performance metric, F.1.6 Calibration, SDP_REQ-46 Radiometric performance metric, F.1.6 Calibration, SDP_REQ-47 Polarimetric performance metric, F.1.6 Calibration, SDP_REQ-48 Spectrometric performance metric, F.1.6 Calibration,

SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-386 Continuum imaging pipeline, F.1.4 Deconvolution, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2.10.2 Phase Rotation, SDP_REQ-443 Photometric performance metric, SDP_REQ-40 Quality assessment interface, F.15.3.1 Pipeline Metric Collection,

F.15.2 Monitoring, F.15.3 Quality Assurance, SDP_REQ-40 Quality assessment interface, SDP_REQ-444 Radiometric performance metric, F.15.3.1 Pipeline Metric Collection,

F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.9 Pulsar Timing Post Processing, F.8 Non-Imaging Transient Post Processing, F.10 Pulsar Search Post Processing, F.6 Science Analysis,

SDP_REQ-40 Quality assessment interface, SDP_REQ-445 Polarimetric performance metric, F.15.3.1 Pipeline Metric Collection, SDP_REQ-475 Transpose Data, SDP_REQ-471 Buffer Data, SDP_REQ-496 Set Weight, SDP_REQ-485 Combine Data, SDP_REQ-301 SDP ingest data rate, F.3.2 Receive and buffer (u,v) data,

F.3.2.1 Buffer (u,v) data ~0.5s, SDP_REQ-483 Missing Data, SDP_REQ-482 Order UV Data, F.3.3.1 Detect missing packets, SDP_REQ-484 Input Meta Data, F.3.5.2 Merge missing packet info with TM metadata, SDP_REQ-485 Combine Data, F.3.9.2 Combine time, frequency channels, baselines & polarisation,

F.3.9.1 transpose data, SDP_REQ-490 Data Quality, SDP_REQ-488 Flag Lightning, SDP_REQ-489 Covariance Matrices, SDP_REQ-487 Flag Data, F.1.1 RFI flagging and excision, SDP_REQ-490 Data Quality, SDP_REQ-491 Spatial Filtering, SDP_REQ-489 Covariance Matrices, F.1.1 RFI flagging and excision, SDP_REQ-490 Data Quality, SDP_REQ-486 Determine RFI Threshold, SDP_REQ-489 Covariance Matrices, F.1.1.3 Determine RFI detection threshhold,

F.3.6 Strong source removal,

SDP_REQ-40 Quality assessment interface, SDP_REQ-446 Spectrometric performance metric, F.15.3.1 Pipeline Metric Collection, F.3.1.3 Integrate in time and frequency (base-line dependant), F.3.3.2 Order (u,v) data over time, F.3.3.1 Detect missing packets, F.3.5.1 Input Metadata from TM, F.3.9.2 Combine time, frequency channels, baselines & polarisation, F.1.1.3 Determine RFI detection threshhold, F.1.1 RFI flagging and excision, F.1.1 RFI flagging and excision,

SDP_REQ-476 Flag RFI, SDP_REQ-477 Excise RFI, SDP_REQ-478 Detect RFI, F.1.1.3 Determine RFI detection threshhold, F.15.4 Local Telescope Model,

SDP_REQ-478 Detect RFI, SDP_REQ-476 Flag RFI, SDP_REQ-477 Excise RFI, SKA1-SYS_REQ-2347 Automated Quality Assessment., F.1.1 RFI flagging and excision, SDP_REQ-495 Spatial Filter Weights, F.1.1.2 Apply Spatial filter,

F.1.1.2 Apply Spatial filter, F.3.2 Receive and buffer (u,v) data, F.1.6.3 Subtract (calibration), F.1.6.1 Solve, F.1.6.5 Correct,

SDP_REQ-20 Scheduling - Feedback, SDP_REQ-18 Scheduling - Data Layer, SDP_REQ-19 Scheduling - Delivery, SDP_REQ-17 Scheduling - Compute, F.15.1.5 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, F.15.1 Control,

F.1.6 Calibration, F.1.6.2 Predict,

SKA1-SYS_REQ-2247 SKA1_Survey number of beams., SKA1-SYS_REQ-2187 RF system sampled bandwidth band 3, SKA1-SYS_REQ-2240 RF system frequency range PAF band 3, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2153 Diameter, SKA1-SYS_REQ-2256 SKA1_Survey imaging dynamic range., SKA1-SYS_REQ-2147 Instantaneous bandwidth., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2142 SKA1_Low number of stations., SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2266 SKA1_Survey PAF rotation., SKA1-SYS_REQ-2189 RF system sampled bandwidth band 5, SKA1-SYS_REQ-2174 Combined SKA1_Mid configuration., SKA1-SYS_REQ-2134 Electromagnetic frequency range., SKA1-SYS_REQ-2188 RF system sampled bandwidth band 4, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2330 Peeling., SKA1-SYSF.3.1 Integrate in time and frequency, F.1.6.4 Flag (calibration),

SDP_REQ-403 Deconvolution, F.1.4 Deconvolution, SDP_REQ-278 Local sky model, SDP_REQ-386 Continuum imaging pipeline, F.11 Update Global Sky Model,

F.1.12 Continuum Source Finding, F.6.3.3 Extended Source Detection, F.6.2.3 Spectral Index Determination (delete),

SDP_REQ-608 Engineering Support - Master Controller, F.15.1 Control, SDP_REQ-520 Image Cube management, SDP_REQ-521 Image Cadence management, F.6.1 Input Data Conditioning for Science Analysis, SDP_REQ-508 Extended Source Detection, SDP_REQ-518 Point Source Detection, SDP_REQ-516 Spectral Line Source Detection, F.6.3 Source Finding, SDP_REQ-513 H1 Stacking, SDP_REQ-519 Continuum Stacking, F.6.4 Stacking,

F.6.4.2 H1 Stacking, SDP_REQ-509 Spectral Index Determination , SDP_REQ-515 Spectral Line Profile Determination, F.6.2 Source Analysis,

F.6.2.2 Spectral Line Profile Determination (delete), F.6.3.2 Spectral Line Source Detection, F.6.3.1 Point Source Detection, F.6.4.1 Continuum Stacking, F.15.1 Control, F.6.1.1 Imaging Cube Gridding, F.6.1.2 Image Processing Cadence, F.12.3.2 Data Product Service, F.12.3.1 Metadata Service,

SDP_REQ-548 Pulsar Timing Input Data Reception, F.9.2 Pulsar Timing Data Preparation, F.9.3 Pulsar Timing Model Fitting, F.1.1 RFI flagging and excision, F.9.2 Pulsar Timing Data Preparation, F.3.1 Integrate in time and frequency,

SDP_REQ-528 Pulsar Search Data Input Data Reception, F.10.1 Periodicity Search Post Processing , F.9.2.6 Data Receptor (Pulsar Search), F.9.1 Pulsar Timing ToA Determination,

SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2130 Pulsar Timing Mode., F.9.1 Pulsar Timing ToA Determination, F.9.3.1 Generate Residual,

SDP_REQ-545 Extract non-imaging transient heuristics, SDP_REQ-570 Classify Candidates (transients), SDP_REQ-554 Identify Multi-beam Candidates (transients), F.8 Non-Imaging Transient Post Processing, SDP_REQ-147 Periodicity Search Number of Beams, SDP_REQ-558 Periodicity Search Output, F.10.1.1 Merge OCLDs from multiple beams,

SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-549 Dynamic Range When Averaging Pulsar Profiles, SDP_REQ-553 Pulsar Timing Flux Calibration, SDP_REQ-561 Average Input Data In Time To Given Significance, SDP_REQ-540 Average Input Data In Frequency To Given Significance, SDP_REQ-525 Pulsar Timing RFI Mitigation, SDP_REQ-569 Average Input Data In Frequency, SDP_REQ-526 Average Input Data In Time, F.9.2 Pulsar Timing Data Preparation, F.10.1 Periodicity Search Post Processing , F.1.6 Calibration, F.8.6 Alert Generator, F.9.3.2 Append residuals to update model,

SDP_REQ-535 Non-imaging Transient Input Data , F.9.2.7 Data Receptor (Non-Imaging Transient Search), SDP_REQ-72 Metadata Conditioning, F.14.2 Discover Data,

F.9.2.4 Averaging, F.8.6 Alert Generator, F.9.1 Pulsar Timing ToA Determination, F.9.1 Pulsar Timing ToA Determination,

SDP_REQ-568 False Alarm Rate for Non-imaging Transients, SDP_REQ-564 Response Rate for Non-imaging Transients, F.8.6 Alert Generator, F.8.3 Generation and extraction of candidate heuristics,

SDP_REQ-563 Merge Data from Multiple Beams (transients), SDP_REQ-562 Non-imaging Transient Search Archive Products, SDP_REQ-566 Non-imaging Transient List Products, F.8.1 Archive Transient Search Candidates, F.8.5 Candidate Classification,

SKA1-SYS_REQ-2230 Multiple timings., SDP_REQ-524 Pulsar Timing Input, F.9.2.1 Data Receptor (Pulsar Timing), F.9.2.4 Averaging, F.14.2.7 Condition metadata, F.14.2 Discover Data, F.9.3.2 Append residuals to update model, F.9.3.1 Generate Residual,

SDP_REQ-537 Response Rate for Pulsar Alerts, SDP_REQ-541 False Alarm Rate for Pulsar Alerts, F.10.1 Periodicity Search Post Processing , F.1.6 Calibration, F.8.2 Merge SPOCLDs from multiple beams, F.9.3.2 Append residuals to update model, F.9.3.2 Append residuals to update model, F.8.4 Candidate Selection,

SDP_REQ-533 Merge Data from Multiple Beams, SDP_REQ-567 Periodicity Search Archive Products, SDP_REQ-557 Periodicity Search List Products, F.10.1 Periodicity Search Post Processing , F.8.3 Generation and extraction of candidate heuristics, F.14.5 Visualise data, F.14.2.7 Condition metadata, F.14.2 Discover Data, F.10.1.1 Merge OCLDs from multiple beams, F.9.2.4 Averaging, F.8.1 Archive Transient Search Candidates,

SKA1-SYS_REQ-2131 Transient search mode, SDP_REQ-148 Non-imaging Transient Search Number of Beams, SDP_REQ-546 Non-imaging Transient Search Output, F.8.2 Merge SPOCLDs from multiple beams, F.8.6 Alert Generator,

SDP_REQ-538 Form Covariance Matrix of Residuals, SDP_REQ-551 Generate Residual Precision, SDP_REQ-550 Weighting Scheme for Pulsar Timing Model Fitting, SDP_REQ-531 Generate Residual Output, SDP_REQ-555 Output of Pulsar Timing Model, SDP_REQ-556 Update Timing Model, F.9.3 Pulsar Timing Model Fitting, F.8.4 Candidate Selection, F.10.1.6 Archive Periodicity Search Candidates, F.8.6 Alert Generator, F.9.2.4 Averaging, F.14.2.7 Condition metadata, F.12 Archiving, F.14.2 Discover Data, F.8.5 Candidate Classification,

SDP_REQ-97 Authorisation client, SDP_REQ-100 Authorisation credential client, F.14.1 Authenticate and Authorise, F.14.5.8 Customise Visualisation Environment, F.12.3 Archive Access,

SDP_REQ-251 Concurrency, SDP_REQ-578 Data Model Compliance, F.12.3 Archive Access, F.12.2 Product Ingest, F.12.3.3 Access Control, F.12.3.2 Data Product Service,

F.12.3.1 Metadata Service, F.12.3.2 Data Product Service, F.12.2.1 Indexing,

SDP_REQ-60 SIA Discovery, SDP_REQ-61 Client Data Discovery, SDP_REQ-59 TAP Discovery, F.14.2 Discover Data, F.14.2 Discover Data, F.14.2.6.3 Query Metadata (Service), F.15.2.1 Monitoring Data Collection, F.15.2.2 Central Logging, F.15.2.3.2 Event Notification, F.15.3.3 QA Control, P.10 Protection, F.20.1.1 Platform State Management, F.15.4.1 Ingest Metadata,

SDP_REQ-383 Data Integrity, F.12.1.2 Hierarchical Storage Management, SDP_REQ-253 Workload Balance, F.12.1.3 Data Layer Services,

F.15.1.5 Observation Control, F.14.2 Discover Data, F.14.2.6.3 Query Metadata (Service),

SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2.10 Postage Stamp Selection, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2.11 Continuum Subtraction,

F.15.1 Control,

SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SDP_REQ-28 Precursor integration, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, F.15.1 Control, F.15.1 Control, F.15.1 Control, F.15.1 Control, F.15.1 Control,

SKA1-SYS_REQ-2360 Science data product archive policy., SDP_REQ-248 Data Life Cycle Management, F.12.3.3 Access Control, F.14.2.6.2 Query Metadata (Client), F.14.2.6.3 Query Metadata (Service), F.12.3.3 Access Control, F.12.3.3 Access Control, F.12.3.3 Access Control, F.12.3.3 Access Control,

The scientific quality and usability of SDP outputs shall be no worse than if all of the relevant processing steps inside the SDP were carried in double precision floating point arithmetic. F.2 Spectral line Imaging, F.6 Science Analysis, F.1 Continuum Imaging, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.3 Ingest Data, F.5 Drift Scan Imaging, F.3.7 Receive and Apply Initial Calibration (optional), F.16 Commissioning,

SDP_REQ-618 Tranfer images from archive to buffer, F.1.11 Continuum pipeline data transport, SDP_REQ-619 Combine multiple image cubes, F.1.10 Continuum pipeline buffering, F.2.8 Spectral line pipeline buffering, F.12.1.2.2 Buffering,

F.1 Continuum Imaging, SDP_REQ-77 VOEvent Data Description, SDP_REQ-63 TAP Data Description, SDP_REQ-64 SIA Data Description, F.14.2 Discover Data, SDP_REQ-621 Preservation of Intermediate Data Products, SDP_REQ-622 Inform TM on Availability of Data Products, SDP_REQ-623 Restart Processing after Error, F.15.1.3.2 Graceful Shutdown,

F.15.1.3.2 Graceful Shutdown, F.15.1.3.2 Graceful Shutdown, F.15.1.3.3 Emergency Shutdown,

SDP_REQ-628 Create data flow graphs, SDP_REQ-626 Component Profiles, SDP_REQ-625 Data Flow Models, SDP_REQ-627 Hardware availability, F.15.1.2 Manage Data Flow Graphs, F.15.1.2.1 Manage Data Flow Models, F.15.1.2.2 Component Profiling, F.15.1.2.3 Hardware Resource Availability, F.15.1.2.4 Construct Physical Data Flow Graph,

SDP_REQ-630 Load standby configuration, F.15.1.3 Power Control, F.14.2.6.2 Query Metadata (Client), F.15.1.3.1 Read Standby Configuration, F.15.1.6 Observation Simulation, F.15.2.3 Event Handling,

F.15.2.3.3 Event Aggregation, F.15.4.2.1 Validate Telescope Model,

SDP_REQ-637 High update rate -transactions, F.15.4.2.2 Update Telescope Model, F.15.4.3 Serialise Model, F.15.4.5 Handle Transactions, F.14.2.6.2 Query Metadata (Client),

SDP_REQ-130 VOEvent Delivery, SDP_REQ-68 Delivery Client, SDP_REQ-67 AccessData Delivery, SDP_REQ-66 DataLink Delivery, F.14.4 Deliver Data to end user, F.14.2.3 Query Authorised Data, F.14.4.1 Transfer Data to End User, F.14.2.2 Select Data Products For Transfer,

SDP_REQ-22 Control - Data Layer, SDP_REQ-21 Control - Compute, SDP_REQ-23 Control - Delivery, SDP_REQ-27 Observation control - switching, SDP_REQ-24 Control - Feedback, F.15.1 Control, SDP_REQ-92 VOEvent Data Model, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-55 ObsCore Archive Metadata, SDP_REQ-56 Image Archive Metadata, F.14.2.7 Condition metadata, SDP_REQ-74 HTTP Client Metadata Visualisation, SDP_REQ-75 HTTP Client Previews, F.14.2.1 Visualise Query Results,

F.14.2.1 Visualise Query Results, F.14.2.1 Visualise Query Results,

SDP_REQ-78 Core viewing functionality, SDP_REQ-84 Viewer Customizable Plotting, SDP_REQ-79 Extensible Analysis, SDP_REQ-86 Analysis API, SDP_REQ-85 Viewer Plot Save, SDP_REQ-80 Core Analysis Visualization, SDP_REQ-83 User Visualization Customization, SDP_REQ-87 Archive Data File Formats, SDP_REQ-128 Community Analysis, SDP_REQ-131 Supported File Formats, SDP_REQ-132 Annotations, SDP_REQ-572 Display customisations, SDP_REQ-129 View Large Datasets, SDP_REQ-81 Multi-User Viewing, SDP_REQ-82 Maintain Visualization Session, F.14.5 Visualise data, F.14.2.6.2 Query Metadata (Client), F.14.2.6.3 Query Metadata (Service), F.14.5.2 View Data with Core Functionality, F.14.5.3 View Data with Core analysis,

SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-1 Mode handling, F.15.1.5 Observation Control, F.14.5.3 View Data with Core analysis, F.14.5.1 Share Visualisation Session, F.14.5 Visualise data, F.14.5.8.1 Customise User Display Defaults, F.14.5.8.2 Customise Visualisation Display, F.14.5.6 Produce Science Analysis Products, F.14.5.5 Automate Science analysis, F.14.2 Discover Data,

SDP_REQ-93 External Credentials, SDP_REQ-91 Certificate Authentication, SDP_REQ-89 Federated authentication, SDP_REQ-90 Anonymous delivery, F.14.1.2 Authenticate User, F.14.1.1.2 Authorise User (Client), F.14.1.2.1 Authenticate User (Client), F.15.1.5 Observation Control, F.14.2.6 Query Authorised Metadata, F.14.1.1 Authorise User, F.14.1.2.2 Authenticate User (Service), F.14.1.2.1 Authenticate User (Client), F.14.2.7 Condition metadata, F.14.1.3.3 Associate Identities,

SDP_REQ-101 Authentication provider list, SDP_REQ-95 Delivery by Role, SDP_REQ-100 Authorisation credential client, SDP_REQ-279 User-defined Group Management, SDP_REQ-102 User Roles, SDP_REQ-97 Authorisation client, SDP_REQ-96 Data access logging, F.14.1.1 Authorise User, F.14.1.1.1 Authorise User (Service), F.14.1.1.2 Authorise User (Client), F.14.5.7 Log Data Access,

SDP_REQ-94 User Authorisation, SDP_REQ-571 Access to data and metadata, F.14.1.1.2 Authorise User (Client), F.13.2.5 Log Receiving data, F.13.2.1 WAN Interface, F.5 Drift Scan Imaging, F.6 Science Analysis, F.1 Continuum Imaging, F.2 Spectral line Imaging,

SDP_REQ-358 Operational requirements, SDP_REQ-184 Data Centre PUE, SDP_REQ-244 Power control, SDP_REQ-239 Power Monitoring, NF.4 Operations, SDP_REQ-358 Operational requirements, SDP_REQ-51 Engineering Support, NF.4 Operations, SDP_REQ-358 Operational requirements, SDP_REQ-181 Science Processing Centre South Africa, NF.4 Operations, SDP_REQ-358 Operational requirements, SDP_REQ-51 Engineering Support, NF.4 Operations, SDP_REQ-358 Operational requirements, SDP_REQ-182 Science Processing Centre Australia, NF.4 Operations, SDP_REQ-25 Independent Operations, F.15.1 Control,

SDP_REQ-252 Concurrent Workflows, F.2 Spectral line Imaging, F.15.1.1 Manage LMC Instances, F.1 Continuum Imaging, F.4 Real-time Calibration, F.9 Pulsar Timing Post Processing, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-387 Spectral line emission pipeline, F.1.6 Calibration, F.1 Continuum Imaging, F.15.1 Control, F.3 Ingest Data, SDP_REQ-558 Periodicity Search Output, SDP_REQ-552 Periodicity Search Alerts, SDP_REQ-133 Periodicity Search Post Processing, SDP_REQ-147 Periodicity Search Number of Beams, F.15.1 Control, F.10 Pulsar Search Post Processing, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-530 Pulsar Timing ToA Determinination, SDP_REQ-543 Pulsar Timing Systematic Error, SDP_REQ-529 Pulsar Timing Precision, SDP_REQ-542 Pulsar Timing Error Estimation, SDP_REQ-565 Pulsar Timing Model Fitting, F.15.1 Control, F.9 Pulsar Timing Post Processing, SDP_REQ-563 Merge Data from Multiple Beams (transients), SDP_REQ-546 Non-imaging Transient Search Output, SDP_REQ-544 Non-imaging Transient Alerts, SDP_REQ-532 Non-imaging Transient Post Processing, SDP_REQ-389 Slow transient pipeline, F.7 Imaging Transient Search, F.10 Pulsar Search Post Processing, SDP_REQ-2 Capability Handling, SDP_REQ-375 SDP platform management, SDP_REQ-7 Observation Control, SDP_REQ-5 Observation scheduling, SDP_REQ-1 Mode handling, SDP_REQ-27 Observation control - switching, SDP_REQ-3 Observation Handling, SDP_REQ-4 Capability availability, F.15.1 Control, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-301 SDP ingest data rate, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-301 SDP ingest data rate, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, SDP_REQ-424 Polarisation purity., F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-604 MeerKAT integration, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.6 Science Analysis, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-480 Integrate Data, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-387 Spectral line emission pipeline, F.3 Ingest Data, SDP_REQ-147 Periodicity Search Number of Beams, SDP_REQ-148 Non-imaging Transient Search Number of Beams, F.9 Pulsar Timing Post Processing, F.10 Pulsar Search Post Processing, SDP_REQ-147 Periodicity Search Number of Beams, SDP_REQ-148 Non-imaging Transient Search Number of Beams, F.10 Pulsar Search Post Processing, SDP_REQ-133 Periodicity Search Post Processing, F.10 Pulsar Search Post Processing, SDP_REQ-133 Periodicity Search Post Processing, F.9 Pulsar Timing Post Processing, SDP_REQ-534 Pulsar Timing Data Preparation, F.9 Pulsar Timing Post Processing, SDP_REQ-534 Pulsar Timing Data Preparation, F.10 Pulsar Search Post Processing, SDP_REQ-133 Periodicity Search Post Processing, F.10 Pulsar Search Post Processing, SDP_REQ-375 SDP platform management, SDP_REQ-11 Frequency handling, F.9 Pulsar Timing Post Processing, F.15.1 Control, SDP_REQ-548 Pulsar Timing Input Data Reception, SDP_REQ-530 Pulsar Timing ToA Determinination, SDP_REQ-565 Pulsar Timing Model Fitting, F.15.1.1 Manage LMC Instances, F.9 Pulsar Timing Post Processing, SDP_REQ-534 Pulsar Timing Data Preparation, F.9 Pulsar Timing Post Processing, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-412 SKA1_Survey spectral dynamic range., F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-28 Precursor integration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.15.1 Control, F.7 Imaging Transient Search,

SDP_REQ-28 Precursor integration, F.15.1.1 Manage LMC Instances, F.3 Ingest Data, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-593 Status Logging, SDP_REQ-592 Status Monitoring, SDP_REQ-594 Status Reporting, F.15.2 Monitoring, SDP_REQ-250 DB Interface, F.15.1 Control, SDP_REQ-29 Targets of Opportunity, F.15.1 Control, SDP_REQ-29 Targets of Opportunity, SDP_REQ-375 SDP platform management, F.3 Ingest Data, F.15.1 Control, SDP_REQ-375 SDP platform management, SDP_REQ-256 Discard Scheduling Block, SDP_REQ-29 Targets of Opportunity, SDP_REQ-8 Observation control - start, SDP_REQ-248 Data Life Cycle Management, F.15.1 Control, F.3 Ingest Data, SDP_REQ-35 Alarms, SDP_REQ-37 Alarm latency, F.15.2.3.1 Handle Alarms, F.15.1 Control, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-278 Local sky model, SDP_REQ-417 Calibration pipeline., SDP_REQ-386 Continuum imaging pipeline, F.1.6 Calibration, F.2 Spectral line Imaging, F.11 Update Global Sky Model, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.12.1 Data Layer Management, F.3 Ingest Data, SDP_REQ-390 Multi-frequency synthesis imaging, SDP_REQ-387 Spectral line emission pipeline, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.7 Imaging Transient Search, F.3 Ingest Data, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-504 Scale sensitive deconvolution, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-387 Spectral line emission pipeline, F.1 Continuum Imaging, F.1.4 Deconvolution, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, SDP_REQ-502 Ingest Pipeline, SDP_REQ-388 Spectral line absorption pipeline, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-389 Slow transient pipeline, SDP_REQ-392 Peeling, SDP_REQ-387 Spectral line emission pipeline, F.1.6 Calibration, F.1 Continuum Imaging, SDP_REQ-507 Calibration Source Finding, SDP_REQ-514 Source Analysis (TBC), SDP_REQ-511 Continuum Source Finding, SDP_REQ-510 Science Analysis input data conditioning, F.6 Science Analysis, SDP_REQ-514 Source Analysis (TBC), SDP_REQ-510 Science Analysis input data conditioning, F.6 Science Analysis, SDP_REQ-512 Stacking, F.6 Science Analysis, SDP_REQ-450 SDP standard pipeline products, F.2 Spectral line Imaging, F.15.3 Quality Assurance, F.15.1 Control, F.15.2.2 Central Logging, F.9 Pulsar Timing Post Processing, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing, SDP_REQ-615 EoR Calibration Pipeline, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.1 Continuum Imaging, F.4 Real-time Calibration, SDP_REQ-271 Data Products, SDP_REQ-386 Continuum imaging pipeline, SDP_REQ-617 Restore images from archive to buffer, F.1 Continuum Imaging, SDP_REQ-397 Imager, SDP_REQ-271 Data Products, SDP_REQ-511 Continuum Source Finding, SDP_REQ-510 Science Analysis input data conditioning, F.1 Continuum Imaging, SDP_REQ-271 Data Products, SDP_REQ-617 Restore images from archive to buffer, SDP_REQ-387 Spectral line emission pipeline, F.2 Spectral line Imaging, SDP_REQ-510 Science Analysis input data conditioning, F.2 Spectral line Imaging, SDP_REQ-271 Data Products, SDP_REQ-388 Spectral line absorption pipeline, F.2 Spectral line Imaging, SDP_REQ-271 Data Products, SDP_REQ-397 Imager, SDP_REQ-510 Science Analysis input data conditioning, F.2 Spectral line Imaging, SDP_REQ-271 Data Products, SDP_REQ-389 Slow transient pipeline, F.7 Imaging Transient Search, SDP_REQ-271 Data Products, F.7 Imaging Transient Search, SDP_REQ-490 Data Quality, SDP_REQ-441 Automated Quality Assessment., F.15.3.1.1 Ingest Metric Collection, F.15.3.1.1 Ingest Metric Collection, F.15.3.1 Pipeline Metric Collection, SDP_REQ-247 Data Layer Management, F.12.1 Data Layer Management, F.12 Archiving, F.3 Ingest Data, SDP_REQ-281 Backup sites, F.12 Archiving, SDP_REQ-385 Web Interface, SDP_REQ-76 Data Visualisation Client, SDP_REQ-73 Metadata Visualisation Client, F.14 SKA Archive User Interface, SDP_REQ-54 Archive Metadata, SDP_REQ-65 Data Delivery, SDP_REQ-62 Data Description, SDP_REQ-58 Data Discovery, F.14 SKA Archive User Interface, SDP_REQ-54 Archive Metadata, SDP_REQ-62 Data Description, SDP_REQ-58 Data Discovery, F.14 SKA Archive User Interface, SDP_REQ-276 Data Product Provenance, F.12 Archiving, F.15.1 Control, SDP_REQ-595 QA annotations, F.15.3.3 QA Control, F.15.1 Control, SDP_REQ-573 Third party data products, F.12 Archiving, SDP_REQ-609 Release Status, SDP_REQ-94 User Authorisation, SDP_REQ-248 Data Life Cycle Management, F.12 Archiving, SDP_REQ-267 Availability Metric, F.12 Archiving, F.14 SKA Archive User Interface, SDP_REQ-289 Archive lifetime., F.12 Archiving, SDP_REQ-269 Storage Technology Transition, F.12 Archiving, SDP_REQ-94 User Authorisation, SDP_REQ-106 Product distribution, SDP_REQ-262 Data Layer Product Distribution, SDP_REQ-118 Delivery strategy, SDP_REQ-275 Remote Processing, F.13 Regional Centre Interface, F.14 SKA Archive User Interface, SDP_REQ-358 Operational requirements, SDP_REQ-242 SaDT interface, NF.4 Operations, SDP_REQ-473 Merge Meta Data, SDP_REQ-358 Operational requirements, SDP_REQ-49 Telescope Manager API, SDP_REQ-50 Invalid input handling, SDP_REQ-266 Status Information, NF.4 Operations, SDP_REQ-358 Operational requirements, SDP_REQ-241 SDP to INFRA interface, NF.4 Operations, SDP_REQ-358 Operational requirements, NF.4 Operations, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment,

SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, SDP_REQ-205 Fire Suppression Systems, SDP_REQ-221 Fire Risk, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, SDP_REQ-200 Illumination, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, SDP_REQ-226 Air quality, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, SDP_REQ-233 Sound Level, NF.6 Health, Safety & Environment, SDP_REQ-225 RFI emissions, SDP_REQ-359 EMC and RFI requirements, NF.5 EMC & RFI, SDP_REQ-359 EMC and RFI requirements, NF.5 EMC & RFI, SDP_REQ-359 EMC and RFI requirements, SDP_REQ-211 EMC, NF.5 EMC & RFI, SDP_REQ-359 EMC and RFI requirements, NF.5 EMC & RFI, SDP_REQ-359 EMC and RFI requirements, NF.5 EMC & RFI, SDP_REQ-359 EMC and RFI requirements, NF.5 EMC & RFI, SDP_REQ-476 Flag RFI, SDP_REQ-478 Detect RFI, F.3 Ingest Data, SDP_REQ-477 Excise RFI, SDP_REQ-478 Detect RFI, F.3 Ingest Data, SDP_REQ-476 Flag RFI, SDP_REQ-33 Flagging control, F.3 Ingest Data, F.15.1 Control, SDP_REQ-360 Security requirements, SDP_REQ-229 Visitor Policy, NF.1 Security, SDP_REQ-360 Security requirements, SDP_REQ-290 Secure Archive Environment, NF.1 Security, F.12 Archiving, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-285 Accessibility, SDP_REQ-50 Invalid input handling, F.14 SKA Archive User Interface, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-199 Point Loading, SDP_REQ-357 Health, Safety and Environmental requirements, SDP_REQ-185 Safety Compliance, SDP_REQ-186 Cable Management, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, SDP_REQ-209 Humidity Control, NF.6 Health, Safety & Environment, SDP_REQ-361 Equipment and Component requirements, SDP_REQ-208 Storage Humidity, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, SDP_REQ-206 Computing equipment temperature control, SDP_REQ-207 Condensation, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-360 Security requirements, SDP_REQ-201 Animal Intrusion, NF.1 Security, SDP_REQ-361 Equipment and Component requirements, SDP_REQ-203 Sand and Dust, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, SDP_REQ-204 Fungal Growth, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications,

SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-34 Self testing, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-287 Continuous performance monitoring., F.15.2 Monitoring, SDP_REQ-361 Equipment and Component requirements, SDP_REQ-362 Maintenance, Test and Support requirements, NF.2 Equipment & Component Specifications, NF.7 Maintenance, Test & Support, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-363 Production and Manufacturing requirements, NF.3 Production & Manufacturing Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications,

SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-252 Concurrent Workflows, F.10 Pulsar Search Post Processing, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, SDP_REQ-417 Calibration pipeline., F.4 Real-time Calibration, F.1.6 Calibration, F.1 Continuum Imaging, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, SDP_REQ-488 Flag Lightning, SDP_REQ-476 Flag RFI, SDP_REQ-487 Flag Data, F.3 Ingest Data, SDP_REQ-38 Metadata input, SDP_REQ-288 Telescope Model, F.15.4 Local Telescope Model, SDP_REQ-358 Operational requirements, SDP_REQ-185 Safety Compliance, SDP_REQ-202 Seismic Resilience, NF.4 Operations, SDP_REQ-372 Early science processing capability, F.16 Commissioning, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-248 Data Life Cycle Management, F.12 Archiving, SDP_REQ-283 Restore archive access, SDP_REQ-248 Data Life Cycle Management, F.12 Archiving, SDP_REQ-103 Proprietary Period, SDP_REQ-94 User Authorisation, SDP_REQ-571 Access to data and metadata, SDP_REQ-248 Data Life Cycle Management, F.12 Archiving, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-358 Operational requirements, SDP_REQ-195 SDP availability, NF.4 Operations, SDP_REQ-30 Graceful degradation, SDP_REQ-195 SDP availability, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-401 A-kernel, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, SDP_REQ-401 A-kernel, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, SDP_REQ-401 A-kernel, SDP_REQ-417 Calibration pipeline., F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, SDP_REQ-263 Data Migration Design, F.12 Archiving, SDP_REQ-397 Imager, SDP_REQ-417 Calibration pipeline., SDP_REQ-403 Deconvolution, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-527 Pulsar Search Data Input, SDP_REQ-524 Pulsar Timing Input, SDP_REQ-473 Merge Meta Data, SDP_REQ-474 Gather Data, SDP_REQ-470 Receive Data, SDP_REQ-539 Non-imaging Transient Input, SDP_REQ-472 Handle Missing Data, F.9 Pulsar Timing Post Processing, F.10 Pulsar Search Post Processing, SDP_REQ-88 User Authentication, SDP_REQ-94 User Authorisation, SDP_REQ-285 Accessibility, SDP_REQ-248 Data Life Cycle Management, F.14 SKA Archive User Interface, SDP_REQ-40 Quality assessment interface, F.15.3 Quality Assurance, SDP_REQ-40 Quality assessment interface, SDP_REQ-42 Performance goals, F.15.3 Quality Assurance, SDP_REQ-40 Quality assessment interface, SDP_REQ-43 Quality assessment calculation, F.15.3 Quality Assurance, SDP_REQ-442 Astrometric performance metric, F.15.3.1 Pipeline Metric Collection, F.1 Continuum Imaging, SDP_REQ-443 Photometric performance metric, F.15.3.1 Pipeline Metric Collection, SDP_REQ-444 Radiometric performance metric, F.15.3.1 Pipeline Metric Collection, SDP_REQ-445 Polarimetric performance metric, F.15.3.1 Pipeline Metric Collection, SDP_REQ-446 Spectrometric performance metric, F.15.3.1 Pipeline Metric Collection,

Safety documentation file . Elements shall provide procedures for maintainers to recover from an unplanned shut-down, including safety checks to be conducted prior to start-up, as specified in SKA PRODUCT ASSURANCE SAFETY PLAN SKA-OFF.PAQA-SKO-QP-001.F.15.1.3.3 Emergency Shutdown, SDP_REQ-52 Failsafe, F.15.1 Control, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-360 Security requirements, NF.1 Security, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-361 Equipment and Component requirements, NF.2 Equipment & Component Specifications, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-362 Maintenance, Test and Support requirements, NF.7 Maintenance, Test & Support, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment,

SDP_REQ-357 Health, Safety and Environmental requirements, NF.6 Health, Safety & Environment, SDP_REQ-574 Science Data Archive, F.12 Archiving, SDP_REQ-360 Security requirements, NF.1 Security, SDP_REQ-360 Security requirements, NF.1 Security, SDP_REQ-430 Flux scale, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.7 Imaging Transient Search, SDP_REQ-430 Flux scale, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, SDP_REQ-430 Flux scale, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, SDP_REQ-194 Upgrade Space, SDP_REQ-216 Storage Temperature, SDP_REQ-190 Assembly Space, SDP_REQ-183 Operations, SDP_REQ-195 SDP availability, SDP_REQ-186 Cable Management, SDP_REQ-189 Ease of Physical Access, SDP_REQ-229 Visitor Policy, SDP_REQ-236 UPS, SDP_REQ-214 Air quality for equipment, SDP_REQ-192 Spare Parts Storage, SDP_REQ-358 Operational requirements, SDP_REQ-30 Graceful degradation, NF.4 Operations, SDP_REQ-430 Flux scale, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, SDP_REQ-430 Flux scale, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search,

F.9 Pulsar Timing Post Processing, SDP_REQ-604 MeerKAT integration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing, SDP_REQ-358 Operational requirements, SDP_REQ-604 MeerKAT integration, NF.4 Operations,

VLBI data sources. The SKA1_Mid and SKA1_Survey telescopes shall be data sources for VLBI data acquisition system. The interface between the telescopes SAK1_Mid and SkA1_Survey and the external VLBI data acquisition system shall be compliant with the ICD SKA-TEL-SKO-0000116NF.8 VLBI, NF.8 VLBI,

VLBI equipment and eVLBI connectivity. VLBI equipment and eVLBI connectivity beyond the interface boundary described in the ICD SKA-TEL-SKO-0000116 is outside the scope of supply of the SKA1 project. NF.8 VLBI, NF.8 VLBI, NF.8 VLBI,

SKA1_Mid VLBI relative sensitivity and coherence losses. The SKA1_Mid beamformer shall be able to weight the antenna inputs into the tied-array sums based on relative sensitivity and coherence losses. NF.8 VLBI, SKA1_Mid VLBI spectral resolution. SKA1_Mid shall be able to generate VLBI beams with a spectral resolutions different from the spectral resolution used for imaging within the same VLBI sub-array NF.8 VLBI, SKA1_Mid VLBI imaging and beamforming SKA1_Mid shall be able to simultaneously generate imaging data using all antennas in a VLBI sub-array, as well as generating the VLBI beams. NF.8 VLBI, SKA1_Mid VLBI spectral line and time domain observation SKA1_Mid shall be able to generate VLBI beams optimised for either spectral line observations (to mitigate spectral leakage) or time domain observations (to mitigate time smearing)NF.8 VLBI,

NF.8 VLBI, SKA1_Survey VLBI timestamp accuracy. SKA1_Survey shall be able to generate data from the VLBI beams with samples traceable to a timestamp with an accuracy of 1 nsec or better. NF.8 VLBI, SKA1_Survey VLBI relative sensitivity and coherence. The SKA1_Survey beamformer shall be able to weight the antenna inputs into the tied-array sums based on relative sensitivity and coherence losses. NF.8 VLBI, SKA1_Survey VLBI spectral resolution. SKA1_Survey shall be able to generate VLBI beams with a spectral resolutions different from the spectral resolution used for imaging within the same VLBI sub-array NF.8 VLBI, SKA1_Survey VLBI imaging and beamforming. SKA1_Survey shall be able to simultaneously generate imaging data using all antennas in a VLBI sub-array, as well as generating the VLBI beams. NF.8 VLBI, SKA1_Survey VLBI spectral line and time domain observation. SKA1_Survey shall be able to generate VLBI beams optimised for either spectral line observations (to mitigate spectral leakage) or time domain observations (to mitigate time smearing).NF.8 VLBI,

TC-1 SDP Test Case 1, An element of verification that uses established technical or mathematical models or simulations, algorithms, charts, graphs, circuit diagrams, or other scientific principles and procedures to provide evidence that stated requirements are met.TC-1 SDP Test Case 1, An element of verification that involves the actual operation of an item to provide evidence that the required functions are accomplished under specific scenarios. The items may be instrumented and performance monitored.TC-1 SDP Test Case 1, An element of verification that is generally non-destructive and typically includes the use of sight, hearing, smell, touch, and taste; simple physical manipulation; and mechanical and electrical gauging and measurement.TC-1 SDP Test Case 1,

TC-1 SDP Test Case 1,

F.14.1.3.2 Maintain User Credentials (Service), F.14.1.3.1 Maintain User Credentials (Client),

F.13.1.1 Maintain remote products, F.14.2.5 Select Destination,

F.14.3 Request Data Delivery, F.13.2.3 Schedule data delivery,

F.15.1.1 Manage LMC Instances, F.15.1.5 Observation Control,

F.14.1 Authenticate and Authorise, F.12.3.3 Access Control,

F.14.1.1.1 Authorise User (Service), F.14.1.4 Maintain user-defined groups,

F.2 Spectral line Imaging, F.1 Continuum Imaging, F.6 Science Analysis, F.7 Imaging Transient Search, F.3 Ingest Data, F.20.1 Platform Management, F.15.1.4 Sub-element Control, F.20.1 Platform Management, F.15.1.4 Sub-element Control,

F.15.1.7 Receive observation configuration, F.15.4.1 Ingest Metadata,

F.1.4.9 Major Cycle Loop, F.1.4.3 Identify Component, F.1.4.2 Subtract Component in Image Plane, F.1.4 Deconvolution,

F.2.10.1 uv Plane Averaging, F.1.7 Image Plane Spectral Averaging,

F.1.6 Calibration, F.1.5 Initial Calibration (averaged data), F.3.7 Receive and Apply Initial Calibration (optional),

F.9 Pulsar Timing Post Processing, F.8 Non-Imaging Transient Post Processing, F.10 Pulsar Search Post Processing,

F.3.9.2 Combine time, frequency channels, baselines & polarisation,

F.3.1.3 Integrate in time and frequency (base-line dependant),

F.3.9.2 Combine time, frequency channels, baselines & polarisation,

F.9.3 Pulsar Timing Model Fitting, F.1.1 RFI flagging and excision, F.9.2 Pulsar Timing Data Preparation,

F.14.5 Visualise data, F.14.2.7 Condition metadata, F.14.2 Discover Data,

F.14.2.7 Condition metadata, F.12 Archiving, F.14.2 Discover Data,

F.12.3 Archive Access, F.12.2 Product Ingest, F.12.3.3 Access Control,

F.14.2 Discover Data, F.14.2.6.3 Query Metadata (Service),

F.20.1.1 Platform State Management, F.15.4.1 Ingest Metadata,

F.14.2 Discover Data, F.14.2.6.3 Query Metadata (Service),

F.14.2.6.2 Query Metadata (Client), F.14.2.6.3 Query Metadata (Service),

F.2 Spectral line Imaging, F.6 Science Analysis, F.1 Continuum Imaging, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.3 Ingest Data, F.5 Drift Scan Imaging,

F.1.10 Continuum pipeline buffering, F.2.8 Spectral line pipeline buffering, F.12.1.2.2 Buffering,

F.14.2.6.2 Query Metadata (Client), F.14.2.6.3 Query Metadata (Service),

F.14.1.1.2 Authorise User (Client), F.14.1.2.1 Authenticate User (Client),

F.14.2.6 Query Authorised Metadata, F.14.1.1 Authorise User, F.14.1.2.2 Authenticate User (Service), F.14.1.2.1 Authenticate User (Client),

F.14.1.1.1 Authorise User (Service), F.14.1.1.2 Authorise User (Client),

F.2 Spectral line Imaging, F.15.1.1 Manage LMC Instances, F.1 Continuum Imaging, F.4 Real-time Calibration, F.9 Pulsar Timing Post Processing, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing, F.1.6 Calibration, F.1 Continuum Imaging, F.15.1 Control, F.3 Ingest Data,

F.7 Imaging Transient Search, F.10 Pulsar Search Post Processing,

F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data,

F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data,

F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.6 Science Analysis, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data,

F.9 Pulsar Timing Post Processing, F.10 Pulsar Search Post Processing,

F.15.1.1 Manage LMC Instances, F.9 Pulsar Timing Post Processing,

F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.15.1 Control, F.7 Imaging Transient Search,

F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data,

F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.3 Ingest Data, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.3 Ingest Data, F.1.6 Calibration, F.2 Spectral line Imaging, F.11 Update Global Sky Model, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.12.1 Data Layer Management, F.3 Ingest Data, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.7 Imaging Transient Search, F.3 Ingest Data,

F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging,

F.2 Spectral line Imaging, F.15.3 Quality Assurance, F.15.1 Control, F.15.2.2 Central Logging, F.9 Pulsar Timing Post Processing, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing, F.1.6 Calibration, F.1 Continuum Imaging, F.4 Real-time Calibration,

F.15.3.1.1 Ingest Metric Collection, F.15.3.1 Pipeline Metric Collection, F.12.1 Data Layer Management, F.12 Archiving, F.3 Ingest Data,

F.13 Regional Centre Interface, F.14 SKA Archive User Interface,

NF.2 Equipment & Component Specifications, NF.7 Maintenance, Test & Support,

F.4 Real-time Calibration, F.1.6 Calibration, F.1 Continuum Imaging,

F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search,

F.1.6 Calibration, F.2 Spectral line Imaging, F.1 Continuum Imaging,

F.9 Pulsar Timing Post Processing, F.10 Pulsar Search Post Processing,

F.15.3.1 Pipeline Metric Collection, F.1 Continuum Imaging,

F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.7 Imaging Transient Search, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search,

F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.1.6 Calibration, F.11 Update Global Sky Model, F.2 Spectral line Imaging, F.1 Continuum Imaging, F.7 Imaging Transient Search,

F.2 Spectral line Imaging, F.1 Continuum Imaging, F.15.1 Control, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing,

F.2 Spectral line Imaging, F.6 Science Analysis, F.1 Continuum Imaging, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.3 Ingest Data, F.5 Drift Scan Imaging,

F.2 Spectral line Imaging, F.15.1.1 Manage LMC Instances, F.1 Continuum Imaging, F.4 Real-time Calibration, F.9 Pulsar Timing Post Processing, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing,

F.1.6 Calibration, F.2 Spectral line Imaging, F.11 Update Global Sky Model, F.1 Continuum Imaging, F.7 Imaging Transient Search, F.12.1 Data Layer Management, F.3 Ingest Data,

F.2 Spectral line Imaging, F.15.3 Quality Assurance, F.15.1 Control, F.15.2.2 Central Logging, F.9 Pulsar Timing Post Processing, F.7 Imaging Transient Search, F.3 Ingest Data, F.10 Pulsar Search Post Processing,

Number NameF SDP L1 FunctionsF.1 Continuum ImagingF.1.1 RFI flagging and excisionF.1.1.1 Determine spatial filter weightsF.1.1.2 Apply Spatial filterF.1.1.3 Determine RFI detection threshholdF.1.10 Continuum pipeline bufferingF.1.11 Continuum pipeline data transportF.1.12 Continuum Source FindingF.1.12.1 Fast Point Source DetectionF.1.2 Store LSMF.1.3 Forward EstimateF.1.4 DeconvolutionF.1.4.1 Apply t-f flaggerF.1.4.2 Subtract Component in Image PlaneF.1.4.3 Identify ComponentF.1.4.4 iFFTF.1.4.5 De-griddingF.1.4.6 Subtract from uv-dataF.1.4.7 GriddingF.1.4.8 FFTF.1.4.9 Major Cycle LoopF.1.5 Initial Calibration (averaged data)F.1.6 CalibrationF.1.6.1 SolveF.1.6.2 PredictF.1.6.3 Subtract (calibration)F.1.6.4 Flag (calibration)F.1.6.5 CorrectF.1.7 Image Plane Spectral AveragingF.1.8 Specify continuum pipelineF.1.9 Execute continuum pipelineF.10 Pulsar Search Post ProcessingF.10.1 Periodicity Search Post Processing F.10.1.1 Merge OCLDs from multiple beamsF.10.1.6 Archive Periodicity Search CandidatesF.11 Update Global Sky ModelF.12 ArchivingF.12.1 Data Layer ManagementF.12.1.1 Data Life Cycle ControlF.12.1.1.1 AggregationF.12.1.1.2 Replication of Data ObjectsF.12.1.1.3 MigrationF.12.1.1.4 RetirementF.12.1.2 Hierarchical Storage ManagementF.12.1.2.1 Transaction ManagementF.12.1.2.2 BufferingF.12.1.2.3 Data Product StorageF.12.1.2.4 Database Access

F.12.1.3 Data Layer ServicesF.12.1.3.1 Special Purpose FunctionsF.12.1.3.2 Raw Data ReceptionF.12.1.3.3 Aborting/ResettingF.12.1.4 MonitoringF.12.1.4.1 Load MeasurementF.12.1.4.2 Status ReportingF.12.1.4.3 AlertingF.12.2 Product IngestF.12.2.1 IndexingF.12.2.2 Branding/ProvenanceF.12.3 Archive AccessF.12.3.1 Metadata ServiceF.12.3.2 Data Product ServiceF.12.3.3 Access ControlF.13 Regional Centre InterfaceF.13.1 Data distribution policyF.13.1.1 Maintain remote productsF.13.1.1.1 Analyse DataF.13.1.1.2 Delete Remote ProductsF.13.1.1.3 Update Remote ProductsF.13.2 Bulk Data TransferF.13.2.1 WAN InterfaceF.13.2.2 Receive Data at Regional CentreF.13.2.3 Schedule data deliveryF.13.2.3.1 Check previous deliveriesF.13.2.3.2 Check Data Transfer budgetF.13.2.3.3 Prioritise data for deliveryF.13.2.4 Send data to Regional CentreF.13.2.5 Log Receiving dataF.14 SKA Archive User InterfaceF.14.1 Authenticate and AuthoriseF.14.1.1 Authorise UserF.14.1.1.1 Authorise User (Service)F.14.1.1.2 Authorise User (Client)F.14.1.2 Authenticate UserF.14.1.2.1 Authenticate User (Client)F.14.1.2.2 Authenticate User (Service)F.14.1.3 Maintain User CredentialsF.14.1.3.1 Maintain User Credentials (Client)F.14.1.3.2 Maintain User Credentials (Service)F.14.1.3.3 Associate IdentitiesF.14.1.4 Maintain user-defined groupsF.14.2 Discover DataF.14.2.1 Visualise Query ResultsF.14.2.2 Select Data Products For TransferF.14.2.3 Query Authorised DataF.14.2.4 Filter By AuthorisationF.14.2.5 Select DestinationF.14.2.6 Query Authorised Metadata

F.14.2.6.1 Append Authorisation Parameters to QueryF.14.2.6.2 Query Metadata (Client)F.14.2.6.3 Query Metadata (Service)F.14.2.7 Condition metadataF.14.3 Request Data DeliveryF.14.4 Deliver Data to end userF.14.4.1 Transfer Data to End UserF.14.5 Visualise dataF.14.5.1 Share Visualisation SessionF.14.5.2 View Data with Core FunctionalityF.14.5.3 View Data with Core analysisF.14.5.4 Annotate Archive DataF.14.5.5 Automate Science analysisF.14.5.6 Produce Science Analysis ProductsF.14.5.7 Log Data AccessF.14.5.8 Customise Visualisation EnvironmentF.14.5.8.1 Customise User Display DefaultsF.14.5.8.2 Customise Visualisation DisplayF.15 SDP LMCF.15.1 ControlF.15.1.1 Manage LMC InstancesF.15.1.2 Manage Data Flow GraphsF.15.1.2.1 Manage Data Flow ModelsF.15.1.2.2 Component ProfilingF.15.1.2.3 Hardware Resource AvailabilityF.15.1.2.4 Construct Physical Data Flow GraphF.15.1.3 Power ControlF.15.1.3.1 Read Standby ConfigurationF.15.1.3.2 Graceful ShutdownF.15.1.3.3 Emergency ShutdownF.15.1.4 Sub-element ControlF.15.1.5 Observation ControlF.15.1.5.1 Observation Runtime EstimationF.15.1.5.2 Observation Resource EstimationF.15.1.6 Observation SimulationF.15.1.7 Receive observation configurationF.15.1.8 LMC Self TestF.15.2 MonitoringF.15.2.1 Monitoring Data CollectionF.15.2.2 Central LoggingF.15.2.3 Event HandlingF.15.2.3.1 Handle AlarmsF.15.2.3.2 Event NotificationF.15.2.3.3 Event AggregationF.15.2.4 Health StateF.15.3 Quality AssuranceF.15.3.1 Pipeline Metric CollectionF.15.3.1.1 Ingest Metric CollectionF.15.3.2 QA VisualisationF.15.3.2.1 Client side rendering

F.15.3.2.2 Server side renderingF.15.3.3 QA ControlF.15.4 Local Telescope ModelF.15.4.1 Ingest MetadataF.15.4.2 Maintain Telescope ModelF.15.4.2.1 Validate Telescope ModelF.15.4.2.2 Update Telescope ModelF.15.4.3 Serialise ModelF.15.4.4 Simulate Telescope ModelF.15.4.5 Handle TransactionsF.16 CommissioningF.18.1 SimulationF.2 Spectral line ImagingF.2.10 Postage Stamp SelectionF.2.10.1 uv Plane AveragingF.2.10.2 Phase RotationF.2.11 Continuum SubtractionF.2.12 Specify spectral line pipelineF.2.13 Execute spectral line pipelineF.2.5 Initial Calibration (high spectral resolution)F.2.6 Calibration (high spectral resolution)F.2.7 Spectral Line Source FindingF.2.8 Spectral line pipeline bufferingF.2.9 Spectral line pipeline data transportF.20.1 Platform ManagementF.20.1.1 Platform State ManagementF.20.1.2 DeploymentF.3 Ingest DataF.3.1 Integrate in time and frequencyF.3.1.1 Send (u,v) data to Calibration functionF.3.1.2 CompressF.3.1.3 Integrate in time and frequency (base-line dependant)F.3.1.4 Transpose, reorderF.3.10 Specify Ingest PipelineF.3.11 Execute Ingest PipelineF.3.2 Receive and buffer (u,v) dataF.3.2.1 Buffer (u,v) data ~0.5sF.3.2.2 Receive (u,v) data from CSPF.3.3 Handle missing and out of order packetsF.3.3.1 Detect missing packetsF.3.3.2 Order (u,v) data over timeF.3.5 Merge Metadata from TMF.3.5.1 Input Metadata from TMF.3.5.2 Merge missing packet info with TM metadataF.3.6 Strong source removalF.3.7 Receive and Apply Initial Calibration (optional)F.3.8 Phase RotationF.3.9 Partial gather and transposeF.3.9.1 transpose dataF.3.9.2 Combine time, frequency channels, baselines & polarisation

F.4 Real-time CalibrationF.5 Drift Scan ImagingF.6 Science AnalysisF.6.1 Input Data Conditioning for Science AnalysisF.6.1.1 Imaging Cube GriddingF.6.1.2 Image Processing CadenceF.6.2 Source AnalysisF.6.2.1 Rotation Measure SynthesisF.6.2.2 Spectral Line Profile Determination (delete)F.6.2.3 Spectral Index Determination (delete)F.6.3 Source FindingF.6.3.1 Point Source DetectionF.6.3.2 Spectral Line Source DetectionF.6.3.3 Extended Source DetectionF.6.4 StackingF.6.4.1 Continuum StackingF.6.4.2 H1 StackingF.7 Imaging Transient SearchF.7.2 Generate Alert for TransientsF.8 Non-Imaging Transient Post ProcessingF.8.1 Archive Transient Search CandidatesF.8.2 Merge SPOCLDs from multiple beamsF.8.3 Generation and extraction of candidate heuristicsF.8.4 Candidate SelectionF.8.5 Candidate ClassificationF.8.6 Alert GeneratorF.9 Pulsar Timing Post ProcessingF.9.1 Pulsar Timing ToA DeterminationF.9.2 Pulsar Timing Data PreparationF.9.2.1 Data Receptor (Pulsar Timing)F.9.2.2 RFI mitigationF.9.2.3 CalibrationF.9.2.4 AveragingF.9.2.5 Archive products generatedF.9.2.6 Data Receptor (Pulsar Search)F.9.2.7 Data Receptor (Non-Imaging Transient Search)F.9.3 Pulsar Timing Model FittingF.9.3.1 Generate ResidualF.9.3.2 Append residuals to update modelNF SDP non-functional categoriesNF.1 SecurityNF.2 Equipment & Component SpecificationsNF.3 Production & Manufacturing SpecificationsNF.4 OperationsNF.5 EMC & RFINF.6 Health, Safety & EnvironmentNF.7 Maintenance, Test & SupportNF.8 VLBITA-1 SDP Test Action 1TC-1 SDP Test Case 1

DescriptionContains L1 functional flow block diagramTo make science-ready images cubes with spectral dimension representing a Taylor expansion of continuum spectra, and any alternative representations which are found to be appropriate, or spectral cubes at low spectral resolutionTo flag visibility data that are affected by RFI or instrumental glitches

To store intermediate data products (visibilities and grids) during iterative processing for continuum imaging.To transport data between processing tasks of the continuum imaging pipeline.

To estimate a trial sky image cube from visibility dataTo deconvolve the data for the interferometer instrumental response by subtracting a sky model from the visibility data

Initial calibration is already done in the ingest pipeline on full resolution data. This function exists in case initial calibration needs to be done on averaged data.Skip this step the first time its executed. (this is not shown in the diagram to reduce complexity)

To specify the combinations of processing tasks and their parameters to be done to produce continuum image cubesTo execute processing tasks for continuum imagingTo sieve pulsar candidatesto find confirmed pulsars.

To calculate updates to the global sky model.To archive science ready data products produced by the SKA.Manages and executes the logical data flow from CSP to the final deliveryAutomation and management of lifecycle states of data objectsAccumulation of data objects into data productsCopies Data Objects to or from an alternate sourceMigration of data from one storage medium to another.Cleanup of expired, temporary dataPolicy driven placement of data objects in tiered storage systemProvision of data object integrity across storage tiers and lifecycle statesshort-term storage of data objectsLong term storage of data productsPersisting metadata and state information

Services and API interfaces providing middleware functionality to other SDP elements.Individual data services; for instance, consistent access to sky models.Receiving network packages from CSP and instantiating respective data object.Discard an incompletely processed scheduling block and free allocated resourcesAccess to system monitoring and application performance datagather application performance datareturns processing statusgeneration of alerts under pre-defined conditionsCreation of science data product catalogue.Generation of archival search index.Population of archival metadata schemascience archive data accessAccess to science archive metadataAccess to science data productsPolicy based access control to science data productsTo provide an interface for data transfer between the SKA Science Data Archive and Regional Centres.

To provide an interface for all outside parties to access and query the Science Data Archive.

Add and remove users and groups.

User maintenance of user-defined groups.

Provides local monitor and control functionality to the SDP as a whole. This involves both the internal management of the SDP and the external interface to the Telescope Manager.Provides for all aspects related to the control of the SDP, both externally from TM and internally towards the SDP.Services to manage and maintain parallel instances of various aspects of the LMC sub-element, principally to enable sub-array capabilities. Part of the master controller.Manages the identification, creation and deployment of data flow graphs.Curation and provision of the underlying data flow models from the data flow model store to the data flow manager as they are needed.Tools to profile pipeline components to assist with decision making in the graph building process.Services to interrogate and report on the current availability of hardware resources needed to construct a physical data flow graph.Build a physical data flow deployment graph based on the chosen data flow model.Controls all aspects of SDP power management, including bringup from standby to unconfigured state.Load the standby configuration into the power control system to allow the transition to theunconfigured state.Halt the entire SDP, apart from power on components, in a graceful fashion. No time guarantee is given.Halt the SDP components as fast as is safely possible. No regard is paid to data integrity (outside of the archive). A time guarantee may be given.Controls sub-elements within the SDP. Principally these include the Data Manager, Platform Manager and the Scheduler.Services related to the setup and management of observations.Used to estimate the wall clock runtime for a particular observation. This is used by TM during the observation planning phase.Used to estimate the resources required to execute a particular observation. Used by TM in the observation planning phase.Allows simulation of an observation without the presence of the Telescope Manager. Used in conjunction with the meta data simulator and a CSP simulator (to be defined) to provide a complete environment in which to carry out simulated operations.This is the component that actually receives observation configuration from the TM.Provides self-testing services to allow internal and external users to test the current state of the overall LMC function (and perhaps the whole SDP as well).Provides monitoring, logging, alarm, andevent handling services for exposure upwards to the Telescope Manager, and for internal use within the SDP.Services to collect, aggregate and store monitoring data from SDP sub-elementsA central (but likely physically distributed) logging capability that allows fine-grained control of logging at a variety of levels within each SDP sub-element.Handles events (and alarms as a special case). Includes collection, aggregation and dissemination to other parties.Alarms are special cases of events and will need extra handling procedures, particular on the notification front.Function to provide notification services for all event types.Function to handle aggregation and suppression of events based on pre-defined rules.Produces health indications suitable for consumption by the Telescope Manager. Based on information collected by the monitor, logger and event frameworks.Provides collection and visualisation of metrics that relate to the quality and integrity of the science payload at various stages of processing through the SDP.Collects, sanitises and aggregates metrics produced by the pipelines.Collects, sanitises and aggregates metrics produced by the ingest pipeline. This is a special case of the general metric collection function, and will require significant differences in terms of volume of data.Visualisation of the various metric used in Quality Assurance.Rendering function used when data is sent directly to the client and rendered into a viewable graph.

Renderer used when the viewable plot / image is produced on the server side and sent in vector or bitmap form to the client for direct display.Specialist control of the QA visualisation and metric collection process. For instance, the operator may select only a set of interesting baselines on which to produce power spectrum plots.Provides services to read and write data to the local telescope model.Receive metadata from external telescope elements. Typically this will be a stream of meta-data from the Telescope Manager, but may also involve reading static configuration entities.Using available data sources, both internal and external, make sure the local telescope model reflects the current state of the telescope.Check to ascertain the validity of key parts of the model. Useful in situations where certain metadata must be known prior to a particular operation commencing.Insert new values into the telescope model, checking for consistency and validity.Provide a serialised view of the current model, typically used to write to disk as part of commissioning and set to work activities.Allows the required meta-data for a simulation observation to be directly produced within the local telescope model.For high update rate use cases, such as the sky model, provide a transaction capability to allow control of how changes propagate through the model.To do processing required for commissioning of the SKA system.Needs more decomposition as the SKA commissioning plan is not yet available.

To make science-ready image cubes with high or moderate spectral resolution.

Continuum subtraction on full resolution spectral cubesTo specify the combinations of processing tasks and their parameters for producing spectral line data productsTo execute processing tasks for spectral line imagingTo apply correction for known instrumental or atmospheric effect that are relevant at high spectral resolutionTo solve for instrumental or atmospheric effects relevant at high spectral resolution by comparing model and observed dataTo estimated a spectral-line model for the sky a residual spectral cube by image-plane deconvolutionTo store intermediate data products (visibilities and grids) during iterative processing for spectral line imaging.To transport data between processing tasks of the spectral line pipeline.

To receive,store orforward data from CSP (and other sources) and prepares data for further processing. (This will satisfy requirements for doing EoR).

To specify the combinations of processing tasks and their parameters for ingesting data.To execute processing tasks for ingesting data.

Optional. Only needed if initial calibration needs to be one on full resolution data (related to F.5.1 Initial calibration).

Combine time, frequency channels, baselines & polarisation

To calculate calibration parameters in real-time for other elements of the SKA.A technique which involves a continuously changing pointing centre and step-wise changing phase centres, with the whole field then jointly deconvolved.

Interface to PIP.IMG

To convert the sky model into a data product.

To generate an alert that a transient has been observed.

SDP Security requirements,SDP equipment and component requirements.SDP production and manufacturing requirements.SDP operational requirements.SDPEMC and RFI requirements.SDP health, safety and environmental requirements.SDP maintenance, test and support requirements.SDP VLBI requirements. VLBI requirements are categorised as non-functional as SDP is not involved in VLBI processing.

Decomposes Decomposed byF.2 Spectral line Imaging, F.9 Pulsar Timing Post Processing, F.11 Update Global Sky Model, F.16 Commissioning, F.1 Continuum Imaging, F.8 Non-Imaging Transient Post Processing, F.13 Regional Centre Interface, F.12 Archiving, F.6 Science Analysis, F.3 Ingest Data, F.14 SKA Archive User Interface, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.5 Drift Scan Imaging, F.15 SDP LMC, F.10 Pulsar Search Post Processing,

F SDP L1 Functions, F.1.2 Store LSM, F.1.5 Initial Calibration (averaged data), F.1.8 Specify continuum pipeline, F.1.11 Continuum pipeline data transport, F.1.10 Continuum pipeline buffering, F.1.7 Image Plane Spectral Averaging, F.1.6 Calibration, F.1.4 Deconvolution, F.1.12 Continuum Source Finding, F.1.3 Forward Estimate, F.1.1 RFI flagging and excision, F.1.9 Execute continuum pipeline, F.1 Continuum Imaging, F.2 Spectral line Imaging, F.3 Ingest Data, F.5 Drift Scan Imaging, F.1.1.3 Determine RFI detection threshhold, F.1.4.1 Apply t-f flagger, F.1.1.1 Determine spatial filter weights, F.1.1.2 Apply Spatial filter, F.1.1 RFI flagging and excision, F.1.1 RFI flagging and excision, F.1.1 RFI flagging and excision, F.1 Continuum Imaging, F.5 Drift Scan Imaging, F.12.1 Data Layer Management, F.1 Continuum Imaging, F.5 Drift Scan Imaging, F.12.1 Data Layer Management, F.7 Imaging Transient Search, F.1 Continuum Imaging, F.5 Drift Scan Imaging, F.1.12.1 Fast Point Source Detection, F.1.12 Continuum Source Finding, F.1 Continuum Imaging, F.2 Spectral line Imaging, F.5 Drift Scan Imaging, F.12.1 Data Layer Management, F.1 Continuum Imaging, F.2 Spectral line Imaging, F.5 Drift Scan Imaging, F.7 Imaging Transient Search, F.1 Continuum Imaging, F.2 Spectral line Imaging, F.5 Drift Scan Imaging, F.1.4.4 iFFT, F.1.4.1 Apply t-f flagger, F.1.4.2 Subtract Component in Image Plane, F.1.4.3 Identify Component, F.1.4.7 Gridding, F.1.4.9 Major Cycle Loop, F.1.4.8 FFT, F.1.4.5 De-gridding, F.1.4.6 Subtract from uv-data, F.1.4 Deconvolution, F.1.1 RFI flagging and excision, F.1.4 Deconvolution, F.1.4 Deconvolution, F.1.4 Deconvolution, F.1.4 Deconvolution, F.1.4 Deconvolution, F.1.4 Deconvolution, F.1.4 Deconvolution, F.1.4 Deconvolution, F.1 Continuum Imaging, F.5 Drift Scan Imaging, F.1.6.5 Correct, F.1 Continuum Imaging, F.5 Drift Scan Imaging, F.1.6.2 Predict, F.1.6.3 Subtract (calibration), F.1.6.1 Solve, F.1.6.4 Flag (calibration), F.1.6.5 Correct, F.1.6 Calibration, F.4 Real-time Calibration, F.1.6 Calibration, F.4 Real-time Calibration, F.1.6 Calibration, F.4 Real-time Calibration, F.1.6 Calibration, F.4 Real-time Calibration, F.1.6 Calibration, F.4 Real-time Calibration, F.1.5 Initial Calibration (averaged data), F.1 Continuum Imaging, F.5 Drift Scan Imaging, F.1 Continuum Imaging, F.5 Drift Scan Imaging, F.1 Continuum Imaging, F.5 Drift Scan Imaging, F SDP L1 Functions, F.10.1 Periodicity Search Post Processing , F.9.1 Pulsar Timing ToA Determination, F.9.3 Pulsar Timing Model Fitting, F.9.2 Pulsar Timing Data Preparation, F.10 Pulsar Search Post Processing, F.10.1.6 Archive Periodicity Search Candidates, F.8.4 Candidate Selection, F.8.6 Alert Generator, F.10.1.1 Merge OCLDs from multiple beams, F.8.3 Generation and extraction of candidate heuristics, F.8.5 Candidate Classification, F.10.1 Periodicity Search Post Processing , F.10.1 Periodicity Search Post Processing , F SDP L1 Functions, F SDP L1 Functions, F.12.1 Data Layer Management, F.12.2 Product Ingest, F.12.3 Archive Access, F.2.9 Spectral line pipeline data transport, F.2.8 Spectral line pipeline buffering, F.1.11 Continuum pipeline data transport, F.1.10 Continuum pipeline buffering, F.1.2 Store LSM, F.3.2 Receive and buffer (u,v) data, F.12 Archiving, F.12.1.1 Data Life Cycle Control, F.12.1.4 Monitoring, F.12.1.3 Data Layer Services, F.12.1.2 Hierarchical Storage Management, F.12.1 Data Layer Management, F.12.1.1.3 Migration, F.12.1.1.1 Aggregation, F.12.1.1.2 Replication of Data Objects, F.12.1.1.4 Retirement, F.12.1.1 Data Life Cycle Control, F.12.1.1 Data Life Cycle Control, F.12.1.1 Data Life Cycle Control, F.12.1.1 Data Life Cycle Control, F.12.1 Data Layer Management, F.12.1.2.3 Data Product Storage, F.12.1.2.1 Transaction Management, F.12.1.2.2 Buffering, F.12.1.2.4 Database Access, F.12.1.2 Hierarchical Storage Management, F.12.1.2 Hierarchical Storage Management, F.12.1.2 Hierarchical Storage Management, F.12.1.2 Hierarchical Storage Management,

F.12.1 Data Layer Management, F.12.1.3.2 Raw Data Reception, F.12.1.3.3 Aborting/Resetting, F.12.1.3.1 Special Purpose Functions, F.12.1.3 Data Layer Services, F.12.1.3 Data Layer Services, F.12.1.3 Data Layer Services, F.12.1 Data Layer Management, F.12.1.4.1 Load Measurement, F.12.1.4.3 Alerting, F.12.1.4.2 Status Reporting, F.12.1.4 Monitoring, F.12.1.4 Monitoring, F.12.1.4 Monitoring, F.12 Archiving, F.12.2.2 Branding/Provenance, F.12.2.1 Indexing, F.12.2 Product Ingest, F.12.2 Product Ingest, F.12 Archiving, F.12.3.1 Metadata Service, F.12.3.2 Data Product Service, F.12.3.3 Access Control, F.12.3 Archive Access, F.12.3 Archive Access, F.12.3 Archive Access, F SDP L1 Functions, F.13.1 Data distribution policy, F.13.2 Bulk Data Transfer, F.13 Regional Centre Interface, F.13.1.1 Maintain remote products, F.13.1 Data distribution policy, F.13.1.1.1 Analyse Data, F.13.1.1.2 Delete Remote Products, F.13.1.1.3 Update Remote Products, F.13.1.1 Maintain remote products, F.13.1.1 Maintain remote products, F.13.1.1 Maintain remote products, F.13 Regional Centre Interface, F.13.2.1 WAN Interface, F.13.2.3 Schedule data delivery, F.13.2.2 Receive Data at Regional Centre, F.13.2.4 Send data to Regional Centre, F.13.2.5 Log Receiving data, F.13.2 Bulk Data Transfer, F.13.2 Bulk Data Transfer, F.13.2 Bulk Data Transfer, F.13.2.3.1 Check previous deliveries, F.13.2.3.3 Prioritise data for delivery, F.13.2.3.2 Check Data Transfer budget, F.13.2.3 Schedule data delivery, F.13.2.3 Schedule data delivery, F.13.2.3 Schedule data delivery, F.13.2 Bulk Data Transfer, F.13.2 Bulk Data Transfer, F.14.4 Deliver Data to end user, F SDP L1 Functions, F.14.3 Request Data Delivery, F.14.4 Deliver Data to end user, F.14.2 Discover Data, F.14.1 Authenticate and Authorise, F.14.5 Visualise data, F.14 SKA Archive User Interface, F.14.1.3 Maintain User Credentials, F.14.1.4 Maintain user-defined groups, F.14.1.1 Authorise User, F.14.1.2 Authenticate User, F.14.1 Authenticate and Authorise, F.14.1.1.1 Authorise User (Service), F.14.1.1.2 Authorise User (Client), F.14.1.1 Authorise User, F.14.1.1 Authorise User, F.14.1 Authenticate and Authorise, F.14.1.2.2 Authenticate User (Service), F.14.1.2.1 Authenticate User (Client), F.14.1.2 Authenticate User, F.14.1.2 Authenticate User, F.14.1 Authenticate and Authorise, F.14.1.3.1 Maintain User Credentials (Client), F.14.1.3.3 Associate Identities, F.14.1.3.2 Maintain User Credentials (Service), F.14.1.3 Maintain User Credentials, F.14.1.3 Maintain User Credentials, F.14.1.3 Maintain User Credentials, F.14.1 Authenticate and Authorise, F.14 SKA Archive User Interface, F.14.2.1 Visualise Query Results, F.14.2.6 Query Authorised Metadata, F.14.2.5 Select Destination, F.14.2.4 Filter By Authorisation, F.14.2.3 Query Authorised Data, F.14.2.7 Condition metadata, F.14.2.2 Select Data Products For Transfer, F.14.2 Discover Data, F.14.2 Discover Data, F.14.2 Discover Data, F.14.2 Discover Data, F.14.2 Discover Data, F.14.2 Discover Data, F.14.2.6.2 Query Metadata (Client), F.14.2.6.1 Append Authorisation Parameters to Query, F.14.2.6.3 Query Metadata (Service),

F.14.2.6 Query Authorised Metadata, F.14.2.6 Query Authorised Metadata, F.14.2.6 Query Authorised Metadata, F.14.2 Discover Data, F.14 SKA Archive User Interface, F.14 SKA Archive User Interface, F.13.2.5 Log Receiving data, F.14.4.1 Transfer Data to End User, F.14.4 Deliver Data to end user, F.14 SKA Archive User Interface, F.14.5.5 Automate Science analysis, F.14.5.8 Customise Visualisation Environment, F.14.5.4 Annotate Archive Data, F.14.5.7 Log Data Access, F.14.5.2 View Data with Core Functionality, F.14.5.1 Share Visualisation Session, F.14.5.3 View Data with Core analysis, F.14.5.6 Produce Science Analysis Products, F.14.5 Visualise data, F.14.5 Visualise data, F.14.5 Visualise data, F.14.5 Visualise data, F.14.5 Visualise data, F.14.5 Visualise data, F.14.5 Visualise data, F.14.5 Visualise data, F.14.5.8.2 Customise Visualisation Display, F.14.5.8.1 Customise User Display Defaults, F.14.5.8 Customise Visualisation Environment, F.14.5.8 Customise Visualisation Environment, F SDP L1 Functions, F.15.4 Local Telescope Model, F.15.1 Control, F.15.2 Monitoring, F.15.3 Quality Assurance, F.15 SDP LMC, F.15.1.3 Power Control, F.15.1.1 Manage LMC Instances, F.15.1.8 LMC Self Test, F.15.1.6 Observation Simulation, F.15.1.2 Manage Data Flow Graphs, F.15.1.5 Observation Control, F.15.1.7 Receive observation configuration, F.15.1.4 Sub-element Control, F.15.1 Control, F.15.1 Control, F.15.1.2.3 Hardware Resource Availability, F.15.1.2.1 Manage Data Flow Models, F.15.1.2.4 Construct Physical Data Flow Graph, F.15.1.2.2 Component Profiling, F.15.1.2 Manage Data Flow Graphs, F.15.1.2 Manage Data Flow Graphs, F.15.1.2 Manage Data Flow Graphs, F.15.1.2 Manage Data Flow Graphs, F.15.1 Control, F.15.1.3.1 Read Standby Configuration, F.15.1.3.3 Emergency Shutdown, F.15.1.3.2 Graceful Shutdown, F.15.1.3 Power Control, F.15.1.3 Power Control, F.15.1.3 Power Control, F.15.1 Control, F.15.1 Control, F.15.1.5.2 Observation Resource Estimation, F.15.1.5.1 Observation Runtime Estimation, F.15.1.5 Observation Control, F.15.1.5 Observation Control, F.15.1 Control, F.15.1 Control, F.15.1 Control, F.15 SDP LMC, F.15.2.3 Event Handling, F.15.2.4 Health State, F.15.2.1 Monitoring Data Collection, F.15.2.2 Central Logging, F.15.2 Monitoring, F.15.2 Monitoring, F.15.2 Monitoring, F.15.2.3.3 Event Aggregation, F.15.2.3.1 Handle Alarms, F.15.2.3.2 Event Notification, F.15.2.3 Event Handling, F.15.2.3 Event Handling, F.15.2.3 Event Handling, F.15.2 Monitoring, F.15 SDP LMC, F.15.3.2 QA Visualisation, F.15.3.3 QA Control,

F.15.3.1.1 Ingest Metric Collection, F.15.3.1 Pipeline Metric Collection, SKA1-SYS_REQ-2347 Automated Quality Assessment., F.15.3 Quality Assurance, SDP_REQ-40 Quality assessment interface, F.15.3.2.1 Client side rendering, F.15.3.2.2 Server side rendering, SDP_REQ-41 Performance assessment, F.15.3.2 QA Visualisation,

SDP_REQ-43 Quality assessment calculation, F.15.3.2 QA Visualisation, SDP_REQ-42 Performance goals, F.15.3 Quality Assurance, F.15 SDP LMC, F.15.4.5 Handle Transactions, F.15.4.1 Ingest Metadata, F.15.4.4 Simulate Telescope Model, F.15.4.3 Serialise Model, F.15.4.2 Maintain Telescope Model, F.15.4 Local Telescope Model, F.15.4 Local Telescope Model, F.15.4.2.1 Validate Telescope Model, F.15.4.2.2 Update Telescope Model, F.15.4.2 Maintain Telescope Model, F.15.4.2 Maintain Telescope Model, F.15.4 Local Telescope Model, F.15.4 Local Telescope Model, F.15.4 Local Telescope Model, F SDP L1 Functions, F.18.1 Simulation, F.16 Commissioning, F SDP L1 Functions, F.1.2 Store LSM, F.2.13 Execute spectral line pipeline, F.2.6 Calibration (high spectral resolution), F.2.5 Initial Calibration (high spectral resolution), F.2.7 Spectral Line Source Finding, F.2.9 Spectral line pipeline data transport, F.2.8 Spectral line pipeline buffering, F.2.11 Continuum Subtraction, F.1.4 Deconvolution, F.2.10 Postage Stamp Selection, F.1.3 Forward Estimate, F.2.12 Specify spectral line pipeline, F.1.1 RFI flagging and excision, F.2 Spectral line Imaging, F.2.10.2 Phase Rotation, F.2.10.1 uv Plane Averaging, F.2.10 Postage Stamp Selection, F.2.10 Postage Stamp Selection, F.2 Spectral line Imaging, F.2 Spectral line Imaging, F.2 Spectral line Imaging, F.2 Spectral line Imaging, F.2 Spectral line Imaging, F.2 Spectral line Imaging, F.2 Spectral line Imaging, F.12.1 Data Layer Management, F.2 Spectral line Imaging, F.12.1 Data Layer Management,

F.20.1.1 Platform State Management, F.20.1.2 Deployment, F.20.1 Platform Management, F.20.1 Platform Management, F SDP L1 Functions, F.3.2 Receive and buffer (u,v) data, F.3.6 Strong source removal, F.3.11 Execute Ingest Pipeline, F.3.7 Receive and Apply Initial Calibration (optional), F.3.10 Specify Ingest Pipeline, F.3.8 Phase Rotation, F.3.1 Integrate in time and frequency, F.3.9 Partial gather and transpose, F.1.1 RFI flagging and excision, F.3.3 Handle missing and out of order packets, F.3.5 Merge Metadata from TM, F.3 Ingest Data, F.3.1.3 Integrate in time and frequency (base-line dependant), F.3.1.2 Compress, F.3.1.1 Send (u,v) data to Calibration function, F.3.1.4 Transpose, reorder, F.3.1 Integrate in time and frequency, F.3.1 Integrate in time and frequency, F.3.1 Integrate in time and frequency, F.3.1 Integrate in time and frequency, F.3 Ingest Data, F.3 Ingest Data, F.3 Ingest Data, F.12.1 Data Layer Management, F.3.2.2 Receive (u,v) data from CSP, F.3.2.1 Buffer (u,v) data ~0.5s, F.3.2 Receive and buffer (u,v) data, F.3.2 Receive and buffer (u,v) data, F.3 Ingest Data, F.3.3.2 Order (u,v) data over time, F.3.3.1 Detect missing packets, F.3.3 Handle missing and out of order packets, F.3.3 Handle missing and out of order packets, F.3 Ingest Data, F.3.5.1 Input Metadata from TM, F.3.5.2 Merge missing packet info with TM metadata, F.3.5 Merge Metadata from TM, F.3.5 Merge Metadata from TM, F.3 Ingest Data, F.3 Ingest Data, F.3 Ingest Data, F.3 Ingest Data, F.3.9.1 transpose data, F.3.9.2 Combine time, frequency channels, baselines & polarisation, F.3.9 Partial gather and transpose, F.3.9 Partial gather and transpose,

F SDP L1 Functions, F.1.6.2 Predict, F.1.6.1 Solve, F.1.6.5 Correct, F.1.6.4 Flag (calibration), F.1.6.3 Subtract (calibration), F SDP L1 Functions, F.1.2 Store LSM, F.1.5 Initial Calibration (averaged data), F.1.8 Specify continuum pipeline, F.1.11 Continuum pipeline data transport, F.1.10 Continuum pipeline buffering, F.1.12 Continuum Source Finding, F.1.6 Calibration, F.1.3 Forward Estimate, F.1.7 Image Plane Spectral Averaging, F.1.1 RFI flagging and excision, F.1.4 Deconvolution, F.1.9 Execute continuum pipeline, F SDP L1 Functions, F.6.1 Input Data Conditioning for Science Analysis, F.6.4 Stacking, F.6.2 Source Analysis, F.6.3 Source Finding, F.6 Science Analysis, F.6.1.2 Image Processing Cadence, F.6.1.1 Imaging Cube Gridding, F.6.1 Input Data Conditioning for Science Analysis, F.6.1 Input Data Conditioning for Science Analysis, F.6 Science Analysis, F.6.2.3 Spectral Index Determination (delete), F.6.2.1 Rotation Measure Synthesis, F.6.2.2 Spectral Line Profile Determination (delete), F.6.2 Source Analysis, F.6.2 Source Analysis, F.6.2 Source Analysis, F.6 Science Analysis, F.6.3.2 Spectral Line Source Detection, F.6.3.3 Extended Source Detection, F.6.3.1 Point Source Detection, F.6.3 Source Finding, F.6.3 Source Finding, F.6.3 Source Finding, F.6 Science Analysis, F.6.4.1 Continuum Stacking, F.6.4.2 H1 Stacking, F.6.4 Stacking, F.6.4 Stacking, F SDP L1 Functions, F.7.2 Generate Alert for Transients, F.1.4 Deconvolution, F.1.12 Continuum Source Finding, F.7 Imaging Transient Search, F SDP L1 Functions, F.8.4 Candidate Selection, F.8.6 Alert Generator, F.8.2 Merge SPOCLDs from multiple beams, F.8.1 Archive Transient Search Candidates, F.8.3 Generation and extraction of candidate heuristics, F.8.5 Candidate Classification, F.8 Non-Imaging Transient Post Processing, F.8 Non-Imaging Transient Post Processing, F.10.1 Periodicity Search Post Processing , F.8 Non-Imaging Transient Post Processing, F.10.1 Periodicity Search Post Processing , F.8 Non-Imaging Transient Post Processing, F.10.1 Periodicity Search Post Processing , F.8 Non-Imaging Transient Post Processing, F.10.1 Periodicity Search Post Processing , F.8 Non-Imaging Transient Post Processing, F SDP L1 Functions, F.9.1 Pulsar Timing ToA Determination, F.9.3 Pulsar Timing Model Fitting, F.9.2 Pulsar Timing Data Preparation, F.10 Pulsar Search Post Processing, F.9 Pulsar Timing Post Processing, F.9 Pulsar Timing Post Processing, F.10 Pulsar Search Post Processing, F.9.2.6 Data Receptor (Pulsar Search), F.9.2.2 RFI mitigation, F.9.2.1 Data Receptor (Pulsar Timing), F.9.2.5 Archive products generated, F.9.2.4 Averaging, F.9.2.3 Calibration, F.9.2.7 Data Receptor (Non-Imaging Transient Search), F.9.2 Pulsar Timing Data Preparation, F.9.2 Pulsar Timing Data Preparation, F.9.2 Pulsar Timing Data Preparation, F.9.2 Pulsar Timing Data Preparation, F.9.2 Pulsar Timing Data Preparation, F.9.2 Pulsar Timing Data Preparation, F.9.2 Pulsar Timing Data Preparation, F.10 Pulsar Search Post Processing, F.9 Pulsar Timing Post Processing, F.9.3.2 Append residuals to update model, F.9.3.1 Generate Residual, F.9.3 Pulsar Timing Model Fitting, F.9.3 Pulsar Timing Model Fitting,

NF.3 Production & Manufacturing Specifications, NF.2 Equipment & Component Specifications, NF.1 Security, NF.7 Maintenance, Test & Support, NF.5 EMC & RFI, NF.8 VLBI, NF.4 Operations, NF.6 Health, Safety & Environment, NF SDP non-functional categories, NF SDP non-functional categories, NF SDP non-functional categories, NF SDP non-functional categories, NF SDP non-functional categories, NF SDP non-functional categories, NF SDP non-functional categories, NF SDP non-functional categories, TC-1 SDP Test Case 1,

TA-1 SDP Test Action 1,

SatisfiesF.2 Spectral line Imaging, F.9 Pulsar Timing Post Processing, F.11 Update Global Sky Model, F.16 Commissioning, F.1 Continuum Imaging, F.8 Non-Imaging Transient Post Processing, F.13 Regional Centre Interface, F.12 Archiving, F.6 Science Analysis, F.3 Ingest Data, F.14 SKA Archive User Interface, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.5 Drift Scan Imaging, F.15 SDP LMC, F.10 Pulsar Search Post Processing,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid AbsSDP_REQ-476 Flag RFI, SDP_REQ-525 Pulsar Timing RFI Mitigation, SDP_REQ-487 Flag Data, SDP_REQ-477 Excise RFI, SDP_REQ-490 Data Quality, SDP_REQ-488 Flag Lightning,

SDP_REQ-491 Spatial Filtering, SDP_REQ-495 Spatial Filter Weights, SDP_REQ-486 Determine RFI Threshold, SDP_REQ-489 Covariance Matrices, SDP_REQ-478 Detect RFI, SDP_REQ-618 Tranfer images from archive to buffer, SDP_REQ-617 Restore images from archive to buffer, SDP_REQ-507 Calibration Source Finding,

SDP_REQ-403 Deconvolution, SDP_REQ-397 Imager, SDP_REQ-447 Major and minor deconvolution cycles, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SDP_REQ-504 Scale sensitive deconvolution,

SDP_REQ-403 Deconvolution, SDP_REQ-403 Deconvolution, SDP_REQ-402 Fourier Transform Algorithm, SDP_REQ-398 Gridding & de-gridding, SDP_REQ-399 Anti-aliasing kernel, SDP_REQ-401 A-kernel, SDP_REQ-400 w-kernel, SDP_REQ-396 LSM subtraction, SDP_REQ-398 Gridding & de-gridding, SDP_REQ-399 Anti-aliasing kernel, SDP_REQ-401 A-kernel, SDP_REQ-400 w-kernel, SDP_REQ-402 Fourier Transform Algorithm, SDP_REQ-403 Deconvolution, SDP_REQ-417 Calibration pipeline., SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DDSDP_REQ-498 Fit model parameters, SDP_REQ-501 Predict visibilities, SDP_REQ-497 Subtract (calibration), SDP_REQ-503 Flag (calibration), SDP_REQ-499 Correct, SDP_REQ-404 Image plane spectral averaging, SDP_REQ-405 Image plane averaging 2,

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2131 Transient search mode, SKA1-SYS_REQ-2216 Time resolution, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2220 Binary search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support., SDP_REQ-552 Periodicity Search Alerts, SDP_REQ-147 Periodicity Search Number of Beams, SDP_REQ-133 Periodicity Search Post Processing, SDP_REQ-558 Periodicity Search Output, SDP_REQ-527 Pulsar Search Data Input, SDP_REQ-535 Non-imaging Transient Input Data , SDP_REQ-560 Identify multi-beam candidates, SDP_REQ-533 Merge Data from Multiple Beams, SDP_REQ-567 Periodicity Search Archive Products, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2829 SKA1_Survey Absolute flux scale, SDP_REQ-505 Global Sky Model Update, SKA1-SYS_REQ-2825 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2824 SKA1_Low Absolute flux scale, SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-247 Data Layer Management, SDP_REQ-251 Concurrency, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-248 Data Life Cycle Management, SDP_REQ-268 Rejuvenation, SDP_REQ-255 Tracing Data, SDP_REQ-252 Concurrent Workflows, SDP_REQ-261 Restoring Archive Operations of a failed site, SDP_REQ-283 Restore archive access, SDP_REQ-260 Archive Backup, SDP_REQ-268 Rejuvenation, SDP_REQ-263 Data Migration Design, SDP_REQ-269 Storage Technology Transition, SDP_REQ-256 Discard Scheduling Block, SDP_REQ-253 Workload Balance, SDP_REQ-598 Storage Hierarchy, SDP_REQ-383 Data Integrity, SDP_REQ-618 Tranfer images from archive to buffer,

SDP_REQ-250 DB Interface,

SDP_REQ-599 Data Service Layer, SDP_REQ-257 Sky Model Access,

SDP_REQ-256 Discard Scheduling Block, SDP_REQ-266 Status Information, SDP_REQ-287 Continuous performance monitoring., SDP_REQ-265 Continuous Performance Monitoring Metrics, SDP_REQ-266 Status Information, SDP_REQ-267 Availability Metric, SDP_REQ-384 Notification Event, SDP_REQ-276 Data Product Provenance, SDP_REQ-574 Science Data Archive, SDP_REQ-255 Tracing Data, SDP_REQ-578 Data Model Compliance, SDP_REQ-254 Provenance, SDP_REQ-262 Data Layer Product Distribution, SDP_REQ-275 Remote Processing, SDP_REQ-574 Science Data Archive, SDP_REQ-573 Third party data products, SDP_REQ-523 Archive Database Service, SDP_REQ-577 Decoupling real-time Ops, SDP_REQ-522 Archive Bulk Data Access Service, SDP_REQ-576 Data Product Replication, SDP_REQ-577 Decoupling real-time Ops, SDP_REQ-613 Meta Access, SDP_REQ-286 Levels of access to the archive, SDP_REQ-270 Archive Security Traceability, SDP_REQ-609 Release Status, SDP_REQ-612 Data Product Types, SDP_REQ-274 Single Sign-On, SDP_REQ-264 Access Rules, SDP_REQ-574 Science Data Archive, SDP_REQ-610 Consistent Release State, SDP_REQ-611 User Roles, SKA1-SYS_REQ-2366 Distribution of data products., SDP_REQ-106 Product distribution, SDP_REQ-107 Identify distribution destination, SDP_REQ-127 RC Product Renewal, SDP_REQ-114 Analysis output storage, SDP_REQ-125 Trigger data removal, SDP_REQ-126 Trigger data update, SDP_REQ-262 Data Layer Product Distribution, SDP_REQ-111 RC data transfer rate, SDP_REQ-114 Analysis output storage, SDP_REQ-117 RC unexpected downtime, SDP_REQ-116 RC expected downtime, SDP_REQ-112 RC storage rate, SDP_REQ-99 User Credentials Replication, SDP_REQ-115 Metadata replication, SDP_REQ-110 RC storage capacity, SDP_REQ-113 RC analysis execution, SDP_REQ-108 Delivery performance, SDP_REQ-109 Delivery interruption, SDP_REQ-118 Delivery strategy, SDP_REQ-119 Delivery Count Limit, SDP_REQ-124 Delivery strategy data model, SDP_REQ-122 High priority delivery, SDP_REQ-121 Data delivery budget, SDP_REQ-123 Low priority delivery, SDP_REQ-120 Data delivery priority,

SDP_REQ-98 User access log consistency, SKA1-SYS_REQ-2482 Accessibility, SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2352 Web interface., SKA1-SYS_REQ-2366 Distribution of data products., SKA1-SYS_REQ-2353 Virtual Observatory interface., SKA1-SYS_REQ-2354 Archive API., SKA1-SYS_REQ-2739 Levels of access to the archive, SDP_REQ-571 Access to data and metadata, SDP_REQ-274 Single Sign-On, SDP_REQ-90 Anonymous delivery, SDP_REQ-94 User Authorisation, SDP_REQ-277 User Defined Access Control , SDP_REQ-95 Delivery by Role, SDP_REQ-97 Authorisation client, SDP_REQ-89 Federated authentication, SDP_REQ-95 Delivery by Role, SDP_REQ-88 User Authentication, SDP_REQ-89 Federated authentication, SDP_REQ-91 Certificate Authentication, SDP_REQ-91 Certificate Authentication, SDP_REQ-101 Authentication provider list, SDP_REQ-100 Authorisation credential client, SDP_REQ-102 User Roles, SDP_REQ-102 User Roles, SDP_REQ-93 External Credentials, SDP_REQ-279 User-defined Group Management, SDP_REQ-277 User Defined Access Control , SDP_REQ-56 Image Archive Metadata, SDP_REQ-62 Data Description, SDP_REQ-58 Data Discovery, SDP_REQ-55 ObsCore Archive Metadata, SDP_REQ-54 Archive Metadata, SDP_REQ-130 VOEvent Delivery, SDP_REQ-87 Archive Data File Formats, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-60 SIA Discovery, SDP_REQ-59 TAP Discovery, SDP_REQ-385 Web Interface, SDP_REQ-73 Metadata Visualisation Client, SDP_REQ-74 HTTP Client Metadata Visualisation, SDP_REQ-75 HTTP Client Previews, SDP_REQ-68 Delivery Client, SDP_REQ-66 DataLink Delivery, SDP_REQ-105 Proprietary data period, SDP_REQ-107 Identify distribution destination, SDP_REQ-90 Anonymous delivery, SDP_REQ-103 Proprietary Period,

SDP_REQ-104 Proprietary metadata period, SDP_REQ-63 TAP Data Description, SDP_REQ-61 Client Data Discovery, SDP_REQ-64 SIA Data Description, SDP_REQ-77 VOEvent Data Description, SDP_REQ-61 Client Data Discovery, SDP_REQ-60 SIA Discovery, SDP_REQ-77 VOEvent Data Description, SDP_REQ-59 TAP Discovery, SDP_REQ-56 Image Archive Metadata, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-92 VOEvent Data Model, SDP_REQ-72 Metadata Conditioning, SDP_REQ-55 ObsCore Archive Metadata, SDP_REQ-118 Delivery strategy, SDP_REQ-65 Data Delivery, SDP_REQ-273 Cut-outs, SDP_REQ-67 AccessData Delivery, SDP_REQ-56 Image Archive Metadata, SDP_REQ-76 Data Visualisation Client, SDP_REQ-131 Supported File Formats, SDP_REQ-82 Maintain Visualization Session, SDP_REQ-81 Multi-User Viewing, SDP_REQ-78 Core viewing functionality, SDP_REQ-80 Core Analysis Visualization, SDP_REQ-79 Extensible Analysis, SDP_REQ-129 View Large Datasets, SDP_REQ-128 Community Analysis, SDP_REQ-132 Annotations, SDP_REQ-86 Analysis API, SDP_REQ-85 Viewer Plot Save, SDP_REQ-96 Data access logging, SDP_REQ-572 Display customisations, SDP_REQ-83 User Visualization Customization, SDP_REQ-84 Viewer Customizable Plotting,

F.15.4 Local Telescope Model, F.15.1 Control, F.15.2 Monitoring, F.15.3 Quality Assurance, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50 SKA1-SYS_REQ-2230 Multiple timings., SDP_REQ-25 Independent Operations, SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SDP_REQ-26 Resource sharing, SDP_REQ-624 Data Flow Graphs, SDP_REQ-625 Data Flow Models, SDP_REQ-626 Component Profiles, SDP_REQ-627 Hardware availability, SDP_REQ-628 Create data flow graphs, SDP_REQ-629 Power Management, SDP_REQ-630 Load standby configuration, SDP_REQ-31 Graceful degradation - evaluation, SDP_REQ-621 Preservation of Intermediate Data Products, SDP_REQ-622 Inform TM on Availability of Data Products, SDP_REQ-30 Graceful degradation, SDP_REQ-32 Graceful degradation - reporting, SDP_REQ-620 Graceful Error Recovery, SKA1-SYS_REQ-2786 Safety documentation file, SDP_REQ-623 Restart Processing after Error, SDP_REQ-376 Platform management interface to LMC, SDP_REQ-382 Component system consistency, SDP_REQ-380 Scheduler Interface, SDP_REQ-378 Deployment system, SDP_REQ-379 Scheduler, SDP_REQ-375 SDP platform management, SDP_REQ-10 Observation control - status, SDP_REQ-22 Control - Data Layer, SDP_REQ-23 Control - Delivery, SDP_REQ-8 Observation control - start, SDP_REQ-6 Observation scheduling feedback, SDP_REQ-24 Control - Feedback, SDP_REQ-21 Control - Compute, SDP_REQ-9 Observation control - stop, SDP_REQ-17 Scheduling - Compute, SDP_REQ-26 Resource sharing, SDP_REQ-13 Frequency control - switch, SDP_REQ-5 Observation scheduling, SDP_REQ-19 Scheduling - Delivery, SDP_REQ-20 Scheduling - Feedback, SDP_REQ-27 Observation control - switching, SDP_REQ-18 Scheduling - Data Layer, SDP_REQ-381 Scheduler input, SDP_REQ-15 Availability - Data Layer, SDP_REQ-4 Capability availability, SDP_REQ-16 Availability - Delivery, SDP_REQ-14 Availability - Compute, SDP_REQ-12 Frequency availability, SDP_REQ-631 Simulate observations, SDP_REQ-38 Metadata input, SDP_REQ-34 Self testing, SKA1-SYS_REQ-2546 Continuous performance monitoring., SDP_REQ-450 SDP standard pipeline products, SKA1-SYS_REQ-2280 System status., SDP_REQ-592 Status Monitoring, SKA1-SYS_REQ-2336 Standard pipeline products., SDP_REQ-593 Status Logging, SDP_REQ-632 Event handler, SDP_REQ-35 Alarms, SDP_REQ-37 Alarm latency, SKA1-SYS_REQ-2312 Alarm latency., SDP_REQ-36 Alarm timestamps, SDP_REQ-594 Status Reporting, SDP_REQ-633 Event aggregation, SDP_REQ-377 System health monitoring, SKA1-SYS_REQ-2742 Performance assessment, SDP_REQ-450 SDP standard pipeline products, SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2744 Quality assessment, SKA1-SYS_REQ-2743 Performance goals, SDP_REQ-48 Spectrometric performance metric, SDP_REQ-46 Radiometric performance metric, SDP_REQ-47 Polarimetric performance metric, SKA1-SYS_REQ-2347 Automated Quality Assessment., SKA1-SYS_REQ-2745 Astrometry performance metric, SKA1-SYS_REQ-2748 Polarimetric performance metric, SDP_REQ-45 Photometric performance metric, SKA1-SYS_REQ-2749 Spectrometric performance metric, SDP_REQ-44 Astrometric performance metric, SKA1-SYS_REQ-2746 Photometric performance metric, SKA1-SYS_REQ-2747 Radiometric performance metric, SKA1-SYS_REQ-2347 Automated Quality Assessment., SDP_REQ-40 Quality assessment interface, SDP_REQ-41 Performance assessment,

SDP_REQ-43 Quality assessment calculation, SDP_REQ-42 Performance goals, SDP_REQ-595 QA annotations, SKA1-SYS_REQ-2357 QA annotation., SDP_REQ-49 Telescope Manager API, SKA1-SYS_REQ-2645 Telescope Model, SDP_REQ-38 Metadata input, SDP_REQ-597 Component system state information, SDP_REQ-288 Telescope Model, SDP_REQ-634 Telescope Model-Validation, SDP_REQ-635 Telescope Model-Update, SDP_REQ-636 Telescope Model-Serialise, SDP_REQ-39 Metadata proxy, SDP_REQ-637 High update rate -transactions, SKA1-SYS_REQ-2657 Processing capability, SDP_REQ-616 Restore visibility data from archive to buffer,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SDP_REQ-600 Postage Stamp Selection, SDP_REQ-405 Image plane averaging 2, SDP_REQ-395 Additional Visibility Averaging, SDP_REQ-448 Phase Rotation, SDP_REQ-601 Continuum Subtraction,

SDP_REQ-618 Tranfer images from archive to buffer,

SDP_REQ-376 Platform management interface to LMC, SDP_REQ-375 SDP platform management, SDP_REQ-597 Component system state information, SDP_REQ-382 Component system consistency, SDP_REQ-378 Deployment system, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197SDP_REQ-526 Average Input Data In Time, SDP_REQ-502 Ingest Pipeline,

SDP_REQ-480 Integrate Data,

SDP_REQ-496 Set Weight, SDP_REQ-301 SDP ingest data rate, SDP_REQ-470 Receive Data, SDP_REQ-471 Buffer Data,

F.3.3.2 Order (u,v) data over time, F.3.3.1 Detect missing packets, SDP_REQ-472 Handle Missing Data, SDP_REQ-483 Missing Data, SDP_REQ-482 Order UV Data,

F.3.5.1 Input Metadata from TM, F.3.5.2 Merge missing packet info with TM metadata, SDP_REQ-484 Input Meta Data, SDP_REQ-473 Merge Meta Data, SDP_REQ-479 Remove Sources, SDP_REQ-615 EoR Calibration Pipeline, SDP_REQ-417 Calibration pipeline.,

F.3.9.1 transpose data, F.3.9.2 Combine time, frequency channels, baselines & polarisation, SDP_REQ-475 Transpose Data, SDP_REQ-485 Combine Data, SDP_REQ-474 Gather Data,

SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2634 Calibration update rate, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-???? Drift Scan Imaging, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2333 Continuum source finding., SKA1-SYS_REQ-2335 Stacking., SKA1-SYS_REQ-2334 Spectral line source finding., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SDP_REQ-469 Perform Science Analysis Pipeline Automatic QA, SKA1-SYS_REQ-???? Rotation Measure Synthesis, SDP_REQ-372 Early science processing capability, SDP_REQ-510 Science Analysis input data conditioning, SDP_REQ-520 Image Cube management, SDP_REQ-521 Image Cadence management, SDP_REQ-514 Source Analysis (TBC),

SDP_REQ-515 Spectral Line Profile Determination, SDP_REQ-509 Spectral Index Determination , SDP_REQ-511 Continuum Source Finding, SDP_REQ-518 Point Source Detection, SDP_REQ-516 Spectral Line Source Detection, SDP_REQ-508 Extended Source Detection, SDP_REQ-512 Stacking, SDP_REQ-519 Continuum Stacking, SDP_REQ-513 H1 Stacking, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SDP_REQ-532 Non-imaging Transient Post Processing, SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SDP_REQ-148 Non-imaging Transient Search Number of Beams, SDP_REQ-562 Non-imaging Transient Search Archive Products, SDP_REQ-546 Non-imaging Transient Search Output, SDP_REQ-554 Identify Multi-beam Candidates (transients), SDP_REQ-563 Merge Data from Multiple Beams (transients), SDP_REQ-545 Extract non-imaging transient heuristics, SDP_REQ-559 Extract pulsar search heuristics, SDP_REQ-557 Periodicity Search List Products, SDP_REQ-566 Non-imaging Transient List Products, SDP_REQ-547 Classify Candidates (pulsars), SDP_REQ-570 Classify Candidates (transients), SDP_REQ-568 False Alarm Rate for Non-imaging Transients, SDP_REQ-537 Response Rate for Pulsar Alerts, SDP_REQ-541 False Alarm Rate for Pulsar Alerts, SDP_REQ-564 Response Rate for Non-imaging Transients, SDP_REQ-544 Non-imaging Transient Alerts, SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2830 SKA1_Mid Pulsar phase bin width, SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2207 Number of beams: Pulsar timing., SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timing, SKA1-SYS_REQ-2231 Pulsar timing Dispersion Measure, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2224 Frequency agility., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support., SDP_REQ-529 Pulsar Timing Precision, SDP_REQ-543 Pulsar Timing Systematic Error, SDP_REQ-542 Pulsar Timing Error Estimation, SDP_REQ-530 Pulsar Timing ToA Determinination, SDP_REQ-524 Pulsar Timing Input, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-525 Pulsar Timing RFI Mitigation, SDP_REQ-548 Pulsar Timing Input Data Reception,

SDP_REQ-549 Dynamic Range When Averaging Pulsar Profiles, SDP_REQ-561 Average Input Data In Time To Given Significance, SDP_REQ-569 Average Input Data In Frequency, SDP_REQ-540 Average Input Data In Frequency To Given Significance,

SDP_REQ-528 Pulsar Search Data Input Data Reception, SDP_REQ-539 Non-imaging Transient Input, SDP_REQ-525 Pulsar Timing RFI Mitigation, SDP_REQ-565 Pulsar Timing Model Fitting, SDP_REQ-551 Generate Residual Precision, SDP_REQ-531 Generate Residual Output, SDP_REQ-538 Form Covariance Matrix of Residuals, SDP_REQ-550 Weighting Scheme for Pulsar Timing Model Fitting, SDP_REQ-556 Update Timing Model, SDP_REQ-555 Output of Pulsar Timing Model,

NF.3 Production & Manufacturing Specifications, NF.2 Equipment & Component Specifications, NF.1 Security, NF.7 Maintenance, Test & Support, NF.5 EMC & RFI, NF.8 VLBI, NF.4 Operations, NF.6 Health, Safety & Environment, SKA1-SYS_REQ-2478 Equipment security, SKA1-SYS_REQ-2793 Personnel security training, SKA1-SYS_REQ-2822 Information security risk assessment, SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion., SDP_REQ-360 Security requirements, SKA1-SYS_REQ-2823 Information security management for inter-organizational communications, SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting prSKA1-SYS_REQ-2570 Parts availability., SKA1-SYS_REQ-2562 Standard manufacturing tools., SKA1-SYS_REQ-2560 Design definition., SKA1-SYS_REQ-2569 Process list., SKA1-SYS_REQ-2559 Design for economic production., SKA1-SYS_REQ-2568 Parts list., SDP_REQ-363 Production and Manufacturing requirements, SKA1-SYS_REQ-2561 Manufacturing facilities., SKA1-SYS_REQ-2566 Materials list., SKA1-SYS_REQ-2571 Long lead time items., SKA1-SYS_REQ-2567 Hazardous Materials list., SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface., SKA1-SYS_REQ-2467 Electromagnetic susceptibility., SKA1-SYS_REQ-2465 Electricity network Electromagnetic Compatibility, SDP_REQ-359 EMC and RFI requirements, SKA1-SYS_REQ-2463 Self-induced RFI, SKA1-SYS_REQ-2462 Electromagnetic Radiation, SKA1-SYS_REQ-2464 Electromagnetic Compatibility Standards, SKA1-SYS_REQ-2466 EMC compatibility marking., SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

VR-4 Verification by Inspection, VR-2 Verification by Analysis, VR-5 Verification by Definition, VR-3 Verification by Demonstration, VR-1 Verification by Test,

F.2 Spectral line Imaging, F.9 Pulsar Timing Post Processing, F.11 Update Global Sky Model, F.16 Commissioning, F.1 Continuum Imaging, F.8 Non-Imaging Transient Post Processing, F.13 Regional Centre Interface, F.12 Archiving, F.6 Science Analysis, F.3 Ingest Data, F.14 SKA Archive User Interface, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.5 Drift Scan Imaging, F.15 SDP LMC, F.10 Pulsar Search Post Processing, SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid AbsSDP_REQ-476 Flag RFI, SDP_REQ-525 Pulsar Timing RFI Mitigation, SDP_REQ-487 Flag Data, SDP_REQ-477 Excise RFI, SDP_REQ-490 Data Quality, SDP_REQ-488 Flag Lightning,

SDP_REQ-403 Deconvolution, SDP_REQ-397 Imager, SDP_REQ-447 Major and minor deconvolution cycles, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SDP_REQ-504 Scale sensitive deconvolution,

SDP_REQ-398 Gridding & de-gridding, SDP_REQ-399 Anti-aliasing kernel, SDP_REQ-401 A-kernel, SDP_REQ-400 w-kernel,

SDP_REQ-398 Gridding & de-gridding, SDP_REQ-399 Anti-aliasing kernel, SDP_REQ-401 A-kernel, SDP_REQ-400 w-kernel,

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2131 Transient search mode, SKA1-SYS_REQ-2216 Time resolution, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2220 Binary search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support., SDP_REQ-552 Periodicity Search Alerts, SDP_REQ-147 Periodicity Search Number of Beams, SDP_REQ-133 Periodicity Search Post Processing, SDP_REQ-558 Periodicity Search Output, SDP_REQ-527 Pulsar Search Data Input, SDP_REQ-535 Non-imaging Transient Input Data ,

SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2829 SKA1_Survey Absolute flux scale, SDP_REQ-505 Global Sky Model Update, SKA1-SYS_REQ-2825 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2824 SKA1_Low Absolute flux scale, SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-247 Data Layer Management, SDP_REQ-251 Concurrency, SKA1-SYS_REQ-2322 Global sky model.,

SDP_REQ-261 Restoring Archive Operations of a failed site, SDP_REQ-283 Restore archive access, SDP_REQ-260 Archive Backup, SDP_REQ-268 Rejuvenation, SDP_REQ-263 Data Migration Design, SDP_REQ-269 Storage Technology Transition,

SDP_REQ-262 Data Layer Product Distribution, SDP_REQ-275 Remote Processing, SDP_REQ-574 Science Data Archive, SDP_REQ-573 Third party data products,

SDP_REQ-522 Archive Bulk Data Access Service, SDP_REQ-576 Data Product Replication, SDP_REQ-577 Decoupling real-time Ops, SDP_REQ-613 Meta Access, SDP_REQ-286 Levels of access to the archive, SDP_REQ-270 Archive Security Traceability, SDP_REQ-609 Release Status, SDP_REQ-612 Data Product Types, SDP_REQ-274 Single Sign-On, SDP_REQ-264 Access Rules, SDP_REQ-574 Science Data Archive, SDP_REQ-610 Consistent Release State, SDP_REQ-611 User Roles,

SDP_REQ-111 RC data transfer rate, SDP_REQ-114 Analysis output storage, SDP_REQ-117 RC unexpected downtime, SDP_REQ-116 RC expected downtime, SDP_REQ-112 RC storage rate, SDP_REQ-99 User Credentials Replication, SDP_REQ-115 Metadata replication, SDP_REQ-110 RC storage capacity, SDP_REQ-113 RC analysis execution,

SDP_REQ-122 High priority delivery, SDP_REQ-121 Data delivery budget, SDP_REQ-123 Low priority delivery,

SKA1-SYS_REQ-2482 Accessibility, SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2352 Web interface., SKA1-SYS_REQ-2366 Distribution of data products., SKA1-SYS_REQ-2353 Virtual Observatory interface., SKA1-SYS_REQ-2354 Archive API., SKA1-SYS_REQ-2739 Levels of access to the archive,

SDP_REQ-97 Authorisation client, SDP_REQ-89 Federated authentication, SDP_REQ-95 Delivery by Role,

SDP_REQ-56 Image Archive Metadata, SDP_REQ-62 Data Description, SDP_REQ-58 Data Discovery, SDP_REQ-55 ObsCore Archive Metadata, SDP_REQ-54 Archive Metadata, SDP_REQ-130 VOEvent Delivery, SDP_REQ-87 Archive Data File Formats, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-60 SIA Discovery, SDP_REQ-59 TAP Discovery, SDP_REQ-385 Web Interface, SDP_REQ-73 Metadata Visualisation Client, SDP_REQ-74 HTTP Client Metadata Visualisation, SDP_REQ-75 HTTP Client Previews,

SDP_REQ-63 TAP Data Description, SDP_REQ-61 Client Data Discovery, SDP_REQ-64 SIA Data Description, SDP_REQ-77 VOEvent Data Description, SDP_REQ-61 Client Data Discovery, SDP_REQ-60 SIA Discovery, SDP_REQ-77 VOEvent Data Description, SDP_REQ-59 TAP Discovery, SDP_REQ-56 Image Archive Metadata, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-92 VOEvent Data Model, SDP_REQ-72 Metadata Conditioning, SDP_REQ-55 ObsCore Archive Metadata,

SDP_REQ-56 Image Archive Metadata, SDP_REQ-76 Data Visualisation Client, SDP_REQ-131 Supported File Formats, SDP_REQ-82 Maintain Visualization Session,

SDP_REQ-80 Core Analysis Visualization, SDP_REQ-79 Extensible Analysis, SDP_REQ-129 View Large Datasets, SDP_REQ-128 Community Analysis,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50 SKA1-SYS_REQ-2230 Multiple timings., SDP_REQ-25 Independent Operations, SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SDP_REQ-26 Resource sharing,

SDP_REQ-31 Graceful degradation - evaluation, SDP_REQ-621 Preservation of Intermediate Data Products, SDP_REQ-622 Inform TM on Availability of Data Products, SDP_REQ-30 Graceful degradation, SDP_REQ-32 Graceful degradation - reporting, SDP_REQ-620 Graceful Error Recovery,

SDP_REQ-376 Platform management interface to LMC, SDP_REQ-382 Component system consistency, SDP_REQ-380 Scheduler Interface, SDP_REQ-378 Deployment system, SDP_REQ-379 Scheduler, SDP_REQ-375 SDP platform management, SDP_REQ-10 Observation control - status, SDP_REQ-22 Control - Data Layer, SDP_REQ-23 Control - Delivery, SDP_REQ-8 Observation control - start, SDP_REQ-6 Observation scheduling feedback, SDP_REQ-24 Control - Feedback, SDP_REQ-21 Control - Compute, SDP_REQ-9 Observation control - stop, SDP_REQ-17 Scheduling - Compute, SDP_REQ-26 Resource sharing, SDP_REQ-13 Frequency control - switch, SDP_REQ-5 Observation scheduling, SDP_REQ-19 Scheduling - Delivery, SDP_REQ-20 Scheduling - Feedback, SDP_REQ-27 Observation control - switching, SDP_REQ-18 Scheduling - Data Layer,

SDP_REQ-15 Availability - Data Layer, SDP_REQ-4 Capability availability, SDP_REQ-16 Availability - Delivery, SDP_REQ-14 Availability - Compute, SDP_REQ-12 Frequency availability,

SKA1-SYS_REQ-2546 Continuous performance monitoring., SDP_REQ-450 SDP standard pipeline products, SKA1-SYS_REQ-2280 System status.,

SDP_REQ-35 Alarms, SDP_REQ-37 Alarm latency, SKA1-SYS_REQ-2312 Alarm latency., SDP_REQ-36 Alarm timestamps,

SKA1-SYS_REQ-2742 Performance assessment, SDP_REQ-450 SDP standard pipeline products, SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2744 Quality assessment, SKA1-SYS_REQ-2743 Performance goals, SDP_REQ-48 Spectrometric performance metric, SDP_REQ-46 Radiometric performance metric, SDP_REQ-47 Polarimetric performance metric, SKA1-SYS_REQ-2347 Automated Quality Assessment., SKA1-SYS_REQ-2745 Astrometry performance metric, SKA1-SYS_REQ-2748 Polarimetric performance metric, SDP_REQ-45 Photometric performance metric, SKA1-SYS_REQ-2749 Spectrometric performance metric, SDP_REQ-44 Astrometric performance metric, SKA1-SYS_REQ-2746 Photometric performance metric, SKA1-SYS_REQ-2747 Radiometric performance metric,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2634 Calibration update rate,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2333 Continuum source finding., SKA1-SYS_REQ-2335 Stacking., SKA1-SYS_REQ-2334 Spectral line source finding., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SDP_REQ-469 Perform Science Analysis Pipeline Automatic QA, SKA1-SYS_REQ-???? Rotation Measure Synthesis, SDP_REQ-372 Early science processing capability,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SDP_REQ-532 Non-imaging Transient Post Processing, SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SDP_REQ-148 Non-imaging Transient Search Number of Beams, SDP_REQ-562 Non-imaging Transient Search Archive Products, SDP_REQ-546 Non-imaging Transient Search Output, SDP_REQ-554 Identify Multi-beam Candidates (transients), SDP_REQ-563 Merge Data from Multiple Beams (transients),

SDP_REQ-568 False Alarm Rate for Non-imaging Transients, SDP_REQ-537 Response Rate for Pulsar Alerts, SDP_REQ-541 False Alarm Rate for Pulsar Alerts, SDP_REQ-564 Response Rate for Non-imaging Transients, SDP_REQ-544 Non-imaging Transient Alerts, SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2830 SKA1_Mid Pulsar phase bin width, SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2207 Number of beams: Pulsar timing., SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timing, SKA1-SYS_REQ-2231 Pulsar timing Dispersion Measure, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2224 Frequency agility., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support., SDP_REQ-529 Pulsar Timing Precision, SDP_REQ-543 Pulsar Timing Systematic Error, SDP_REQ-542 Pulsar Timing Error Estimation, SDP_REQ-530 Pulsar Timing ToA Determinination, SDP_REQ-524 Pulsar Timing Input, SDP_REQ-534 Pulsar Timing Data Preparation, SDP_REQ-525 Pulsar Timing RFI Mitigation,

SDP_REQ-549 Dynamic Range When Averaging Pulsar Profiles, SDP_REQ-561 Average Input Data In Time To Given Significance, SDP_REQ-569 Average Input Data In Frequency, SDP_REQ-540 Average Input Data In Frequency To Given Significance,

SDP_REQ-538 Form Covariance Matrix of Residuals, SDP_REQ-550 Weighting Scheme for Pulsar Timing Model Fitting, SDP_REQ-556 Update Timing Model, SDP_REQ-555 Output of Pulsar Timing Model, NF.3 Production & Manufacturing Specifications, NF.2 Equipment & Component Specifications, NF.1 Security, NF.7 Maintenance, Test & Support, NF.5 EMC & RFI, NF.8 VLBI, NF.4 Operations, NF.6 Health, Safety & Environment,

SKA1-SYS_REQ-2478 Equipment security, SKA1-SYS_REQ-2793 Personnel security training, SKA1-SYS_REQ-2822 Information security risk assessment, SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion., SDP_REQ-360 Security requirements, SKA1-SYS_REQ-2823 Information security management for inter-organizational communications, SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting prSKA1-SYS_REQ-2570 Parts availability., SKA1-SYS_REQ-2562 Standard manufacturing tools., SKA1-SYS_REQ-2560 Design definition., SKA1-SYS_REQ-2569 Process list., SKA1-SYS_REQ-2559 Design for economic production., SKA1-SYS_REQ-2568 Parts list., SDP_REQ-363 Production and Manufacturing requirements, SKA1-SYS_REQ-2561 Manufacturing facilities., SKA1-SYS_REQ-2566 Materials list., SKA1-SYS_REQ-2571 Long lead time items., SKA1-SYS_REQ-2567 Hazardous Materials list., SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface., SKA1-SYS_REQ-2467 Electromagnetic susceptibility., SKA1-SYS_REQ-2465 Electricity network Electromagnetic Compatibility, SDP_REQ-359 EMC and RFI requirements, SKA1-SYS_REQ-2463 Self-induced RFI, SKA1-SYS_REQ-2462 Electromagnetic Radiation, SKA1-SYS_REQ-2464 Electromagnetic Compatibility Standards, SKA1-SYS_REQ-2466 EMC compatibility marking., SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

VR-4 Verification by Inspection, VR-2 Verification by Analysis, VR-5 Verification by Definition, VR-3 Verification by Demonstration, VR-1 Verification by Test,

F.2 Spectral line Imaging, F.9 Pulsar Timing Post Processing, F.11 Update Global Sky Model, F.16 Commissioning, F.1 Continuum Imaging, F.8 Non-Imaging Transient Post Processing, F.13 Regional Centre Interface, F.12 Archiving, F.6 Science Analysis, F.3 Ingest Data, F.14 SKA Archive User Interface, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.5 Drift Scan Imaging, F.15 SDP LMC, F.10 Pulsar Search Post Processing, SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2131 Transient search mode, SKA1-SYS_REQ-2216 Time resolution, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2220 Binary search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support., SDP_REQ-552 Periodicity Search Alerts, SDP_REQ-147 Periodicity Search Number of Beams, SDP_REQ-133 Periodicity Search Post Processing, SDP_REQ-558 Periodicity Search Output, SDP_REQ-527 Pulsar Search Data Input, SDP_REQ-535 Non-imaging Transient Input Data ,

SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2829 SKA1_Survey Absolute flux scale, SDP_REQ-505 Global Sky Model Update, SKA1-SYS_REQ-2825 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2824 SKA1_Low Absolute flux scale, SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime.,

SDP_REQ-613 Meta Access, SDP_REQ-286 Levels of access to the archive, SDP_REQ-270 Archive Security Traceability, SDP_REQ-609 Release Status, SDP_REQ-612 Data Product Types, SDP_REQ-274 Single Sign-On, SDP_REQ-264 Access Rules, SDP_REQ-574 Science Data Archive, SDP_REQ-610 Consistent Release State, SDP_REQ-611 User Roles,

SDP_REQ-111 RC data transfer rate, SDP_REQ-114 Analysis output storage, SDP_REQ-117 RC unexpected downtime, SDP_REQ-116 RC expected downtime, SDP_REQ-112 RC storage rate, SDP_REQ-99 User Credentials Replication, SDP_REQ-115 Metadata replication, SDP_REQ-110 RC storage capacity, SDP_REQ-113 RC analysis execution,

SKA1-SYS_REQ-2482 Accessibility, SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2352 Web interface., SKA1-SYS_REQ-2366 Distribution of data products., SKA1-SYS_REQ-2353 Virtual Observatory interface., SKA1-SYS_REQ-2354 Archive API., SKA1-SYS_REQ-2739 Levels of access to the archive,

SDP_REQ-56 Image Archive Metadata, SDP_REQ-62 Data Description, SDP_REQ-58 Data Discovery, SDP_REQ-55 ObsCore Archive Metadata, SDP_REQ-54 Archive Metadata, SDP_REQ-130 VOEvent Delivery, SDP_REQ-87 Archive Data File Formats, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-60 SIA Discovery, SDP_REQ-59 TAP Discovery, SDP_REQ-385 Web Interface,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-31 Graceful degradation - evaluation, SDP_REQ-621 Preservation of Intermediate Data Products, SDP_REQ-622 Inform TM on Availability of Data Products, SDP_REQ-30 Graceful degradation, SDP_REQ-32 Graceful degradation - reporting, SDP_REQ-620 Graceful Error Recovery,

SDP_REQ-376 Platform management interface to LMC, SDP_REQ-382 Component system consistency, SDP_REQ-380 Scheduler Interface, SDP_REQ-378 Deployment system, SDP_REQ-379 Scheduler, SDP_REQ-375 SDP platform management, SDP_REQ-10 Observation control - status, SDP_REQ-22 Control - Data Layer, SDP_REQ-23 Control - Delivery, SDP_REQ-8 Observation control - start, SDP_REQ-6 Observation scheduling feedback, SDP_REQ-24 Control - Feedback, SDP_REQ-21 Control - Compute, SDP_REQ-9 Observation control - stop, SDP_REQ-17 Scheduling - Compute, SDP_REQ-26 Resource sharing, SDP_REQ-13 Frequency control - switch, SDP_REQ-5 Observation scheduling, SDP_REQ-19 Scheduling - Delivery, SDP_REQ-20 Scheduling - Feedback, SDP_REQ-27 Observation control - switching, SDP_REQ-18 Scheduling - Data Layer,

SKA1-SYS_REQ-2742 Performance assessment, SDP_REQ-450 SDP standard pipeline products, SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2744 Quality assessment, SKA1-SYS_REQ-2743 Performance goals, SDP_REQ-48 Spectrometric performance metric, SDP_REQ-46 Radiometric performance metric, SDP_REQ-47 Polarimetric performance metric, SKA1-SYS_REQ-2347 Automated Quality Assessment., SKA1-SYS_REQ-2745 Astrometry performance metric, SKA1-SYS_REQ-2748 Polarimetric performance metric, SDP_REQ-45 Photometric performance metric, SKA1-SYS_REQ-2749 Spectrometric performance metric, SDP_REQ-44 Astrometric performance metric, SKA1-SYS_REQ-2746 Photometric performance metric, SKA1-SYS_REQ-2747 Radiometric performance metric,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2634 Calibration update rate,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2333 Continuum source finding., SKA1-SYS_REQ-2335 Stacking., SKA1-SYS_REQ-2334 Spectral line source finding., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SDP_REQ-469 Perform Science Analysis Pipeline Automatic QA, SKA1-SYS_REQ-???? Rotation Measure Synthesis, SDP_REQ-372 Early science processing capability,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SDP_REQ-568 False Alarm Rate for Non-imaging Transients, SDP_REQ-537 Response Rate for Pulsar Alerts, SDP_REQ-541 False Alarm Rate for Pulsar Alerts, SDP_REQ-564 Response Rate for Non-imaging Transients, SDP_REQ-544 Non-imaging Transient Alerts, SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2830 SKA1_Mid Pulsar phase bin width, SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2207 Number of beams: Pulsar timing., SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timing, SKA1-SYS_REQ-2231 Pulsar timing Dispersion Measure, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2224 Frequency agility., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SDP_REQ-549 Dynamic Range When Averaging Pulsar Profiles, SDP_REQ-561 Average Input Data In Time To Given Significance, SDP_REQ-569 Average Input Data In Frequency, SDP_REQ-540 Average Input Data In Frequency To Given Significance,

SKA1-SYS_REQ-2478 Equipment security, SKA1-SYS_REQ-2793 Personnel security training, SKA1-SYS_REQ-2822 Information security risk assessment, SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion., SDP_REQ-360 Security requirements, SKA1-SYS_REQ-2823 Information security management for inter-organizational communications, SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting prSKA1-SYS_REQ-2570 Parts availability., SKA1-SYS_REQ-2562 Standard manufacturing tools., SKA1-SYS_REQ-2560 Design definition., SKA1-SYS_REQ-2569 Process list., SKA1-SYS_REQ-2559 Design for economic production., SKA1-SYS_REQ-2568 Parts list., SDP_REQ-363 Production and Manufacturing requirements, SKA1-SYS_REQ-2561 Manufacturing facilities., SKA1-SYS_REQ-2566 Materials list., SKA1-SYS_REQ-2571 Long lead time items., SKA1-SYS_REQ-2567 Hazardous Materials list., SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface., SKA1-SYS_REQ-2467 Electromagnetic susceptibility., SKA1-SYS_REQ-2465 Electricity network Electromagnetic Compatibility, SDP_REQ-359 EMC and RFI requirements, SKA1-SYS_REQ-2463 Self-induced RFI, SKA1-SYS_REQ-2462 Electromagnetic Radiation, SKA1-SYS_REQ-2464 Electromagnetic Compatibility Standards, SKA1-SYS_REQ-2466 EMC compatibility marking., SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

F.2 Spectral line Imaging, F.9 Pulsar Timing Post Processing, F.11 Update Global Sky Model, F.16 Commissioning, F.1 Continuum Imaging, F.8 Non-Imaging Transient Post Processing, F.13 Regional Centre Interface, F.12 Archiving, F.6 Science Analysis, F.3 Ingest Data, F.14 SKA Archive User Interface, F.4 Real-time Calibration, F.7 Imaging Transient Search, F.5 Drift Scan Imaging, F.15 SDP LMC, F.10 Pulsar Search Post Processing, SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2131 Transient search mode, SKA1-SYS_REQ-2216 Time resolution, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2220 Binary search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2829 SKA1_Survey Absolute flux scale, SDP_REQ-505 Global Sky Model Update, SKA1-SYS_REQ-2825 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2824 SKA1_Low Absolute flux scale, SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime.,

SDP_REQ-613 Meta Access, SDP_REQ-286 Levels of access to the archive, SDP_REQ-270 Archive Security Traceability, SDP_REQ-609 Release Status, SDP_REQ-612 Data Product Types, SDP_REQ-274 Single Sign-On, SDP_REQ-264 Access Rules, SDP_REQ-574 Science Data Archive, SDP_REQ-610 Consistent Release State, SDP_REQ-611 User Roles,

SDP_REQ-111 RC data transfer rate, SDP_REQ-114 Analysis output storage, SDP_REQ-117 RC unexpected downtime, SDP_REQ-116 RC expected downtime, SDP_REQ-112 RC storage rate, SDP_REQ-99 User Credentials Replication, SDP_REQ-115 Metadata replication, SDP_REQ-110 RC storage capacity, SDP_REQ-113 RC analysis execution,

SDP_REQ-56 Image Archive Metadata, SDP_REQ-62 Data Description, SDP_REQ-58 Data Discovery, SDP_REQ-55 ObsCore Archive Metadata, SDP_REQ-54 Archive Metadata, SDP_REQ-130 VOEvent Delivery, SDP_REQ-87 Archive Data File Formats, SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-60 SIA Discovery, SDP_REQ-59 TAP Discovery, SDP_REQ-385 Web Interface,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-10 Observation control - status, SDP_REQ-22 Control - Data Layer, SDP_REQ-23 Control - Delivery, SDP_REQ-8 Observation control - start, SDP_REQ-6 Observation scheduling feedback, SDP_REQ-24 Control - Feedback, SDP_REQ-21 Control - Compute, SDP_REQ-9 Observation control - stop, SDP_REQ-17 Scheduling - Compute, SDP_REQ-26 Resource sharing, SDP_REQ-13 Frequency control - switch, SDP_REQ-5 Observation scheduling, SDP_REQ-19 Scheduling - Delivery, SDP_REQ-20 Scheduling - Feedback, SDP_REQ-27 Observation control - switching, SDP_REQ-18 Scheduling - Data Layer,

SDP_REQ-48 Spectrometric performance metric, SDP_REQ-46 Radiometric performance metric, SDP_REQ-47 Polarimetric performance metric, SKA1-SYS_REQ-2347 Automated Quality Assessment., SKA1-SYS_REQ-2745 Astrometry performance metric, SKA1-SYS_REQ-2748 Polarimetric performance metric, SDP_REQ-45 Photometric performance metric, SKA1-SYS_REQ-2749 Spectrometric performance metric, SDP_REQ-44 Astrometric performance metric, SKA1-SYS_REQ-2746 Photometric performance metric, SKA1-SYS_REQ-2747 Radiometric performance metric,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2333 Continuum source finding., SKA1-SYS_REQ-2335 Stacking., SKA1-SYS_REQ-2334 Spectral line source finding., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SDP_REQ-469 Perform Science Analysis Pipeline Automatic QA, SKA1-SYS_REQ-???? Rotation Measure Synthesis, SDP_REQ-372 Early science processing capability,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2830 SKA1_Mid Pulsar phase bin width, SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2207 Number of beams: Pulsar timing., SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timing, SKA1-SYS_REQ-2231 Pulsar timing Dispersion Measure, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2224 Frequency agility., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SKA1-SYS_REQ-2478 Equipment security, SKA1-SYS_REQ-2793 Personnel security training, SKA1-SYS_REQ-2822 Information security risk assessment, SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2504 Facilities and Equipment Intrusion., SDP_REQ-360 Security requirements, SKA1-SYS_REQ-2823 Information security management for inter-organizational communications, SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting prSKA1-SYS_REQ-2570 Parts availability., SKA1-SYS_REQ-2562 Standard manufacturing tools., SKA1-SYS_REQ-2560 Design definition., SKA1-SYS_REQ-2569 Process list., SKA1-SYS_REQ-2559 Design for economic production., SKA1-SYS_REQ-2568 Parts list., SDP_REQ-363 Production and Manufacturing requirements, SKA1-SYS_REQ-2561 Manufacturing facilities., SKA1-SYS_REQ-2566 Materials list., SKA1-SYS_REQ-2571 Long lead time items., SKA1-SYS_REQ-2567 Hazardous Materials list., SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface., SKA1-SYS_REQ-2467 Electromagnetic susceptibility., SKA1-SYS_REQ-2465 Electricity network Electromagnetic Compatibility, SDP_REQ-359 EMC and RFI requirements, SKA1-SYS_REQ-2463 Self-induced RFI, SKA1-SYS_REQ-2462 Electromagnetic Radiation, SKA1-SYS_REQ-2464 Electromagnetic Compatibility Standards, SKA1-SYS_REQ-2466 EMC compatibility marking., SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2131 Transient search mode, SKA1-SYS_REQ-2216 Time resolution, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2220 Binary search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime.,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-10 Observation control - status, SDP_REQ-22 Control - Data Layer, SDP_REQ-23 Control - Delivery, SDP_REQ-8 Observation control - start, SDP_REQ-6 Observation scheduling feedback, SDP_REQ-24 Control - Feedback, SDP_REQ-21 Control - Compute, SDP_REQ-9 Observation control - stop, SDP_REQ-17 Scheduling - Compute, SDP_REQ-26 Resource sharing, SDP_REQ-13 Frequency control - switch, SDP_REQ-5 Observation scheduling, SDP_REQ-19 Scheduling - Delivery, SDP_REQ-20 Scheduling - Feedback, SDP_REQ-27 Observation control - switching, SDP_REQ-18 Scheduling - Data Layer,

SDP_REQ-48 Spectrometric performance metric, SDP_REQ-46 Radiometric performance metric, SDP_REQ-47 Polarimetric performance metric, SKA1-SYS_REQ-2347 Automated Quality Assessment., SKA1-SYS_REQ-2745 Astrometry performance metric, SKA1-SYS_REQ-2748 Polarimetric performance metric, SDP_REQ-45 Photometric performance metric, SKA1-SYS_REQ-2749 Spectrometric performance metric, SDP_REQ-44 Astrometric performance metric, SKA1-SYS_REQ-2746 Photometric performance metric, SKA1-SYS_REQ-2747 Radiometric performance metric,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2830 SKA1_Mid Pulsar phase bin width, SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2207 Number of beams: Pulsar timing., SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timing, SKA1-SYS_REQ-2231 Pulsar timing Dispersion Measure, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2224 Frequency agility., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting prSKA1-SYS_REQ-2570 Parts availability., SKA1-SYS_REQ-2562 Standard manufacturing tools., SKA1-SYS_REQ-2560 Design definition., SKA1-SYS_REQ-2569 Process list., SKA1-SYS_REQ-2559 Design for economic production., SKA1-SYS_REQ-2568 Parts list., SDP_REQ-363 Production and Manufacturing requirements, SKA1-SYS_REQ-2561 Manufacturing facilities., SKA1-SYS_REQ-2566 Materials list., SKA1-SYS_REQ-2571 Long lead time items., SKA1-SYS_REQ-2567 Hazardous Materials list., SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface.,

SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2131 Transient search mode, SKA1-SYS_REQ-2216 Time resolution, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2220 Binary search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime.,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-10 Observation control - status, SDP_REQ-22 Control - Data Layer, SDP_REQ-23 Control - Delivery, SDP_REQ-8 Observation control - start, SDP_REQ-6 Observation scheduling feedback, SDP_REQ-24 Control - Feedback, SDP_REQ-21 Control - Compute, SDP_REQ-9 Observation control - stop, SDP_REQ-17 Scheduling - Compute, SDP_REQ-26 Resource sharing, SDP_REQ-13 Frequency control - switch, SDP_REQ-5 Observation scheduling, SDP_REQ-19 Scheduling - Delivery, SDP_REQ-20 Scheduling - Feedback, SDP_REQ-27 Observation control - switching, SDP_REQ-18 Scheduling - Data Layer,

SDP_REQ-48 Spectrometric performance metric, SDP_REQ-46 Radiometric performance metric, SDP_REQ-47 Polarimetric performance metric, SKA1-SYS_REQ-2347 Automated Quality Assessment., SKA1-SYS_REQ-2745 Astrometry performance metric, SKA1-SYS_REQ-2748 Polarimetric performance metric, SDP_REQ-45 Photometric performance metric, SKA1-SYS_REQ-2749 Spectrometric performance metric, SDP_REQ-44 Astrometric performance metric, SKA1-SYS_REQ-2746 Photometric performance metric, SKA1-SYS_REQ-2747 Radiometric performance metric,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2830 SKA1_Mid Pulsar phase bin width, SKA1-SYS_REQ-2230 Multiple timings., SKA1-SYS_REQ-2207 Number of beams: Pulsar timing., SKA1-SYS_REQ-2208 Beamformer S/N ratio: Pulsar timing, SKA1-SYS_REQ-2231 Pulsar timing Dispersion Measure, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SKA1-SYS_REQ-2224 Frequency agility., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting pr

SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface.,

SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SDP_REQ-468 Perform Non-Imaging Pipeline Automatic QA, SKA1-SYS_REQ-2205 Beamformer S/N pulsar search, SKA1-SYS_REQ-2131 Transient search mode, SKA1-SYS_REQ-2216 Time resolution, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2616 SKA1_Mid Pulsar phase binning, SKA1-SYS_REQ-2203 Number of beams: Pulsar search, SKA1-SYS_REQ-2220 Binary search, SKA1-SYS_REQ-2129 Pulsar Search Mode., SKA1-SYS_REQ-2127 Sub-Arraying., SKA1-SYS_REQ-2336 Standard pipeline products., SKA1-SYS_REQ-2738 CSP to SDP Interface, SKA1-SYS_REQ-2201 Beam-former sub-array support.,

SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime.,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting pr

SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface.,

SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime.,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting pr

SDP_REQ-358 Operational requirements, SKA1-SYS_REQ-2431 SDP to TM interface., SKA1-SYS_REQ-2827 System Availability, SKA1-SYS_REQ-???? SDP Power Cap, SKA1-SYS_REQ-2121 Australian Engineering Operations Centre, SKA1-SYS_REQ-2425 SADT to SDP interface., SKA1-SYS_REQ-2716 Telescope availability, SDP_REQ-241 SDP to INFRA interface, SKA1-SYS_REQ-2116 South African Engineering Operations Centre, SDP_REQ-242 SaDT interface, SKA1-SYS_REQ-2433 Design for SKA2 Extensibility, SKA1-SYS_REQ-2118 South African Science Processing Centre, SKA1-SYS_REQ-2650 Seismic resilience, SKA1-SYS_REQ-2834 SKA1_Mid-MeerKAT infrastructure reuse, SKA1-SYS_REQ-2123 Australian Science Processing Centre, SKA1-SYS_REQ-2432 SDP to INFRA interface.,

SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SKA1-SYS_REQ-2661 Backup archive user access conversion, SKA1-SYS_REQ-2728 Data migration design, SKA1-SYS_REQ-2350 Mirror sites., SKA1-SYS_REQ-2348 Role of science processing centres., SDP_REQ-271 Data Products, SDP_REQ-289 Archive lifetime., SKA1-SYS_REQ-2688 Data access rights, SDP_REQ-290 Secure Archive Environment, SKA1-SYS_REQ-2358 Third party data products., SKA1-SYS_REQ-2361 Archive access., SKA1-SYS_REQ-2479 Archive security, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2364 Data migration plan., SDP_REQ-57 Spectrum Archive Metadata, SDP_REQ-282 Backup Archive Retrieval, SDP_REQ-281 Backup sites, SKA1-SYS_REQ-2821 Archive, SKA1-SYS_REQ-2360 Science data product archive policy., SKA1-SYS_REQ-2660 Backup archive retrieval, SKA1-SYS_REQ-2363 Archive lifetime.,

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting pr

SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting pr

SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.SKA1-SYS_REQ-2870 SKA1_Survey VLBI spectral resolution, SKA1-SYS_REQ-2838 VLBI data sources, SKA1-SYS_REQ-2859 SKA1_Mid VLBI spectral line and time domain observation , SKA1-SYS_REQ-2847 SKA1_Mid VLBI store the time-dependent antenna weights, SKA1-SYS_REQ-2844 VLBI Processing, SKA1-SYS_REQ-2862 SKA1_Survey VLBI store the time-dependent antenna weight, SKA1-SYS_REQ-2866 SKA1_Survey VLBI relative sensitivity and coherence, SKA1-SYS_REQ-2840 VLBI equipment and eVLBI connectivity, SKA1-SYS_REQ-2851 SKA1_Mid VLBI relative sensitivity and coherence losses, SKA1-SYS_REQ-2855 SKA1_Mid VLBI spectral resolution, SKA1-SYS_REQ-2857 SKA1_Mid VLBI imaging and beamforming, SKA1-SYS_REQ-2873 SKA1_Survey VLBI spectral line and time domain observation, SKA1-SYS_REQ-2863 SKA1_Survey VLBI timestamp accuracy, SKA1-SYS_REQ-2872 SKA1_Survey VLBI imaging and beamforming, SKA1-SYS_REQ-2838 Provision of equipment for recording,

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SKA1-SYS_REQ-2621 Spectral stability, SDP_REQ-430 Flux scale, SDP_REQ-417 Calibration pipeline., SDP_REQ-445 Polarimetric performance metric, SKA1-SYS_REQ-2160 Pointing repeatability - Higher wind, SDP_REQ-500 Self-calibration loop, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2319 Closed loop calibration., SDP_REQ-536 Pulsar Timing Polarisation Calibration, SDP_REQ-424 Polarisation purity., SDP_REQ-443 Photometric performance metric, SDP_REQ-412 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2338 Calibration pipeline., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2158 Pointing repeatability., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2725 Faraday rotation DDE, SKA1-SYS_REQ-2321 Direction dependent effects., SKA1-SYS_REQ-2159 Pointing repeatability - Low wind / day time, SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2726 PAF DD

SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SDP_REQ-2 Capability Handling, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SDP_REQ-7 Observation Control, SDP_REQ-602 Invalid Input Handling - Master Controller, SDP_REQ-52 Failsafe, SDP_REQ-608 Engineering Support - Master Controller, SKA1-SYS_REQ-2355 Data product provenance., SKA1-SYS_REQ-2286 Discard previous scheduling block., SKA1-SYS_REQ-2788 Non-propagation of failures, SKA1-SYS_REQ-2126 Simultaneous operation of telescopes, SKA1-SYS_REQ-2130 Pulsar Timing Mode., SDP_REQ-51 Engineering Support, SKA1-SYS_REQ-2357 QA annotation., SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2173 MeerKAT array, SKA1-SYS_REQ-2128 Continuum and spectral line imaging mode., SDP_REQ-285 Accessibility, SDP_REQ-28 Precursor integration, SDP_REQ-29 Targets of Opportunity, SKA1-SYS_REQ-2282 Central location for data bases, SDP_REQ-1 Mode handling, SDP_REQ-11 Frequency handling, SDP_REQ-50

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

SKA1-SYS_REQ-2572 Material environmental rule compliance., SKA1-SYS_REQ-2554 Ergonomics., SKA1-SYS_REQ-2601 Shock mounting provision., SKA1-SYS_REQ-2606 Disposable item labelling., SKA1-SYS_REQ-2521 Component derating., SKA1-SYS_REQ-2513 Critical-useful-life components., SKA1-SYS_REQ-2573 Serial number., SKA1-SYS_REQ-2578 Package serial number marking., SKA1-SYS_REQ-2603 Mounting guides., SKA1-SYS_REQ-2733 Location of Emergency stop, SKA1-SYS_REQ-2516 Matching components., SKA1-SYS_REQ-2580 LRU electrostatic warnings, SKA1-SYS_REQ-2600 Secure mounting of modules., SKA1-SYS_REQ-2577 Package part number marking., SKA1-SYS_REQ-2575 Marking method., SKA1-SYS_REQ-2598 Module access., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2543 Direct fault indicators, SKA1-SYS_REQ-2584 Connector plates. All connector plates shall carry identification labels for connectors, SKA1-SYS_REQ-2509 Scope of workmanship standards., SKA1-SYS_REQ-2506 Fungus., SKA1-SYS_REQ-2604 Module labelling., SKA1-SYS_REQ-2602 Mounting pr

SKA1-SYS_REQ-2458 Clean air, SKA1-SYS_REQ-2447 Sharp metal edges., SKA1-SYS_REQ-2483 Environment protection plan., SKA1-SYS_REQ-2446 Electrical safety, SKA1-SYS_REQ-2818 Marking of machinery - safety, SKA1-SYS_REQ-2448 Stand-off and handles., SKA1-SYS_REQ-2454 Fire fighting equipment., SKA1-SYS_REQ-2439 Emergency stop., SDP_REQ-357 Health, Safety and Environmental requirements, SKA1-SYS_REQ-2456 Transient noise level., SKA1-SYS_REQ-2491 Safety., SKA1-SYS_REQ-2443 Protection from high voltages., SKA1-SYS_REQ-2451 Safety training., SKA1-SYS_REQ-2436 Safety incident recovery plan, SKA1-SYS_REQ-2790 Environmental Impact Assessment, SKA1-SYS_REQ-2445 Electrical circuit interlocks., SKA1-SYS_REQ-2435 Hazard analysis., SKA1-SYS_REQ-2481 Emergency communication, SKA1-SYS_REQ-2484 Environmental legislation and regulations., SKA1-SYS_REQ-2460 Occupational health legislation and regulations., SKA1-SYS_REQ-2500 Operating Humidity., SKA1-SYS_REQ-2820 Safety of equipment with rated voltage not exceeding 600V, SKA1-SYS_REQ-SKA1-SYS_REQ-2806 Product Assurance, SKA1-SYS_REQ-2540 Test and support equipment lifecycle costs., SKA1-SYS_REQ-2512 Best practice., SKA1-SYS_REQ-2556 Access tools., SKA1-SYS_REQ-2522 Shelf life and wear out characteristics., SKA1-SYS_REQ-2722 Availability, reliability, and maintenance plans, SKA1-SYS_REQ-2526 Maintainability budgets, SKA1-SYS_REQ-2528 Level of maintenance, SKA1-SYS_REQ-2802 Design for maintainability, SKA1-SYS_REQ-2518 High failure rate parts., SKA1-SYS_REQ-2552 Malfunction detection., SKA1-SYS_REQ-2529 Maintenance test and support equipment, SKA1-SYS_REQ-2527 Test and Repair Instructions, SKA1-SYS_REQ-2542 Training, SKA1-SYS_REQ-2544 Self-test., SDP_REQ-362 Maintenance, Test and Support requirements, SKA1-SYS_REQ-2597 Plug-in modules., SKA1-SYS_REQ-2718 Availability budgets, SKA1-SYS_REQ-2816 Design for testability, SKA1-SYS_REQ-2519 Reliability testing., SKA1-SYS_REQ-2711 Component obsolescence plan, SKA1-SYS_REQ-2538 Test and support equipment, SKA1-SYS_REQ-2517 Known failure rate parts.

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2325 Scale sensitive deconvolution, SKA1-SYS_REQ-2322 Global sky model., SDP_REQ-390 Multi-frequency synthesis imaging, SKA1-SYS_REQ-2634 Calibration update rate, SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2338 Calibration pipeline., SDP_REQ-619 Combine multiple image cubes, SKA1-SYS_REQ-2826 SKA1_Mid Abs

SDP_REQ-467 Perform Imaging Pipeline Automatic QA, SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2343 Spectral line absorption pipeline., SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2341 Spectral line emission pipeline., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range.,

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2285 Latency of TOO scheduling block initiation., SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2348 Role of science processing centres., SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2264 SKA1_Survey sub-arraying., SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2473 RFI excision, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2286 Discard previous scheduling block., SDP_REQ-437 SKA1_Survey inclusion of ASKAP., SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2197

SDP_REQ-614 Numerical Precision, SKA1-SYS_REQ-2236 SKA1_Survey configuration, SKA1-SYS_REQ-2241 Maximum available bandwidth, SKA1-SYS_REQ-2238 RF system frequency range PAF band 1, SKA1-SYS_REQ-2186 RF system sampled bandwidth band 2, SKA1-SYS_REQ-2242 SKA1_Survey digitised bandwidth, SKA1-SYS_REQ-2185 RF system sampled bandwidth band 1, SKA1-SYS_REQ-2833 SKA1_Mid inclusion of MeerKAT, SKA1-SYS_REQ-2828 SKA1_Survey Absolute flux scale, SKA1-SYS_REQ-2322 Global sky model., SKA1-SYS_REQ-2345 Slow transient pipeline., SKA1-SYS_REQ-2263 SKA1_Survey single array operation., SKA1-SYS_REQ-2319 Closed loop calibration., SKA1-SYS_REQ-2252 SKA1_Survey correlator dump period., SKA1-SYS_REQ-2250 SKA1_Survey channelisation., SKA1-SYS_REQ-2148 SKA1_Low channelisation, SKA1-SYS_REQ-2826 SKA1_Mid Absolute flux scale, SKA1-SYS_REQ-2195 SKA1_Mid channelisation, SKA1-SYS_REQ-2259 SKA1_Survey spectral dynamic range., SKA1-SYS_REQ-2178 Combined SKA1_Mid configuration, SKA1-SYS_REQ-2262 SKA1_Survey inclusion of ASKAP., SKA1-SYS_RE

Number NameC Science Data ProcessorC.1 Hardware Compute PlatformC.1.1 Compute IslandC.1.1.1 Management Compute IslandC.1.1.2 Compute NodeC.1.2 BufferC.1.3 SDP InfrastructureC.1.3.1 RacksC.1.4 Hierarchical StorageC.1.4.1 Medium Performance BufferC.1.4.2 Long Term StorageC.1.5 Interconnect SystemC.1.5.1 Low-latency network core switchC.1.5.2 Management NetworkC.1.5.3 Data Transport NetworkC.1.6 Delivery Platform HardwareC.1.7 LMC HardwareC.2 Software Compute PlatformC.2.1 Compute OS softwareC.2.2 MiddlewareC.2.2.1 Messaging LayerC.2.2.2 Logging systemC.2.2.3 Platform Management SystemC.2.2.4 System Optimisation ToolsC.2.3 Hierarchical Storage Management softwareC.2.4 Application Development Environment and SDKC.2.5 SchedulerC.3 Data LayerC.3.1 Data ManagerC.3.1.1 Data Manager interface to Pipeline ComponentsC.3.2 Data Life Cycle ManagerC.3.3 Science Archive SoftwareC.3.4 Local Database ServicesC.3.5 Ingest Data from CSP into Data LayerC.4 Pipeline ComponentsC.4.1 Processing LibraryC.4.1.1 Non-imaging processing componentsC.4.1.2 RM Synthesis ComponentC.4.1.3 Ingest ComponentsC.4.1.3.1 Flagging ComponentC.4.1.3.2 Demixing ComponentC.4.1.4 Calibration componentsC.4.1.5 Source Finding ComponentsC.4.1.6 Imaging ComponentsC.4.1.6.1 GriddingC.4.1.6.2 DeconvolutionC.4.1.6.3 FFTC.4.2 Algorithmic SoftwareC.4.3 Sky Model Use and Creation

C.4.4 QA componentsC.4.4.1 Global Sky Model QAC.5 Data Delivery PlatformC.5.2 Tiered Data Transfer ServiceC.5.2.1 LMC interface for data scheduling & reportingC.5.3 User PortalC.5.3.1 Astronomer/ Telescope Operator/ Public InterfacesC.5.4 Data Discovery ServiceC.5.4.1 IVOA Models and ServicesC.5.5 Data Visualisation ServiceC.5.6 Regional Centre InterfaceC.6 Local Monitoring and ControlC.6.1 Local Telescope ModelC.6.2 Data Flow Manager (LMC)C.6.3 QA monitoringC.6.4 User InterfacesC.6.5 Master Controller and error handlingC.6.6 Event monitoring and loggingC.6.7 Data Flow ModelsC.6.7.1 Non-imaging pipelineC.6.7.1.1 Pulsar Timing Post ProcessingC.6.7.1.2 Pulsar Search Post ProcessingC.6.7.1.3 Non-imaging transient post processingC.6.7.2 Continuum Imaging PipelineC.6.7.3 Fast Imaging (Slow Transients)C.6.7.4 Ingest PipelineC.6.7.5 Science Analysis PipelineC.6.7.5.1 Postage Stamp Source DetectionC.6.7.5.2 RM SynthesisC.6.7.6 Calibration PipelineC.6.7.7 Real-time calibration pipelineC.6.7.8 Spectral Line Imaging Pipeline

DescriptionSDP Product TreeAll hardware components within the SKA Science Data ProcessorThe basic replicatable unit of the SKA Science Data ProcessorDedicated hardware and software to facilitate efficient management of the compute island hardwareBasic replicatable unit of the compute islandHardware to buffer intermediate data to facilitate iterative processingLocal cooling, rack space and local power distribution. Interfaces with the data centre infrastructure resources.The racks to house the science data processor equipment. Includes integrated water-cooling if applicable.Hierarchical storage system for science dataPart of the Hierarchical storage.Long term storage equipment for science productsThe collection of data transport networks within the Science Data processorhardware to interconnect the internal low-latency networks present within each compute islanddedicated network to manage and control the various hardware resources within the SDP. Connects the management compute island resources as well.The data transport network responsible for the bulk data transport into and out of the compute islandsDedicated hardware for data deliveryDedicated hardware for Local Monitoring and controlThe collection of software that is required to effciently utilize and manage the hardware compute platform. Provides software services to the data layer.Operating system(s) running on SDP hardwareSoftware that provides services to other software components beyond those available from the operating system.Software that provides communication services to other software componentsSoftware component that handles the generation, collection, aggregation and analysis of system logs.Software systems to deploy, maintain and control the hardware in the Science data processorSoftware tools designed to facilitate system optimisation effortsSoftware that automates the movement of data across various storage tiersThe suite of software components that support and facilitate software developmentSoftware component responsible for hardware allocation and hardware requirements estimatesThe software system responsible for data persistence, data base and data life-cycle services as well as the pipeline frameworkDistributed software component that deals with the creation, monitoring and termination of Data Objects.

Data Manager interface to Pipeline ComponentsSoftware component that implements a rule driven system for data movement, persistence and release based on hardware parameters and policies.Software component that implements the database and query capabilities required for users to discover and retrieve released science data products.Generic database services for the SDP, including the Science Archive, the LMC and potentially source catalogues.High speed data interface between the CSP and SDP.Software components that, once executed one after the other, form a Data Processing PipelineSoftware Library of processing components and supporting softwareSoftware components for processing of voltage domain time series dataSoftware Component for RM Synthesis of Image CubesSoftware Components for the Ingest PipelineSoftware Component for Flagging of RFISoftware Component for removal of bright sources outside the FoVSoftware Components for performing the Calibration on visibility dataSoftware Compmentent for Finding Sources from Image CubesSoftware Components for transforming visibility data into image cubesSoftware Component for putting visibility data on a regular gridSoftware Component for decovolving Image CubesSoftware Component for Fast Fourier TransformationNumerical and algorithmic software libraries which are used by one or more Processing Components but which present a conventional interface, e.g., a C-like interface, rather than a dataflow interface.The Sky Model contains the (parameterized) known sky.

Software processing components for producing quality assurance summaries from the observed data, science-ready results and intermediate pipeline processing stages, and for calculating the quantitative performance metrics.Quality Assurance of the Sky Model componentsA software stack whose purpose is to enable users to search for and access data products. It includes services to tansport data to specified remote sites and to perform remote visualisation of data products. This will be deployed at SDP sites and be available to deploy other Regional Centres.Service for managing the movement of data objects to specified remote sites (e.g., Regionial Centres)Interface for LMC to request data movement using the Tiered Data Transfer Service, reporting back information from the data delivery services and for these services to be able to access Authn and AuthZ informationWeb based platform hosting user tools and services related to the data delivery subsystemWeb GUI and API interfaces to the data delivery subsystemsService to enable searching for data objects based on information describing the objects

Service that enables remote visualisation of data productsThe interface to move data to the Regional CentresProvides bridge between external monitor and control requirements and internal sub-elements.Storage of meta-data relevant to current observation. Wide variety of data is stored from static configuration information through to components of the Local Sky Model.Responsible for constructing physically realisable data flow graphs for deployment into the data layer.Aggregates and inteprets lower level QA data arriving from the various pipelines.Visual environment for presenting QA data. Allows user interaction with the metric calculations.Single instance central controller for all instantiated SDP capabilities. Main point of contact for TM.Logging, alarm and event handling services. Includes aggregation and granular control.Model describing the sequence in which Pipeline Components are to be executedVoltage domain time series processingTiming of known PulsarsPost-processing of Pulsar Search candidatesSingle Pulse / Fast TransientsContinuum Imaging PipelineReal-time continuum imaging for slow transient detectionData Reception and pre-processingScience Analysis pipelinesSource Finding componentRM-Synthesis pipelineCalibration pipeline for EoR processingReal-time calibration pipeline for feedback to CSPSpectral Line Imaging Pipeline

DecomposesI L3 Interface diagram, C Science Data Processor, C.1 Hardware Compute Platform, C.1.1 Compute Island, C.1.1 Compute Island, C.1 Hardware Compute Platform, C.1 Hardware Compute Platform, C.1.3 SDP Infrastructure, C.1 Hardware Compute Platform, C.1.4 Hierarchical Storage, C.1.4 Hierarchical Storage, C.1 Hardware Compute Platform, C.1.5 Interconnect System, C.1.5 Interconnect System, C.1.5 Interconnect System, C.1 Hardware Compute Platform, C.1 Hardware Compute Platform, C Science Data Processor, C.2 Software Compute Platform, C.2 Software Compute Platform, C.2.2 Middleware, C.2.2 Middleware, C.2.2 Middleware, C.2.2 Middleware, C.2 Software Compute Platform, C.2 Software Compute Platform, C.2 Software Compute Platform, C Science Data Processor, C.3 Data Layer, C.3.1 Data Manager, C.3 Data Layer, C.3 Data Layer, C.3 Data Layer, C.3 Data Layer, C Science Data Processor, C.4 Pipeline Components, C.4.1 Processing Library, C.4.1 Processing Library, C.4.1 Processing Library, C.4.1.3 Ingest Components, C.4.1.3 Ingest Components, C.4.1 Processing Library, C.4.1 Processing Library, C.4.1 Processing Library, C.4.1.6 Imaging Components, C.4.1.6 Imaging Components, C.4.1.6 Imaging Components, C.4 Pipeline Components, C.4 Pipeline Components,

C.4 Pipeline Components, C.4.4 QA components, C Science Data Processor, C.5 Data Delivery Platform, C.5.2 Tiered Data Transfer Service, C.5 Data Delivery Platform, C.5.3 User Portal, C.5 Data Delivery Platform, C.5.4 Data Discovery Service, C.5 Data Delivery Platform, C.5 Data Delivery Platform, C Science Data Processor, C.6 Local Monitoring and Control, C.6 Local Monitoring and Control, C.6 Local Monitoring and Control, C.6 Local Monitoring and Control, C.6 Local Monitoring and Control, C.6 Local Monitoring and Control, C.6 Local Monitoring and Control, C.6.7 Data Flow Models, C.6.7.1 Non-imaging pipeline, C.6.7.1 Non-imaging pipeline, C.6.7.1 Non-imaging pipeline, C.6.7 Data Flow Models, C.6.7 Data Flow Models, C.6.7 Data Flow Models, C.6.7 Data Flow Models, C.6.7.5 Science Analysis Pipeline, C.6.7.5 Science Analysis Pipeline, C.6.7 Data Flow Models, C.6.7 Data Flow Models, C.6.7 Data Flow Models,

Decomposed byC.6 Local Monitoring and Control, C.2 Software Compute Platform, C.1 Hardware Compute Platform, C.3 Data Layer, C.4 Pipeline Components, C.5 Data Delivery Platform, C.1.1 Compute Island, C.1.2 Buffer, C.1.3 SDP Infrastructure, C.1.5 Interconnect System, C.1.4 Hierarchical Storage, C.1.7 LMC Hardware, C.1.6 Delivery Platform Hardware, C.1.1.2 Compute Node, C.1.1.1 Management Compute Island,

C.1.3.1 Racks,

C.1.4.1 Medium Performance Buffer, C.1.4.2 Long Term Storage,

C.1.5.3 Data Transport Network, C.1.5.2 Management Network, C.1.5.1 Low-latency network core switch,

C.2.5 Scheduler, C.2.2 Middleware, C.2.4 Application Development Environment and SDK, C.2.3 Hierarchical Storage Management software, C.2.1 Compute OS software,

C.2.2.2 Logging system, C.2.2.1 Messaging Layer, C.2.2.4 System Optimisation Tools, C.2.2.3 Platform Management System,

C.3.3 Science Archive Software, C.3.4 Local Database Services, C.3.5 Ingest Data from CSP into Data Layer, C.3.2 Data Life Cycle Manager, C.3.1 Data Manager, C.3.1.1 Data Manager interface to Pipeline Components,

C.4.2 Algorithmic Software, C.4.4 QA components, C.4.3 Sky Model Use and Creation, C.4.1 Processing Library, C.4.1.3 Ingest Components, C.4.1.6 Imaging Components, C.4.1.1 Non-imaging processing components, C.4.1.2 RM Synthesis Component, C.4.1.4 Calibration components, C.4.1.5 Source Finding Components,

C.4.1.3.1 Flagging Component, C.4.1.3.2 Demixing Component,

C.4.1.6.1 Gridding, C.4.1.6.3 FFT, C.4.1.6.2 Deconvolution,

C.4.4.1 Global Sky Model QA,

C.5.4 Data Discovery Service, C.5.6 Regional Centre Interface, C.5.5 Data Visualisation Service, C.5.3 User Portal, C.5.2 Tiered Data Transfer Service, C.5.2.1 LMC interface for data scheduling & reporting,

C.5.3.1 Astronomer/ Telescope Operator/ Public Interfaces,

C.5.4.1 IVOA Models and Services,

C.6.6 Event monitoring and logging, C.6.7 Data Flow Models, C.6.2 Data Flow Manager (LMC), C.6.1 Local Telescope Model, C.6.3 QA monitoring, C.6.4 User Interfaces, C.6.5 Master Controller and error handling,

C.6.7.6 Calibration Pipeline, C.6.7.7 Real-time calibration pipeline, C.6.7.1 Non-imaging pipeline, C.6.7.3 Fast Imaging (Slow Transients), C.6.7.4 Ingest Pipeline, C.6.7.8 Spectral Line Imaging Pipeline, C.6.7.5 Science Analysis Pipeline, C.6.7.2 Continuum Imaging Pipeline, C.6.7.1.1 Pulsar Timing Post Processing, C.6.7.1.2 Pulsar Search Post Processing, C.6.7.1.3 Non-imaging transient post processing,

C.6.7.5.1 Postage Stamp Source Detection, C.6.7.5.2 RM Synthesis,

C.6 Local Monitoring and Control, C.2 Software Compute Platform, C.1 Hardware Compute Platform, C.3 Data Layer, C.4 Pipeline Components, C.5 Data Delivery Platform, C.1.1 Compute Island, C.1.2 Buffer, C.1.3 SDP Infrastructure, C.1.5 Interconnect System, C.1.4 Hierarchical Storage, C.1.7 LMC Hardware, C.1.6 Delivery Platform Hardware,

C.1.5.3 Data Transport Network, C.1.5.2 Management Network, C.1.5.1 Low-latency network core switch,

C.2.5 Scheduler, C.2.2 Middleware, C.2.4 Application Development Environment and SDK, C.2.3 Hierarchical Storage Management software, C.2.1 Compute OS software,

C.2.2.2 Logging system, C.2.2.1 Messaging Layer, C.2.2.4 System Optimisation Tools, C.2.2.3 Platform Management System,

C.3.3 Science Archive Software, C.3.4 Local Database Services, C.3.5 Ingest Data from CSP into Data Layer, C.3.2 Data Life Cycle Manager, C.3.1 Data Manager,

C.4.2 Algorithmic Software, C.4.4 QA components, C.4.3 Sky Model Use and Creation, C.4.1 Processing Library, C.4.1.3 Ingest Components, C.4.1.6 Imaging Components, C.4.1.1 Non-imaging processing components, C.4.1.2 RM Synthesis Component, C.4.1.4 Calibration components, C.4.1.5 Source Finding Components,

C.5.4 Data Discovery Service, C.5.6 Regional Centre Interface, C.5.5 Data Visualisation Service, C.5.3 User Portal, C.5.2 Tiered Data Transfer Service,

C.6.6 Event monitoring and logging, C.6.7 Data Flow Models, C.6.2 Data Flow Manager (LMC), C.6.1 Local Telescope Model, C.6.3 QA monitoring, C.6.4 User Interfaces, C.6.5 Master Controller and error handling,

C.6.7.6 Calibration Pipeline, C.6.7.7 Real-time calibration pipeline, C.6.7.1 Non-imaging pipeline, C.6.7.3 Fast Imaging (Slow Transients), C.6.7.4 Ingest Pipeline, C.6.7.8 Spectral Line Imaging Pipeline, C.6.7.5 Science Analysis Pipeline, C.6.7.2 Continuum Imaging Pipeline, C.6.7.1.1 Pulsar Timing Post Processing, C.6.7.1.2 Pulsar Search Post Processing, C.6.7.1.3 Non-imaging transient post processing,

C.4.1.3 Ingest Components, C.4.1.6 Imaging Components, C.4.1.1 Non-imaging processing components, C.4.1.2 RM Synthesis Component, C.4.1.4 Calibration components, C.4.1.5 Source Finding Components,

C.6.6 Event monitoring and logging, C.6.7 Data Flow Models, C.6.2 Data Flow Manager (LMC), C.6.1 Local Telescope Model, C.6.3 QA monitoring, C.6.4 User Interfaces, C.6.5 Master Controller and error handling,

C.6.7.6 Calibration Pipeline, C.6.7.7 Real-time calibration pipeline, C.6.7.1 Non-imaging pipeline, C.6.7.3 Fast Imaging (Slow Transients), C.6.7.4 Ingest Pipeline, C.6.7.8 Spectral Line Imaging Pipeline, C.6.7.5 Science Analysis Pipeline, C.6.7.2 Continuum Imaging Pipeline,

Asset N

ame

F SDP L1

Functi

ons

F.10 Pulsa

r Search

Post Pro

cessi

ng

F.3 In

gest

Data

F.1 Contin

uum Imagin

g

F.6 Sc

ience Analy

sis

F.2 Sp

ectral li

ne Imag

ing

F.12 Arch

iving

F.7 Im

aging T

ransient S

earch

C Science Data Processor XC.1 Hardware Compute Platform X X X X X X XC.1.1 Compute Island X XC.1.1.1 Management Compute IslandC.1.1.2 Compute NodeC.1.2 BufferC.1.3 SDP InfrastructureC.1.3.1 RacksC.1.4 Hierarchical StorageC.1.4.1 Medium Performance BufferC.1.4.2 Long Term StorageC.1.5 Interconnect System X X X X XC.1.5.1 Low-latency network core switchC.1.5.2 Management NetworkC.1.5.3 Data Transport NetworkC.1.6 Delivery Platform HardwareC.1.7 LMC HardwareC.2 Software Compute Platform X X X X X X XC.2.1 Compute OS software X X XC.2.2 Middleware XC.2.2.1 Messaging LayerC.2.2.2 Logging systemC.2.2.3 Platform Management SystemC.2.2.4 System Optimisation ToolsC.2.3 Hierarchical Storage Management software X XC.2.4 Application Development Environment and SDKC.2.5 SchedulerC.3 Data Layer X X X X X X XC.3.1 Data ManagerC.3.1.1 Data Manager interface to Pipeline ComponentsC.3.2 Data Life Cycle ManagerC.3.3 Science Archive SoftwareC.3.4 Local Database ServicesC.3.5 Ingest Data from CSP into Data LayerC.4 Pipeline Components X X X X X XC.4.1 Processing LibraryC.4.1.1 Non-imaging processing components

C.4.1.2 RM Synthesis ComponentC.4.1.3 Ingest ComponentsC.4.1.3.1 Flagging ComponentC.4.1.3.2 Demixing ComponentC.4.1.4 Calibration componentsC.4.1.5 Source Finding ComponentsC.4.1.6 Imaging ComponentsC.4.1.6.1 GriddingC.4.1.6.2 DeconvolutionC.4.1.6.3 FFTC.4.2 Algorithmic SoftwareC.4.3 Sky Model Use and CreationC.4.4 QA componentsC.4.4.1 Global Sky Model QAC.5 Data Delivery PlatformC.5.2 Tiered Data Transfer ServiceC.5.2.1 LMC interface for data scheduling & reportingC.5.3 User PortalC.5.3.1 Astronomer/ Telescope Operator/ Public InterfacesC.5.4 Data Discovery ServiceC.5.4.1 IVOA Models and ServicesC.5.5 Data Visualisation ServiceC.5.6 Regional Centre InterfaceC.6 Local Monitoring and Control X X XC.6.1 Local Telescope ModelC.6.2 Data Flow Manager (LMC)C.6.3 QA monitoringC.6.4 User InterfacesC.6.5 Master Controller and error handlingC.6.6 Event monitoring and loggingC.6.7 Data Flow Models X X XC.6.7.1 Non-imaging pipelineC.6.7.1.1 Pulsar Timing Post ProcessingC.6.7.1.2 Pulsar Search Post Processing XC.6.7.1.3 Non-imaging transient post processingC.6.7.2 Continuum Imaging Pipeline XC.6.7.3 Fast Imaging (Slow Transients) XC.6.7.4 Ingest PipelineC.6.7.5 Science Analysis PipelineC.6.7.5.1 Postage Stamp Source DetectionC.6.7.5.2 RM SynthesisC.6.7.6 Calibration PipelineC.6.7.7 Real-time calibration pipelineC.6.7.8 Spectral Line Imaging Pipeline

F.6 Sc

ience Analy

sis

F.2 Sp

ectral li

ne Imag

ing

F.12 Arch

iving

F.7 Im

aging T

ransient S

earch

F.8 Non-Im

aging T

ransient P

ost Pro

cessi

ng

F.5 Drif

t Sca

n Imag

ing

F.9 Pulsa

r Tim

ing Post

Proce

ssing

F.4 Real-t

ime Calib

ration

F.11 Update Global S

ky M

odel

F.8.4 Candidate

Selecti

on

F.8.5 Candidate

Classif

icatio

n

F.9.3 Pulsa

r Tim

ing Model F

itting

F.2.13 Exe

cute sp

ectral

line pipelin

e

F.9.2 Pulsa

r Tim

ing Data

Preparation

F.1.9 Exe

cute co

ntinuum pipelin

e

F.3.11 Exe

cute In

gest

Pipeline

F.10.1 Perio

dicity

Search

Post Pro

cessi

ng

F.12.1.3 Data

Laye

r Servi

ces

F.9.1 Pulsa

r Tim

ing ToA Determ

ination

F.8.6 Alert

Generator

F.8.2 M

erge SP

OCLDs f

rom m

ultiple beams

F.8.3 Generatio

n and extracti

on of candidate

heuristic

s

F.12.2 Pro

duct Inge

st

F.1.11 Contin

uum pipeline data

transp

ort

F.12.1.4 M

onitorin

g

F.2.8 Sp

ectral li

ne pipeline buffe

ring

F.3.2 Rece

ive an

d buffer (

u,v) data

F.1.10 Contin

uum pipeline buffe

ring

F.12.1.2 Hierar

chica

l Sto

rage M

anag

ement

F.14 SK

A Archive

User In

terface

X X X X XX X X X X X X X X X X X X X X X X X X

X X X

X

X X X X X X X X

X

X X X X XX X X X X X X X X X X X X X X X

X X X X X X X X

X X

X X X X X X X X XX X X

X XX

XX X X X X

X X X X X X X X X

X

X X X X

X

X X X

X X X X X

X

X

X

F.8.3 Generatio

n and extracti

on of candidate

heuristic

s

F.1.11 Contin

uum pipeline data

transp

ort

F.2.8 Sp

ectral li

ne pipeline buffe

ring

F.3.2 Rece

ive an

d buffer (

u,v) data

F.1.10 Contin

uum pipeline buffe

ring

F.12.1.2 Hierar

chica

l Sto

rage M

anag

ement

F.14 SK

A Archive

User In

terface

F.15.3.2 Q

A Visualisa

tion

F.15.3 Q

uality

Assuran

ce

F.13 Regio

nal Centre

Interfa

ce

F.15.2 M

onitorin

g

F.15.4 Lo

cal T

elescope M

odel

F.15.1 Contro

l

F.15.2.4 Health

State

F.2.9 Sp

ectral li

ne pipeline data

transp

ort

F.12.3 Arch

ive Acce

ss

F.3.5 M

erge M

etadata

from TM

F.15.3.1 Pipelin

e Metri

c Colle

ction

F.12.1.1 Data

Life Cyc

le Control

F.12.1 Data

Laye

r Manag

ement

F.15.3.3 Q

A Control

F.2.10 Posta

ge St

amp Selecti

on

F.2.7 Sp

ectral L

ine Source

Finding

F.2.5 In

itial C

alibrat

ion (high

spectr

al reso

lution)

F.1.1 RFI

flagg

ing and exci

sion

F.1.3 Fo

rward

Estimate

F.1.2 St

ore LSM

F.2.11 Contin

uum Subtra

ction

F.2.6 Calib

ration (h

igh sp

ectral

resolutio

n)

F.13.1 Data

distrib

ution polic

y

F.8.1 Arch

ive Transie

nt Searc

h Candidates

F.3.3 Han

dle miss

ing and out o

f ord

er pac

kets

F.3.6 St

rong s

ource re

moval

X X X X X X X X

X

X X X X X X X X X X XX X X X X X

X XX X X X X X X X X X XX X X X X X X X X X X X

XX

X

X X XX

X XX

X X

X X X X X X XX X

X X

X

X

X X

X X XX

X X XX X

X

X

XX

X

X X XXX

F.2.6 Calib

ration (h

igh sp

ectral

resolutio

n)

F.13.1 Data

distrib

ution polic

y

F.8.1 Arch

ive Transie

nt Searc

h Candidates

F.3.3 Han

dle miss

ing and out o

f ord

er pac

kets

F.3.6 St

rong s

ource re

moval

F.3.7 Rece

ive an

d Apply Initia

l Calib

ration (o

ptional)

F.3.8 Phas

e Rotation

F.3.1 In

tegrate in

time and fr

equency

F.3.9 Parti

al ga

ther a

nd tran

spose

F.1.6 Calib

ration

F.1.5 In

itial C

alibrat

ion (ave

raged data)

F.1.12 Contin

uum Source

Finding

F.6.3 So

urce Fi

nding

F.1.7 Im

age Plan

e Spectr

al Ave

raging

F.1.4 Deco

nvolutio

n

F.14.4 Deliv

er Data

to end user

F.14.1 Authentic

ate and Authoris

e

F.14.3 Request

Data Deliv

ery

F.14.2 Disc

over D

ata

F.14.5 Visu

alise

data

F.13.2 Bulk

Data Tran

sfer

F.15 SD

P LMC

F.15.4.1 In

gest

Metadata

F.15.4.4 Si

mulate Telesco

pe Model

F.15.4.5 Han

dle Transa

ctions

F.15.4.3 Se

rialise

Model

F.15.4.2 M

aintai

n Telesco

pe Model

F.15.1.2 M

anage

Data Flo

w Graphs

F.15.1.4 Su

b-element Contro

l

F.15.1.5 O

bserva

tion Contro

l

F.15.1.3 Power C

ontrol

X X X X

X XX X

X

X

X X X X X X XX

X

X X

X

XX

XX X X X X

X

X X X X X X

X X

X

X X

F.15.4.2 M

aintai

n Telesco

pe Model

F.15.1.2 M

anage

Data Flo

w Graphs

F.15.1.4 Su

b-element Contro

l

F.15.1.5 O

bserva

tion Contro

l

F.15.1.3 Power C

ontrol

F.15.1.6 O

bserva

tion Si

mulation

F.15.1.1 M

anage

LMC In

stance

s

F.15.1.8 LM

C Self T

est

F.15.1.7 Rece

ive obse

rvatio

n config

uration

F.7.2 Generate Alert

for Transie

nts

F.15.2.3 Eve

nt Han

dling

F.15.2.1 M

onitorin

g Data

Collecti

on

F.15.2.2 Centra

l Logg

ing

F.3.10 Sp

ecify I

ngest

Pipeline

F.2.12 Sp

ecify s

pectral

line pipelin

e

F.1.8 Sp

ecify c

ontinuum pipelin

e

X X X XX X X X

X X X

X

X

X

Action N

ame

SKA1-SY

S_REQ-2259 SK

A1_Surve

y spectr

al dyn

amic

range.

SKA1-SY

S_REQ-2319 Close

d loop ca

librat

ion.

SDP_REQ-386 Contin

uum imagin

g pipelin

e

SKA1-SY

S_REQ-2338 Cali

bration pipelin

e.

SKA1-SY

S_REQ-2250 SK

A1_Surve

y channelisa

tion.

SKA1-SY

S_REQ-2188 RF s

ystem sa

mpled bandwidth ban

d 4

SKA1-SY

S_REQ-2195 SK

A1_Mid channelisa

tion

SDP_REQ-392 Peelin

g

SKA1-SY

S_REQ-2330 Peelin

g.

SKA1-SY

S_REQ-2340 Contin

uum imagin

g data

products

.

SKA1-SY

S_REQ-2826 SK

A1_Mid Absolute flu

x sca

le

SKA1-SY

S_REQ-2262 SK

A1_Surve

y inclu

sion of A

SKAP.

SKA1-SY

S_REQ-2256 SK

A1_Surve

y imagin

g dyn

amic

range

.

F SDP L1 FunctionsF.1 Continuum Imaging X X X X X X X X X X X X XF.1.1 RFI flagging and excisionF.1.1.1 Determine spatial filter weightsF.1.1.2 Apply Spatial filterF.1.1.3 Determine RFI detection threshholdF.1.2 Store LSMF.1.3 Forward EstimateF.1.4 DeconvolutionF.1.4.1 Apply t-f flaggerF.1.4.2 Subtract Component in Image PlaneF.1.4.3 Identify ComponentF.1.4.4 iFFTF.1.4.5 De-griddingF.1.4.6 Subtract from uv-dataF.1.4.7 GriddingF.1.4.8 FFTF.1.4.9 Major Cycle LoopF.1.5 Initial Calibration (averaged data)F.1.6 Calibration X X X X X XF.1.6.1 SolveF.1.6.2 PredictF.1.6.3 Subtract (calibration)F.1.6.4 Flag (calibration)F.1.6.5 CorrectF.1.7 Image Plane Spectral AveragingF.1.8 Specify continuum pipelineF.1.9 Execute continuum pipelineF.1.10 Continuum pipeline bufferingF.1.11 Continuum pipeline data transportF.1.12 Continuum Source FindingF.1.12.1 Fast Point Source DetectionF.2 Spectral line Imaging X X X X X X X XF.2.5 Initial Calibration (high spectral resolution)

F.2.6 Calibration (high spectral resolution)F.2.7 Spectral Line Source FindingF.2.8 Spectral line pipeline bufferingF.2.9 Spectral line pipeline data transportF.2.10 Postage Stamp SelectionF.2.10.1 uv Plane AveragingF.2.10.2 Phase RotationF.2.11 Continuum SubtractionF.2.12 Specify spectral line pipelineF.2.13 Execute spectral line pipelineF.3 Ingest Data X X X X X X XF.3.1 Integrate in time and frequencyF.3.1.1 Send (u,v) data to Calibration functionF.3.1.2 CompressF.3.1.3 Integrate in time and frequency (base-line dependant)F.3.1.4 Transpose, reorderF.3.2 Receive and buffer (u,v) dataF.3.2.1 Buffer (u,v) data ~0.5sF.3.2.2 Receive (u,v) data from CSPF.3.3 Handle missing and out of order packetsF.3.3.1 Detect missing packetsF.3.3.2 Order (u,v) data over timeF.3.5 Merge Metadata from TMF.3.5.1 Input Metadata from TMF.3.5.2 Merge missing packet info with TM metadataF.3.6 Strong source removalF.3.7 Receive and Apply Initial Calibration (optional)F.3.8 Phase RotationF.3.9 Partial gather and transposeF.3.9.1 transpose dataF.3.9.2 Combine time, frequency channels, baselines & polarisationF.3.10 Specify Ingest PipelineF.3.11 Execute Ingest PipelineF.4 Real-time Calibration X XF.5 Drift Scan ImagingF.6 Science Analysis XF.6.1 Input Data Conditioning for Science AnalysisF.6.1.1 Imaging Cube GriddingF.6.1.2 Image Processing CadenceF.6.2 Source AnalysisF.6.2.1 Rotation Measure SynthesisF.6.2.2 Spectral Line Profile Determination (delete)F.6.2.3 Spectral Index Determination (delete)F.6.3 Source FindingF.6.3.1 Point Source DetectionF.6.3.2 Spectral Line Source DetectionF.6.3.3 Extended Source DetectionF.6.4 StackingF.6.4.1 Continuum StackingF.6.4.2 H1 Stacking

F.7 Imaging Transient Search X X X X X X X XF.7.2 Generate Alert for TransientsF.8 Non-Imaging Transient Post ProcessingF.8.1 Archive Transient Search CandidatesF.8.2 Merge SPOCLDs from multiple beamsF.8.3 Generation and extraction of candidate heuristicsF.8.4 Candidate SelectionF.8.5 Candidate ClassificationF.8.6 Alert GeneratorF.9 Pulsar Timing Post ProcessingF.9.1 Pulsar Timing ToA DeterminationF.9.2 Pulsar Timing Data PreparationF.9.2.1 Data Receptor (Pulsar Timing)F.9.2.2 RFI mitigationF.9.2.3 CalibrationF.9.2.4 AveragingF.9.2.5 Archive products generatedF.9.2.6 Data Receptor (Pulsar Search)F.9.2.7 Data Receptor (Non-Imaging Transient Search)F.9.3 Pulsar Timing Model FittingF.9.3.1 Generate ResidualF.9.3.2 Append residuals to update modelF.10 Pulsar Search Post ProcessingF.10.1 Periodicity Search Post Processing F.10.1.1 Merge OCLDs from multiple beamsF.10.1.6 Archive Periodicity Search CandidatesF.11 Update Global Sky Model XF.12 ArchivingF.12.1 Data Layer ManagementF.12.1.1 Data Life Cycle ControlF.12.1.1.1 AggregationF.12.1.1.2 Replication of Data ObjectsF.12.1.1.3 MigrationF.12.1.1.4 RetirementF.12.1.2 Hierarchical Storage ManagementF.12.1.2.1 Transaction ManagementF.12.1.2.2 BufferingF.12.1.2.3 Data Product StorageF.12.1.2.4 Database AccessF.12.1.3 Data Layer ServicesF.12.1.3.1 Special Purpose FunctionsF.12.1.3.2 Raw Data ReceptionF.12.1.3.3 Aborting/ResettingF.12.1.4 MonitoringF.12.1.4.1 Load MeasurementF.12.1.4.2 Status ReportingF.12.1.4.3 AlertingF.12.2 Product IngestF.12.2.1 IndexingF.12.2.2 Branding/Provenance

F.12.3 Archive AccessF.12.3.1 Metadata ServiceF.12.3.2 Data Product ServiceF.12.3.3 Access ControlF.13 Regional Centre InterfaceF.13.1 Data distribution policyF.13.1.1 Maintain remote productsF.13.1.1.1 Analyse DataF.13.1.1.2 Delete Remote ProductsF.13.1.1.3 Update Remote ProductsF.13.2 Bulk Data TransferF.13.2.1 WAN InterfaceF.13.2.2 Receive Data at Regional CentreF.13.2.3 Schedule data deliveryF.13.2.3.1 Check previous deliveriesF.13.2.3.2 Check Data Transfer budgetF.13.2.3.3 Prioritise data for deliveryF.13.2.4 Send data to Regional CentreF.13.2.5 Log Receiving dataF.14 SKA Archive User InterfaceF.14.1 Authenticate and AuthoriseF.14.1.1 Authorise UserF.14.1.1.1 Authorise User (Service)F.14.1.1.2 Authorise User (Client)F.14.1.2 Authenticate UserF.14.1.2.1 Authenticate User (Client)F.14.1.2.2 Authenticate User (Service)F.14.1.3 Maintain User CredentialsF.14.1.3.1 Maintain User Credentials (Client)F.14.1.3.2 Maintain User Credentials (Service)F.14.1.3.3 Associate IdentitiesF.14.1.4 Maintain user-defined groupsF.14.2 Discover DataF.14.2.1 Visualise Query ResultsF.14.2.2 Select Data Products For TransferF.14.2.3 Query Authorised DataF.14.2.4 Filter By AuthorisationF.14.2.5 Select DestinationF.14.2.6 Query Authorised MetadataF.14.2.6.1 Append Authorisation Parameters to QueryF.14.2.6.2 Query Metadata (Client)F.14.2.6.3 Query Metadata (Service)F.14.2.7 Condition metadataF.14.3 Request Data DeliveryF.14.4 Deliver Data to end userF.14.4.1 Transfer Data to End UserF.14.5 Visualise dataF.14.5.1 Share Visualisation SessionF.14.5.2 View Data with Core FunctionalityF.14.5.3 View Data with Core analysis

F.14.5.4 Annotate Archive DataF.14.5.5 Automate Science analysisF.14.5.6 Produce Science Analysis ProductsF.14.5.7 Log Data AccessF.14.5.8 Customise Visualisation EnvironmentF.14.5.8.1 Customise User Display DefaultsF.14.5.8.2 Customise Visualisation DisplayF.15 SDP LMCF.15.1 Control XF.15.1.1 Manage LMC InstancesF.15.1.2 Manage Data Flow GraphsF.15.1.2.1 Manage Data Flow ModelsF.15.1.2.2 Component ProfilingF.15.1.2.3 Hardware Resource AvailabilityF.15.1.2.4 Construct Physical Data Flow GraphF.15.1.3 Power ControlF.15.1.3.1 Read Standby ConfigurationF.15.1.3.2 Graceful ShutdownF.15.1.3.3 Emergency ShutdownF.15.1.4 Sub-element ControlF.15.1.5 Observation ControlF.15.1.5.1 Observation Runtime EstimationF.15.1.5.2 Observation Resource EstimationF.15.1.6 Observation SimulationF.15.1.7 Receive observation configurationF.15.1.8 LMC Self TestF.15.2 MonitoringF.15.2.1 Monitoring Data CollectionF.15.2.2 Central LoggingF.15.2.3 Event HandlingF.15.2.3.1 Handle AlarmsF.15.2.3.2 Event NotificationF.15.2.3.3 Event AggregationF.15.2.4 Health StateF.15.3 Quality AssuranceF.15.3.2 QA VisualisationF.15.3.2.1 Client side renderingF.15.3.2.2 Server side renderingF.15.3.3 QA ControlF.15.4 Local Telescope ModelF.15.4.1 Ingest MetadataF.15.4.2 Maintain Telescope ModelF.15.4.2.1 Validate Telescope ModelF.15.4.2.2 Update Telescope ModelF.15.4.3 Serialise ModelF.15.4.4 Simulate Telescope ModelF.15.4.5 Handle TransactionsF.16 CommissioningF.18.1 Simulation

SKA1-SY

S_REQ-2250 SK

A1_Surve

y channelisa

tion.

SKA1-SY

S_REQ-2188 RF s

ystem sa

mpled bandwidth ban

d 4

SKA1-SY

S_REQ-2195 SK

A1_Mid channelisa

tion

SKA1-SY

S_REQ-2330 Peelin

g.

SKA1-SY

S_REQ-2340 Contin

uum imagin

g data

products

.

SKA1-SY

S_REQ-2826 SK

A1_Mid Absolute flu

x sca

le

SKA1-SY

S_REQ-2262 SK

A1_Surve

y inclu

sion of A

SKAP.

SKA1-SY

S_REQ-2256 SK

A1_Surve

y imagin

g dyn

amic

range

.

SKA1-SY

S_REQ-2127 Su

b-Arra

ying.

SKA1-SY

S_REQ-2142 SK

A1_Low number o

f stat

ions.

SKA1-SY

S_REQ-2189 RF s

ystem sa

mpled bandwidth ban

d 5

SKA1-SY

S_REQ-2134 Electr

omagnetic

frequency

range

.

SKA1-SY

S_REQ-2322 Global

sky m

odel.

SKA1-SY

S_REQ-2724 Apertu

re Array D

DE

SKA1-SY

S_REQ-2321 Dire

ction dependent e

ffects

.

SKA1-SY

S_REQ-2263 SK

A1_Surve

y single

array o

peration.

SDP_REQ-467 Perfo

rm Im

aging P

ipeline Automati

c QA

SKA1-SY

S_REQ-2242 SK

A1_Surve

y digi

tised ban

dwidth

SKA1-SY

S_REQ-2186 RF s

ystem sa

mpled bandwidth ban

d 2

SKA1-SY

S_REQ-2185 RF s

ystem sa

mpled bandwidth ban

d 1

SKA1-SY

S_REQ-2833 SK

A1_Mid inclu

sion of M

eerKAT

SKA1-SY

S_REQ-??

?? M

osiack

ing

SKA1-SY

S_REQ-2634 Cali

bration update

rate

SKA1-SY

S_REQ-2339 Contin

uum imagin

g pipelin

e.

SKA1-SY

S_REQ-2239 RF s

ystem fr

equency ra

nge PAF b

and 2

SKA1-SY

S_REQ-2252 SK

A1_Surve

y corre

lator d

ump period.

SKA1-SY

S_REQ-2148 SK

A1_Low ch

annelisa

tion

SDP_REQ-619 Combine m

ultiple im

age cu

bes

SKA1-SY

S_REQ-2745 Astr

ometry perfo

rmance

metri

c

SKA1-SY

S_REQ-2829 SK

A1_Surve

y Abso

lute flux s

cale

SKA1-SY

S_REQ-2174 Combined SK

A1_Mid config

uration.

SKA1-SY

S_REQ-2328 So

lution fo

r pointin

g erro

rs.

SKA1-SY

S_REQ-2153 Diameter

SKA1-SY

S_REQ-2128 Contin

uum and spectr

al line im

aging m

ode.

SKA1-SY

S_REQ-2266 SK

A1_Surve

y PAF r

otation.

X X X X X X X X X X X X X X X X X X X X X X X X X X X

X X X X X X X X

X X X X X X X X X X X X X X X X X X X X X X

X X X X X X X X X X X X X X X X X

X X

X X X X X X X X X X X X X X X X X X

X

X X

X X

X

X X X XX

SKA1-SY

S_REQ-2239 RF s

ystem fr

equency ra

nge PAF b

and 2

SKA1-SY

S_REQ-2252 SK

A1_Surve

y corre

lator d

ump period.

SDP_REQ-619 Combine m

ultiple im

age cu

bes

SKA1-SY

S_REQ-2745 Astr

ometry perfo

rmance

metri

c

SKA1-SY

S_REQ-2829 SK

A1_Surve

y Abso

lute flux s

cale

SKA1-SY

S_REQ-2174 Combined SK

A1_Mid config

uration.

SKA1-SY

S_REQ-2328 So

lution fo

r pointin

g erro

rs.

SKA1-SY

S_REQ-2153 Diameter

SKA1-SY

S_REQ-2128 Contin

uum and spectr

al line im

aging m

ode.

SKA1-SY

S_REQ-2266 SK

A1_Surve

y PAF r

otation.

SDP_REQ-372 Earl

y scie

nce pro

cessi

ng cap

ability

SKA1-SY

S_REQ-2178 Combined SK

A1_Mid config

uration

SKA1-SY

S_REQ-2725 Fa

raday ro

tation DDE

SKA1-SY

S_REQ-2727 Dish

DDE

SKA1-SY

S_REQ-2825 SK

A1_Mid Absolute flu

x sca

le

SKA1-SY

S_REQ-2173 M

eerKAT arra

y

SKA1-SY

S_REQ-2726 PAF D

DE

SKA1-SY

S_REQ-2165 Polar

isatio

n Purity

SKA1-SY

S_REQ-2324 M

ulti-fre

quency sy

nthesis im

aging.

SKA1-SY

S_REQ-2238 RF s

ystem fr

equency ra

nge PAF b

and 1

SKA1-SY

S_REQ-2241 M

axim

um availa

ble bandwidth

SKA1-SY

S_REQ-2236 SK

A1_Surve

y config

uration

SDP_REQ-614 N

umerical

Precision

SKA1-SY

S_REQ-2325 Sc

ale sensit

ive deco

nvolutio

n

SKA1-SY

S_REQ-2240 RF s

ystem fr

equency ra

nge PAF b

and 3

SDP_REQ-390 M

ulti-fre

quency sy

nthesis im

aging

SKA1-SY

S_REQ-2187 RF s

ystem sa

mpled bandwidth ban

d 3

SKA1-SY

S_REQ-2729 Cali

bration and Im

aging f

ormalism

SKA1-SY

S_REQ-2828 SK

A1_Surve

y Abso

lute flux s

cale

SKA1-SY

S_REQ-2247 SK

A1_Surve

y number o

f beams.

SDP_REQ-278 Lo

cal sk

y model

SKA1-SY

S_REQ-2147 In

stantan

eous bandwidth.

SKA1-SY

S_REQ-2140 SK

A1_Low st

ation diameter

SDP_REQ-525 Pulsa

r Tim

ing RFI

Mitigatio

n

SDP_REQ-476 Fl

ag RFI

SDP_REQ-477 Exci

se RFI

SDP_REQ-490 Data

Quali

ty

X X X X X X X X X X X X X X X X X X X X X X XX X X X

X

X X X X X X X X X X

X X X X X X X X X X X X X X X X X X X X

X X X X X X X X X X X X X X

XX

X X

X X X X X X X X X X X X X X X X X

X

X

X X

X

SKA1-SY

S_REQ-2187 RF s

ystem sa

mpled bandwidth ban

d 3

SKA1-SY

S_REQ-2729 Cali

bration and Im

aging f

ormalism

SKA1-SY

S_REQ-2828 SK

A1_Surve

y Abso

lute flux s

cale

SKA1-SY

S_REQ-2247 SK

A1_Surve

y number o

f beams.

SKA1-SY

S_REQ-2147 In

stantan

eous bandwidth.

SKA1-SY

S_REQ-2140 SK

A1_Low st

ation diameter

SDP_REQ-525 Pulsa

r Tim

ing RFI

Mitigatio

n

SDP_REQ-476 Fl

ag RFI

SDP_REQ-477 Exci

se RFI

SDP_REQ-490 Data

Quali

ty

SDP_REQ-488 Fl

ag Li

ghtning

SDP_REQ-487 Fl

ag Data

SDP_REQ-495 Sp

atial F

ilter W

eights

SDP_REQ-491 Sp

atial F

ilterin

g

SDP_REQ-486 Determ

ine RFI Thresh

old

SDP_REQ-489 Cova

riance

Matri

ces

SDP_REQ-478 Detect

RFI

SDP_REQ-504 Sc

ale sensit

ive deco

nvolutio

n

SDP_REQ-403 Deco

nvolutio

n

SDP_REQ-397 Im

ager

SDP_REQ-447 M

ajor a

nd minor d

econvo

lution cy

cles

SDP_REQ-402 Fo

urier T

ransform

Algorit

hm

SDP_REQ-401 A-ke

rnel

SDP_REQ-399 Anti-

aliasin

g kern

el

SDP_REQ-400 w

-kern

el

SDP_REQ-398 Grid

ding & de-gr

idding

SDP_REQ-396 LS

M subtra

ction

SDP_REQ-417 Cali

bration pipelin

e.

SDP_REQ-424 Polar

isatio

n purity.

SDP_REQ-466 Perfo

rm Cali

bration Pipelin

e Automatic Q

A

SDP_REQ-412 SK

A1_Surve

y spectr

al dyn

amic

range.

SKA1-SY

S_REQ-2158 Pointin

g repeata

bility.

SKA1-SY

S_REQ-2160 Pointin

g repeata

bility -

Higher w

ind

SKA1-SY

S_REQ-2159 Pointin

g repeata

bility -

Low w

ind / day t

ime

SKA1-SY

S_REQ-2824 SK

A1_Low Abso

lute flux s

cale

SDP_REQ-446 Sp

ectrometri

c perfo

rman

ce m

etric

SDP_REQ-430 Fl

ux sca

le

X X

X XX X X

X X X X

XX

XX X X X

XX X X X

XX

XX X X X X X X X X X

X

X

X

X

SDP_REQ-466 Perfo

rm Cali

bration Pipelin

e Automatic Q

A

SDP_REQ-412 SK

A1_Surve

y spectr

al dyn

amic

range.

SKA1-SY

S_REQ-2158 Pointin

g repeata

bility.

SKA1-SY

S_REQ-2160 Pointin

g repeata

bility -

Higher w

ind

SKA1-SY

S_REQ-2159 Pointin

g repeata

bility -

Low w

ind / day t

ime

SKA1-SY

S_REQ-2824 SK

A1_Low Abso

lute flux s

cale

SDP_REQ-446 Sp

ectrometri

c perfo

rman

ce m

etric

SDP_REQ-430 Fl

ux sca

le

SDP_REQ-445 Polar

imetri

c perfo

rmance

metri

c

SDP_REQ-500 Se

lf-cali

bration lo

op

SDP_REQ-442 Astr

ometric p

erform

ance m

etric

SDP_REQ-443 Photometri

c perfo

rmance

metri

c

SKA1-SY

S_REQ-2629 St

ation beam

stabilit

y

SDP_REQ-437 SK

A1_Surve

y inclu

sion of A

SKAP.

SDP_REQ-536 Pulsa

r Tim

ing Polaris

ation Cali

bration

SDP_REQ-553 Pulsa

r Tim

ing Flux C

alibratio

n

SKA1-SY

S_REQ-2621 Sp

ectral

stabilit

y

SDP_REQ-441 Automated Q

uality

Assessm

ent.

SKA1-SY

S_REQ-2635 Real

time ca

librat

ion

SDP_REQ-444 Radiometri

c perfo

rman

ce m

etric

SDP_REQ-498 Fi

t model p

arameters

SDP_REQ-501 Predict

visib

ilities

SDP_REQ-497 Su

btract

(calib

ration)

SDP_REQ-503 Fl

ag (c

alibratio

n)

SDP_REQ-499 Corre

ct

SDP_REQ-405 Im

age plan

e averag

ing 2

SDP_REQ-404 Im

age plan

e spectr

al ave

raging

SDP_REQ-618 Tran

fer image

s fro

m arch

ive to

buffer

SDP_REQ-617 Resto

re imag

es fro

m arch

ive to

buffer

SDP_REQ-507 Cali

bration So

urce Fi

nding

SKA1-SY

S_REQ-2341 Sp

ectral

line emiss

ion pipeline.

SKA1-SY

S_REQ-2343 Sp

ectral

line ab

sorp

tion pipelin

e.

SKA1-SY

S_REQ-2342 Sp

ectral

line emiss

ion data pro

ducts.

SDP_REQ-387 Sp

ectral

line emiss

ion pipeline

SKA1-SY

S_REQ-2344 Sp

ectral

line ab

sorp

tion data

products

.

X X X X X X X X X X X XX

XX

XX

X X

XX

X

X X X X X

X

X

X

X

SDP_REQ-618 Tran

fer image

s fro

m arch

ive to

buffer

SDP_REQ-617 Resto

re imag

es fro

m arch

ive to

buffer

SDP_REQ-507 Cali

bration So

urce Fi

nding

SKA1-SY

S_REQ-2341 Sp

ectral

line emiss

ion pipeline.

SKA1-SY

S_REQ-2343 Sp

ectral

line ab

sorp

tion pipelin

e.

SKA1-SY

S_REQ-2342 Sp

ectral

line emiss

ion data pro

ducts.

SDP_REQ-387 Sp

ectral

line emiss

ion pipeline

SKA1-SY

S_REQ-2344 Sp

ectral

line ab

sorp

tion data

products

.

SDP_REQ-388 Sp

ectral

line ab

sorp

tion pipelin

e

SKA1-SY

S_REQ-2336 St

andard pipelin

e products

.

SDP_REQ-600 Posta

ge St

amp Se

lection

SDP_REQ-395 Additio

nal Visib

ility A

verag

ing

SDP_REQ-448 Phas

e Rotation

SDP_REQ-601 Contin

uum Subtra

ction

SKA1-SY

S_REQ-2197 SK

A1_Mid corre

lator integra

tion ra

te.

SKA1-SY

S_REQ-2150 SK

A1_Low co

rrelato

r Integra

tion ra

te.

SKA1-SY

S_REQ-2472 RFI

flagg

ing

SKA1-SY

S_REQ-2473 RFI

excisio

n

SKA1-SY

S_REQ-2640 Clip

ped Data Fl

agging

SKA1-SY

S_REQ-2286 Disc

ard previo

us sch

eduling b

lock.

SKA1-SY

S_REQ-2474 RFI

masking

SKA1-SY

S_REQ-2348 Role of s

cience

proce

ssing c

entres.

SKA1-SY

S_REQ-2285 La

tency of T

OO schedulin

g block

initia

tion.

SKA1-SY

S_REQ-2264 SK

A1_Surve

y sub-ar

raying.

SKA1-SY

S_REQ-2133 M

ode tran

sition

SDP_REQ-526 Ave

rage In

put Data

In Time

SDP_REQ-502 In

gest

Pipeline

SDP_REQ-480 In

tegrate Data

SDP_REQ-496 Se

t Weigh

t

SDP_REQ-301 SD

P inge

st data

rate

SDP_REQ-470 Rece

ive Data

SDP_REQ-471 Buffe

r Data

SDP_REQ-483 M

issing D

ata

SDP_REQ-472 Han

dle Miss

ing Data

SDP_REQ-482 O

rder U

V Data

X X

XX

XX

X X X X X X X X X X X XX X

X

X X XX

X XX

X

X

X

XX

X X X X XX

X

X

SDP_REQ-301 SD

P inge

st data

rate

SDP_REQ-470 Rece

ive Data

SDP_REQ-471 Buffe

r Data

SDP_REQ-483 M

issing D

ata

SDP_REQ-472 Han

dle Miss

ing Data

SDP_REQ-482 O

rder U

V Data

SDP_REQ-484 In

put Meta Data

SDP_REQ-473 M

erge M

eta Data

SDP_REQ-479 Remove

Source

s

SDP_REQ-615 EoR Cali

bration Pipelin

e

SDP_REQ-475 Tran

spose

Data

SDP_REQ-474 Gath

er Data

SDP_REQ-485 Combine Data

SKA1-SY

S_REQ-??

?? Drif

t Sca

n Imag

ing

SKA1-SY

S_REQ-2334 Sp

ectral

line so

urce fin

ding.

SDP_REQ-469 Perfo

rm Sc

ience Analys

is Pipelin

e Automatic Q

A

SKA1-SY

S_REQ-??

?? Rotat

ion Measu

re Synthesis

SKA1-SY

S_REQ-2333 Contin

uum source

finding.

SKA1-SY

S_REQ-2335 St

acking.

SDP_REQ-510 Sc

ience Analys

is input d

ata co

nditioning

SDP_REQ-520 Im

age Cube m

anagement

SDP_REQ-521 Im

age Cadence

manage

ment

SDP_REQ-514 So

urce Analys

is (TBC)

SDP_REQ-515 Sp

ectral

Line Pro

file Determ

ination

SDP_REQ-509 Sp

ectral

Index Determ

ination

SDP_REQ-511 Contin

uum Source

Finding

SDP_REQ-518 Point S

ource Detecti

on

SDP_REQ-516 Sp

ectral

Line So

urce Detecti

on

SDP_REQ-508 Exte

nded Source

Detection

SDP_REQ-512 St

acking

SDP_REQ-519 Contin

uum Stack

ing

SDP_REQ-513 H1 St

ackin

g

SKA1-SY

S_REQ-2345 Sl

ow tran

sient p

ipeline.

XX

XX

XX X

XX X X X X

XX

XX

XX

XX

XX

XX

X

X

SDP_REQ-518 Point S

ource Detecti

on

SDP_REQ-516 Sp

ectral

Line So

urce Detecti

on

SDP_REQ-508 Exte

nded Source

Detection

SDP_REQ-512 St

acking

SDP_REQ-519 Contin

uum Stack

ing

SDP_REQ-513 H1 St

ackin

g

SKA1-SY

S_REQ-2345 Sl

ow tran

sient p

ipeline.

SDP_REQ-389 Sl

ow tran

sient p

ipeline

SKA1-SY

S_REQ-2346 Sl

ow tran

sient d

ata pro

ducts.

SKA1-SY

S_REQ-2131 Tran

sient s

earch m

ode

SDP_REQ-468 Perfo

rm N

on-Imagin

g Pipelin

e Automatic Q

A

SDP_REQ-532 N

on-imagin

g Transie

nt Post

Proce

ssing

SDP_REQ-148 N

on-imagin

g Transie

nt Searc

h Number o

f Beams

SDP_REQ-562 N

on-imagin

g Transie

nt Searc

h Archive

Products

SDP_REQ-546 N

on-imagin

g Transie

nt Searc

h Output

SDP_REQ-563 M

erge Data

from M

ultiple Beam

s (tra

nsients)

SDP_REQ-554 Id

entify M

ulti-beam

Candidate

s (tra

nsients)

SDP_REQ-559 Extr

act pulsa

r searc

h heuristic

s

SDP_REQ-545 Extr

act non-im

aging t

ransient h

euristic

s

SDP_REQ-557 Perio

dicity

Searc

h List

Products

SDP_REQ-566 N

on-imagin

g Transie

nt List

Products

SDP_REQ-547 Classi

fy Can

didates (

pulsars)

SDP_REQ-570 Classi

fy Can

didates (

transie

nts)

SDP_REQ-564 Resp

onse Rate fo

r Non-im

aging T

ransie

nts

SDP_REQ-541 Fa

lse Alar

m Rate fo

r Pulsa

r Alerts

SDP_REQ-544 N

on-imagin

g Transie

nt Alerts

SDP_REQ-537 Resp

onse Rate fo

r Pulsa

r Alerts

SDP_REQ-568 Fa

lse Alar

m Rate fo

r Non-im

aging T

ransients

SKA1-SY

S_REQ-2231 Pulsa

r tim

ing Disp

ersion M

easure

SKA1-SY

S_REQ-2208 Beam

former S

/N ra

tio: P

ulsar t

iming

SKA1-SY

S_REQ-2224 Fr

equency ag

ility.

SKA1-SY

S_REQ-2201 Beam

-form

er sub-ar

ray su

pport.

SKA1-SY

S_REQ-2830 SK

A1_Mid Pulsar p

hase bin w

idth

SKA1-SY

S_REQ-2230 M

ultiple tim

ings.

X X X

X X XX X

X XX X

X XX X

X X X X XX X X X X X X

X X X

XX

SDP_REQ-537 Resp

onse Rate fo

r Pulsa

r Alerts

SDP_REQ-568 Fa

lse Alar

m Rate fo

r Non-im

aging T

ransients

SKA1-SY

S_REQ-2231 Pulsa

r tim

ing Disp

ersion M

easure

SKA1-SY

S_REQ-2208 Beam

former S

/N ra

tio: P

ulsar t

iming

SKA1-SY

S_REQ-2224 Fr

equency ag

ility.

SKA1-SY

S_REQ-2201 Beam

-form

er sub-ar

ray su

pport.

SKA1-SY

S_REQ-2830 SK

A1_Mid Pulsar p

hase bin w

idth

SKA1-SY

S_REQ-2230 M

ultiple tim

ings.

SKA1-SY

S_REQ-2130 Pulsa

r Tim

ing Mode.

SKA1-SY

S_REQ-2738 CSP

to SD

P Interfa

ce

SKA1-SY

S_REQ-2207 N

umber of b

eams: Pulsa

r tim

ing.

SDP_REQ-542 Pulsa

r Tim

ing Erro

r Esti

mation

SDP_REQ-543 Pulsa

r Tim

ing Syst

ematic E

rror

SDP_REQ-529 Pulsa

r Tim

ing Precis

ion

SDP_REQ-530 Pulsa

r Tim

ing ToA Determ

inination

SDP_REQ-524 Pulsa

r Tim

ing Input

SDP_REQ-534 Pulsa

r Tim

ing Data Preparat

ion

SDP_REQ-548 Pulsa

r Tim

ing Input D

ata Rece

ption

SDP_REQ-561 Ave

rage In

put Data

In Time To Give

n Sign

ifican

ce

SDP_REQ-549 Dyn

amic

Range

When Ave

raging P

ulsar P

rofile

s

SDP_REQ-569 Ave

rage In

put Data

In Frequency

SDP_REQ-540 Ave

rage In

put Data

In Frequency

To Given Si

gnific

ance

SDP_REQ-528 Pulsa

r Search

Data In

put Data

Receptio

n

SDP_REQ-539 N

on-imagin

g Transie

nt Input

SDP_REQ-565 Pulsa

r Tim

ing Model F

itting

SDP_REQ-551 Generate Resid

ual Precis

ion

SDP_REQ-531 Generate Resid

ual Outp

ut

SDP_REQ-550 W

eightin

g Sch

eme for P

ulsar T

iming M

odel Fitt

ing

SDP_REQ-556 U

pdate Timing M

odel

SDP_REQ-555 O

utput of P

ulsar T

iming M

odel

SDP_REQ-538 Fo

rm Cova

riance

Matri

x of R

esiduals

SKA1-SY

S_REQ-2220 Binary

search

SKA1-SY

S_REQ-2203 N

umber of b

eams: Pulsa

r searc

h

SKA1-SY

S_REQ-2129 Pulsa

r Search

Mode.

SKA1-SY

S_REQ-2216 Tim

e reso

lution

X X XX X X X

X XX

X X X X

XX

XX X

X X X XX X X X X

X X

SDP_REQ-550 W

eightin

g Sch

eme for P

ulsar T

iming M

odel Fitt

ing

SDP_REQ-556 U

pdate Timing M

odel

SDP_REQ-555 O

utput of P

ulsar T

iming M

odel

SDP_REQ-538 Fo

rm Cova

riance

Matri

x of R

esiduals

SKA1-SY

S_REQ-2220 Binary

search

SKA1-SY

S_REQ-2203 N

umber of b

eams: Pulsa

r searc

h

SKA1-SY

S_REQ-2129 Pulsa

r Search

Mode.

SKA1-SY

S_REQ-2216 Tim

e reso

lution

SKA1-SY

S_REQ-2616 SK

A1_Mid Pulsar p

hase binning

SKA1-SY

S_REQ-2205 Beam

former S

/N pulsa

r searc

h

SDP_REQ-552 Perio

dicity

Searc

h Alerts

SDP_REQ-147 Perio

dicity

Searc

h Number of B

eams

SDP_REQ-133 Perio

dicity

Searc

h Post Pro

cessi

ng

SDP_REQ-558 Perio

dicity

Searc

h Output

SDP_REQ-535 N

on-imagin

g Transie

nt Input D

ata

SDP_REQ-527 Pulsa

r Search

Data In

put

SDP_REQ-533 M

erge Data

from M

ultiple Beam

s

SDP_REQ-560 Id

entify m

ulti-beam

candidate

s

SDP_REQ-567 Perio

dicity

Searc

h Archive

Products

SDP_REQ-505 Global

Sky M

odel Update

SKA1-SY

S_REQ-2361 Arch

ive ac

cess.

SKA1-SY

S_REQ-2661 Back

up arch

ive use

r acce

ss co

nversi

on

SKA1-SY

S_REQ-2358 Third

party data

products

.

SKA1-SY

S_REQ-2479 Arch

ive se

curit

y

SKA1-SY

S_REQ-2364 Data

migratio

n plan.

SKA1-SY

S_REQ-2355 Data

product

prove

nance

.

SDP_REQ-57 Sp

ectrum Arch

ive M

etadata

SDP_REQ-281 Back

up sites

SDP_REQ-282 Back

up Archive

Retrieva

l

SKA1-SY

S_REQ-2821 Arch

ive

SKA1-SY

S_REQ-2363 Arch

ive lif

etime.

SKA1-SY

S_REQ-2360 Sc

ience data

product

archive

policy.

SKA1-SY

S_REQ-2660 Back

up arch

ive re

trieva

l

SKA1-SY

S_REQ-2728 Data

migratio

n design

SKA1-SY

S_REQ-2350 M

irror s

ites.

X XX X X X X X

X XX

XX X X X X X X X X X X X X X X

X

X

X

X

SDP_REQ-282 Back

up Archive

Retrieva

l

SKA1-SY

S_REQ-2363 Arch

ive lif

etime.

SKA1-SY

S_REQ-2360 Sc

ience data

product

archive

policy.

SKA1-SY

S_REQ-2660 Back

up arch

ive re

trieva

l

SKA1-SY

S_REQ-2728 Data

migratio

n design

SKA1-SY

S_REQ-2350 M

irror s

ites.

SDP_REQ-271 Data

Products

SDP_REQ-290 Se

cure Arch

ive Envir

onment

SKA1-SY

S_REQ-2688 Data

acce

ss rig

hts

SDP_REQ-289 Arch

ive lif

etime.

SDP_REQ-251 Concu

rrency

SDP_REQ-247 Data

Laye

r Man

agement

SDP_REQ-268 Rejuve

nation

SDP_REQ-248 Data

Life Cyc

le Man

agement

SDP_REQ-252 Concu

rrent W

orkflows

SDP_REQ-255 Trac

ing Data

SDP_REQ-261 Resto

ring A

rchive

Operat

ions of a

faile

d site

SDP_REQ-283 Resto

re arch

ive ac

cess

SDP_REQ-260 Arch

ive Back

up

SDP_REQ-263 Data

Migr

ation Desig

n

SDP_REQ-269 St

orage Tech

nology Tran

sition

SDP_REQ-256 Disc

ard Sc

heduling B

lock

SDP_REQ-253 W

orkload

Balance

SDP_REQ-598 St

orage Hierarch

y

SDP_REQ-383 Data

Integri

ty

SDP_REQ-250 DB In

terface

SDP_REQ-599 Data

Servi

ce La

yer

SDP_REQ-257 Sk

y Model A

ccess

SDP_REQ-266 St

atus Inform

ation

SDP_REQ-287 Contin

uous perfo

rmance

monito

ring.

SDP_REQ-265 Contin

uous Perfo

rman

ce M

onitorin

g Metri

cs

SDP_REQ-267 Ava

ilabilit

y Metri

c

SDP_REQ-384 N

otifica

tion Eve

nt

X X X XX X

X XX X

X X XX X X

XX X

X

XX

X

XX X

XX X

X

X

SDP_REQ-257 Sk

y Model A

ccess

SDP_REQ-266 St

atus Inform

ation

SDP_REQ-287 Contin

uous perfo

rmance

monito

ring.

SDP_REQ-265 Contin

uous Perfo

rman

ce M

onitorin

g Metri

cs

SDP_REQ-267 Ava

ilabilit

y Metri

c

SDP_REQ-384 N

otifica

tion Eve

nt

SDP_REQ-276 Data

Product

Prove

nance

SDP_REQ-574 Sc

ience Data

Archive

SDP_REQ-578 Data

Model C

ompliance

SDP_REQ-254 Pro

venance

SDP_REQ-573 Third

party data

products

SDP_REQ-275 Remote Pro

cessi

ng

SDP_REQ-262 Data

Laye

r Pro

duct Dist

ributio

n

SDP_REQ-577 Deco

upling r

eal-tim

e Ops

SDP_REQ-523 Arch

ive Datab

ase Se

rvice

SDP_REQ-522 Arch

ive Bulk

Data Acce

ss Se

rvice

SDP_REQ-576 Data

Product

Replicati

on

SDP_REQ-264 Acce

ss Rules

SDP_REQ-274 Si

ngle Si

gn-O

n

SDP_REQ-613 M

eta Access

SDP_REQ-609 Release

Statu

s

SDP_REQ-270 Arch

ive Se

curit

y Trace

ability

SDP_REQ-610 Consis

tent Release

State

SDP_REQ-611 U

ser R

oles

SDP_REQ-286 Le

vels o

f acce

ss to th

e arch

ive

SDP_REQ-612 Data

Product

Types

SKA1-SY

S_REQ-2366 Dist

ributio

n of data

products

.

SDP_REQ-106 Pro

duct dist

ributio

n

SDP_REQ-107 Id

entify d

istrib

ution desti

nation

SDP_REQ-114 Analy

sis output s

torage

SDP_REQ-127 RC Pro

duct Renewal

SDP_REQ-125 Trig

ger d

ata remova

l

SDP_REQ-126 Trig

ger d

ata update

X XX

X

X X X XX XX X X

X X X X X X X X X XX

XX

X XX

XX

X

XX

X

SKA1-SY

S_REQ-2366 Dist

ributio

n of data

products

.

SDP_REQ-106 Pro

duct dist

ributio

n

SDP_REQ-107 Id

entify d

istrib

ution desti

nation

SDP_REQ-114 Analy

sis output s

torage

SDP_REQ-127 RC Pro

duct Renewal

SDP_REQ-125 Trig

ger d

ata remova

l

SDP_REQ-126 Trig

ger d

ata update

SDP_REQ-116 RC exp

ected downtim

e

SDP_REQ-117 RC unexp

ected downtim

e

SDP_REQ-99 U

ser C

redentials R

eplicatio

n

SDP_REQ-111 RC data

transfe

r rate

SDP_REQ-115 M

etadata re

plicati

on

SDP_REQ-110 RC st

orage ca

pacity

SDP_REQ-113 RC analy

sis exe

cutio

n

SDP_REQ-112 RC st

orage ra

te

SDP_REQ-108 Deliv

ery perfo

rman

ce

SDP_REQ-109 Deliv

ery interru

ption

SDP_REQ-118 Deliv

ery str

ategy

SDP_REQ-119 Deliv

ery Count L

imit

SDP_REQ-124 Deliv

ery str

ategy

data m

odel

SDP_REQ-123 Lo

w priorit

y deliv

ery

SDP_REQ-121 Data

delivery

budget

SDP_REQ-122 High

priorit

y deliv

ery

SDP_REQ-120 Data

delivery

priorit

y

SDP_REQ-98 U

ser a

ccess

log consis

tency

SKA1-SY

S_REQ-2482 Acce

ssibilit

y

SKA1-SY

S_REQ-2352 W

eb interfa

ce.

SKA1-SY

S_REQ-2354 Arch

ive API.

SKA1-SY

S_REQ-2353 Virt

ual Obse

rvato

ry interfa

ce.

SKA1-SY

S_REQ-2739 Le

vels o

f acce

ss to th

e arch

ive

SDP_REQ-571 Acce

ss to data

and metadata

SDP_REQ-90 Anonym

ous deliv

ery

SDP_REQ-94 U

ser A

uthorisatio

n

SDP_REQ-277 U

ser D

efined Acce

ss Contro

l

X X X X X X X XX X

XX X

X X XX

XX X X X X

XX X

X

X

X

X

SKA1-SY

S_REQ-2353 Virt

ual Obse

rvato

ry interfa

ce.

SKA1-SY

S_REQ-2739 Le

vels o

f acce

ss to th

e arch

ive

SDP_REQ-571 Acce

ss to data

and metadata

SDP_REQ-90 Anonym

ous deliv

ery

SDP_REQ-94 U

ser A

uthorisatio

n

SDP_REQ-277 U

ser D

efined Acce

ss Contro

l

SDP_REQ-95 Deliv

ery by R

ole

SDP_REQ-97 Authoris

ation cl

ient

SDP_REQ-89 Fe

derated authentic

ation

SDP_REQ-88 U

ser A

uthenticati

on

SDP_REQ-91 Certi

ficate Authentic

ation

SDP_REQ-101 Authentic

ation pro

vider li

st

SDP_REQ-102 U

ser R

oles

SDP_REQ-100 Authoris

ation cr

edential c

lient

SDP_REQ-93 Exte

rnal

Credentials

SDP_REQ-279 U

ser-d

efined Gro

up Man

agement

SDP_REQ-56 Im

age Arch

ive M

etadata

SDP_REQ-58 Data

Discove

ry

SDP_REQ-62 Data

Descriptio

n

SDP_REQ-55 O

bsCore Arch

ive M

etadata

SDP_REQ-54 Arch

ive M

etadata

SDP_REQ-87 Arch

ive Data

File Fo

rmats

SDP_REQ-60 SI

A Discove

ry

SDP_REQ-130 VOEve

nt Deliv

ery

SDP_REQ-385 W

eb Interfa

ce

SDP_REQ-59 TAP Disc

overy

SDP_REQ-75 HTTP Clie

nt Previe

ws

SDP_REQ-73 M

etadata Visu

alisa

tion Clie

nt

SDP_REQ-74 HTTP Clie

nt Metadata

Visuali

satio

n

SDP_REQ-68 Deliv

ery Clie

nt

SDP_REQ-66 DataL

ink Deliv

ery

SDP_REQ-105 Pro

prietar

y data

period

SDP_REQ-103 Pro

prietar

y Perio

d

XX X X

XX X

XX

X XX

XX

X X X X X X X X X XX X X

XX

X

X

X XX X

X

SDP_REQ-73 M

etadata Visu

alisa

tion Clie

nt

SDP_REQ-74 HTTP Clie

nt Metadata

Visuali

satio

n

SDP_REQ-68 Deliv

ery Clie

nt

SDP_REQ-66 DataL

ink Deliv

ery

SDP_REQ-105 Pro

prietar

y data

period

SDP_REQ-103 Pro

prietar

y Perio

d

SDP_REQ-104 Pro

prietar

y metad

ata perio

d

SDP_REQ-63 TAP Data

Descriptio

n

SDP_REQ-64 SI

A Data Descr

iption

SDP_REQ-61 Clie

nt Data

Discove

ry

SDP_REQ-77 VOEve

nt Data

Descriptio

n

SDP_REQ-72 M

etadata Conditio

ning

SDP_REQ-92 VOEve

nt Data

Model

SDP_REQ-65 Data

Delivery

SDP_REQ-273 Cut-o

uts

SDP_REQ-67 Acce

ssData

Delivery

SDP_REQ-76 Data

Visualisa

tion Clie

nt

SDP_REQ-131 Su

pported Fi

le Form

ats

SDP_REQ-82 M

aintai

n Visualiza

tion Se

ssion

SDP_REQ-81 M

ulti-Use

r Viewing

SDP_REQ-78 Core vi

ewing functi

onality

SDP_REQ-79 Exte

nsible Analys

is

SDP_REQ-128 Community

Analysis

SDP_REQ-129 View La

rge Datas

ets

SDP_REQ-80 Core Analys

is Visu

alizatio

n

SDP_REQ-132 Annotat

ions

SDP_REQ-86 Analys

is API

SDP_REQ-85 Viewer P

lot Save

SDP_REQ-96 Data

acce

ss logg

ing

SDP_REQ-572 Disp

lay custo

misatio

ns

SDP_REQ-83 U

ser V

isuali

zatio

n Customiza

tion

SDP_REQ-84 Viewer C

ustomiza

ble Plotting

SDP_REQ-602 In

valid

Input H

andling -

Maste

r Contro

ller

XX X X X

X XX X

XX X

X X XX

XX X X X

XX

XX

XX

X

X

SDP_REQ-85 Viewer P

lot Save

SDP_REQ-96 Data

acce

ss logg

ing

SDP_REQ-572 Disp

lay custo

misatio

ns

SDP_REQ-83 U

ser V

isuali

zatio

n Customiza

tion

SDP_REQ-84 Viewer C

ustomiza

ble Plotting

SDP_REQ-602 In

valid

Input H

andling -

Maste

r Contro

ller

SDP_REQ-51 Engin

eering S

upport

SKA1-SY

S_REQ-2788 N

on-propaga

tion of fa

ilures

SKA1-SY

S_REQ-2312 Alar

m latency

.

SKA1-SY

S_REQ-2283 Targ

et of o

pportunity

SDP_REQ-7 O

bserva

tion Contro

l

SDP_REQ-52 Fa

ilsafe

SKA1-SY

S_REQ-2282 Centra

l loca

tion fo

r data

bases

SKA1-SY

S_REQ-2357 Q

A annotat

ion.

SDP_REQ-50 In

valid

input h

andlin

g

SDP_REQ-11 Fr

equency handlin

g

SDP_REQ-608 Engin

eering S

upport - M

aster C

ontrolle

r

SDP_REQ-605 ASK

AP integra

tion

SDP_REQ-604 M

eerKAT in

tegratio

n

SDP_REQ-607 Fl

aggin

g contro

l - LM

C

SDP_REQ-606 Rece

ive obse

rvatio

n request

SDP_REQ-33 Fl

aggin

g contro

l

SDP_REQ-3 O

bserva

tion Han

dling

SDP_REQ-2 Capabilit

y Han

dling

SDP_REQ-285 Acce

ssibilit

y

SDP_REQ-28 Precu

rsor in

tegratio

n

SKA1-SY

S_REQ-2126 Si

multaneous o

peration of te

lescopes

SDP_REQ-1 M

ode handling

SDP_REQ-29 Targ

ets of O

pportunity

SDP_REQ-25 In

dependent Operat

ions

SDP_REQ-26 Reso

urce sh

aring

SDP_REQ-624 Data

Flow Grap

hs

SDP_REQ-625 Data

Flow M

odels

X X X X X X X X X X X X X X X X X X X X X X XX X

XX

X

X

X

SKA1-SY

S_REQ-2126 Si

multaneous o

peration of te

lescopes

SDP_REQ-29 Targ

ets of O

pportunity

SDP_REQ-25 In

dependent Operat

ions

SDP_REQ-26 Reso

urce sh

aring

SDP_REQ-624 Data

Flow Grap

hs

SDP_REQ-625 Data

Flow M

odels

SDP_REQ-626 Component P

rofile

s

SDP_REQ-627 Hard

ware av

ailabilit

y

SDP_REQ-628 Create

data flo

w graphs

SDP_REQ-629 Power M

anag

ement

SDP_REQ-630 Lo

ad standby c

onfiguratio

n

SDP_REQ-31 Grac

eful degra

dation - e

valuati

on

SDP_REQ-622 In

form TM on Ava

ilabilit

y of D

ata Pro

ducts

SDP_REQ-621 Prese

rvatio

n of Interm

ediate Data Products

SDP_REQ-30 Grac

eful degra

dation

SDP_REQ-32 Grac

eful degra

dation - r

eporting

SDP_REQ-620 Grace

ful Erro

r Reco

very

SKA1-SY

S_REQ-2786 Sa

fety docu

mentation fil

e

SDP_REQ-623 Resta

rt Pro

cessi

ng afte

r Erro

r

SDP_REQ-382 Component s

ystem co

nsistency

SDP_REQ-380 Sc

heduler Interfa

ce

SDP_REQ-378 Deploym

ent syst

em

SDP_REQ-379 Sc

heduler

SDP_REQ-376 Platfo

rm m

anagement in

terface

to LM

C

SDP_REQ-375 SD

P platform

man

agement

SDP_REQ-10 O

bserva

tion co

ntrol -

status

SDP_REQ-17 Sc

heduling -

Compute

SDP_REQ-22 Contro

l - Data

Laye

r

SDP_REQ-23 Contro

l - Deliv

ery

SDP_REQ-8 O

bserva

tion co

ntrol -

start

SDP_REQ-6 O

bserva

tion sc

heduling f

eedback

SDP_REQ-24 Contro

l - Fe

edback

SDP_REQ-9 O

bserva

tion co

ntrol -

stop

XX

XX

XX X X X X X

X XX X X X X X

X X X X X X X X

SDP_REQ-376 Platfo

rm m

anagement in

terface

to LM

C

SDP_REQ-10 O

bserva

tion co

ntrol -

status

SDP_REQ-22 Contro

l - Data

Laye

r

SDP_REQ-23 Contro

l - Deliv

ery

SDP_REQ-8 O

bserva

tion co

ntrol -

start

SDP_REQ-6 O

bserva

tion sc

heduling f

eedback

SDP_REQ-24 Contro

l - Fe

edback

SDP_REQ-9 O

bserva

tion co

ntrol -

stop

SDP_REQ-13 Fr

equency co

ntrol -

switc

h

SDP_REQ-21 Contro

l - Compute

SDP_REQ-19 Sc

heduling -

Delivery

SDP_REQ-20 Sc

heduling -

Feedbac

k

SDP_REQ-5 O

bserva

tion sc

heduling

SDP_REQ-18 Sc

heduling -

Data La

yer

SDP_REQ-27 O

bserva

tion co

ntrol -

switc

hing

SDP_REQ-381 Sc

heduler input

SDP_REQ-16 Ava

ilabilit

y - Deliv

ery

SDP_REQ-4 Capabilit

y ava

ilabilit

y

SDP_REQ-15 Ava

ilabilit

y - Data

Laye

r

SDP_REQ-14 Ava

ilabilit

y - Compute

SDP_REQ-12 Fr

equency av

ailabilit

y

SDP_REQ-631 Si

mulate observa

tions

SDP_REQ-38 M

etadata in

put

SDP_REQ-34 Se

lf testi

ng

SKA1-SY

S_REQ-2546 Contin

uous perfo

rmance

monito

ring.

SDP_REQ-450 SD

P stan

dard pipelin

e products

SKA1-SY

S_REQ-2280 Sy

stem st

atus.

SDP_REQ-592 St

atus Monito

ring

SDP_REQ-593 St

atus Logg

ing

SDP_REQ-632 Eve

nt handler

SDP_REQ-37 Alar

m latency

SDP_REQ-35 Alar

ms

SDP_REQ-36 Alar

m timesta

mps

SDP_REQ-594 St

atus Reporti

ng

SDP_REQ-633 Eve

nt agg

regatio

n

X X X X X X XX

X X X X XX

XX

X X XX

XX

X X XX

X

X

X

SKA1-SY

S_REQ-2546 Contin

uous perfo

rmance

monito

ring.

SDP_REQ-37 Alar

m latency

SDP_REQ-35 Alar

ms

SDP_REQ-36 Alar

m timesta

mps

SDP_REQ-594 St

atus Reporti

ng

SDP_REQ-633 Eve

nt agg

regatio

n

SDP_REQ-377 Sy

stem health

monito

ring

SKA1-SY

S_REQ-2744 Q

uality as

sessm

ent

SKA1-SY

S_REQ-2742 Perfo

rmance

assessm

ent

SKA1-SY

S_REQ-2743 Perfo

rmance

goals

SDP_REQ-40 Q

uality

assessm

ent interfa

ce

SDP_REQ-41 Perfo

rmance

assessm

ent

SDP_REQ-42 Perfo

rmance

goals

SDP_REQ-43 Q

uality

assessm

ent calc

ulation

SDP_REQ-595 Q

A annotat

ions

SDP_REQ-49 Telesco

pe Manag

er API

SKA1-SY

S_REQ-2645 Telesco

pe Model

SDP_REQ-597 Component s

ystem st

ate in

formati

on

SDP_REQ-288 Telesco

pe Model

SDP_REQ-634 Telesco

pe Model-V

alidati

on

SDP_REQ-635 Telesco

pe Model-U

pdate

SDP_REQ-636 Telesco

pe Model-S

erialise

SDP_REQ-39 M

etadata pro

xy

SDP_REQ-637 High

update ra

te -tran

sacti

ons

SKA1-SY

S_REQ-2657 Pro

cessi

ng capab

ility

SDP_REQ-616 Resto

re visib

ility d

ata fr

om arch

ive to

buffer

XX X X

XX

X XX

X XX

XX

XX

XX

X X

SDP_REQ-616 Resto

re visib

ility d

ata fr

om arch

ive to

buffer

Number NameSDP_REQ_INT-1 Interface Management Self-description- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-10 Monitoring. Report specific alarm information- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-100 Overall power consumption- SDP Compute SKA1 Low ElectricalSDP_REQ_INT-101 Medium- SDP Compute SKA1 Low Fire ControlSDP_REQ_INT-102 Warning- SDP Compute SKA1 Low Fire ControlSDP_REQ_INT-103 Space allocation- SDP Compute SKA1 Survey MechanicalSDP_REQ_INT-104 Cable trays- SDP Compute SKA1 Survey MechanicalSDP_REQ_INT-105 Overall power consumption- SDP Compute SKA1 Survey ElectricalSDP_REQ_INT-106 Medium- SDP Compute SKA1 Survey Fire ControlSDP_REQ_INT-107 Warning- SDP Compute SKA1 Survey Fire ControlSDP_REQ_INT-108 Rack size- SDP Archive SKA1 Common MechanicalSDP_REQ_INT-109 Rack standard- SDP Archive SKA1 Common MechanicalSDP_REQ_INT-11 Monitoring. Log reporting- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-110 Service area- SDP Archive SKA1 Common MechanicalSDP_REQ_INT-111 Floor loading- SDP Archive SKA1 Common MechanicalSDP_REQ_INT-112 Environment- SDP Archive SKA1 Common ThermalSDP_REQ_INT-113 Humidity- SDP Archive SKA1 Common ThermalSDP_REQ_INT-114 Data centre power efficiency- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-115 Per rack power consumption- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-116 Nominal voltage- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-117 Level variation- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-118 Nominal level- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-119 Harmonic distortion- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-12 Monitoring. Log level- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-120 Frequency variation- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-121 Controlled shutdown under UPS- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-122 Redundancy- SDP Archive SKA1 Common ElectricalSDP_REQ_INT-123 Logging- SDP Archive SKA1 Common Access ControlSDP_REQ_INT-124 Configuration- SDP Archive SKA1 Common Access ControlSDP_REQ_INT-125 Ease of Use- SDP Archive SKA1 Common Access ControlSDP_REQ_INT-126 Authentication- SDP Archive SKA1 Common Access ControlSDP_REQ_INT-127 Space allocation- SDP Archive SKA1 Mid MechanicalSDP_REQ_INT-128 Cable trays- SDP Archive SKA1 Mid MechanicalSDP_REQ_INT-129 Total heat load- SDP Archive SKA1 Mid ThermalSDP_REQ_INT-13 Monitoring. Drill-down capability- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-130 Overall power consumption- SDP Archive SKA1 Mid ElectricalSDP_REQ_INT-131 Medium- SDP Archive SKA1 Mid Fire ControlSDP_REQ_INT-132 Warning- SDP Archive SKA1 Mid Fire ControlSDP_REQ_INT-133 Space allocation- SDP Archive SKA1 Low MechanicalSDP_REQ_INT-134 Cable trays- SDP Archive SKA1 Low MechanicalSDP_REQ_INT-135 Total heat load- SDP Archive SKA1 Low ThermalSDP_REQ_INT-136 Overall power consumption- SDP Archive SKA1 Low ElectricalSDP_REQ_INT-137 Medium- SDP Archive SKA1 Low Fire ControlSDP_REQ_INT-138 Warning- SDP Archive SKA1 Low Fire ControlSDP_REQ_INT-139 Space allocation- SDP Archive SKA1 Survey MechanicalSDP_REQ_INT-14 Monitoring. Drill-down activation- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-140 Cable trays- SDP Archive SKA1 Survey MechanicalSDP_REQ_INT-141 Total heat load- SDP Archive SKA1 Survey ThermalSDP_REQ_INT-142 Overall power consumption- SDP Archive SKA1 Survey Electrical

SDP_REQ_INT-143 Medium- SDP Archive SKA1 Survey Fire ControlSDP_REQ_INT-144 Warning- SDP Archive SKA1 Survey Fire ControlSDP_REQ_INT-145 Visibility Wire data rate-SDP SKA1 Low Data ExchangeSDP_REQ_INT-146 Visibility Data Link and Framing-SDP SKA1 Low Data ExchangeSDP_REQ_INT-147 Visibility SADT-SDP end point -SDP SKA1 Low Data ExchangeSDP_REQ_INT-148 Visibility Individual link capacity-SDP SKA1 Low Data ExchangeSDP_REQ_INT-149 Visibility Data traffic profile-SDP SKA1 Low Data ExchangeSDP_REQ_INT-15 Monitoring. Report failures- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-150 Visibility Flow control -SDP SKA1 Low Data ExchangeSDP_REQ_INT-151 Visibility Data buffering-SDP SKA1 Low Data ExchangeSDP_REQ_INT-152 Visibility Transport latency-SDP SKA1 Low Data ExchangeSDP_REQ_INT-153 Visibility Packet loss-SDP SKA1 Low Data ExchangeSDP_REQ_INT-154 Visibility Packet out of order-SDP SKA1 Low Data ExchangeSDP_REQ_INT-155 Visibility Protocol support-SDP SKA1 Low Data ExchangeSDP_REQ_INT-156 Visibility Pluggable Modules-SDP SKA1 Low Data ExchangeSDP_REQ_INT-157 Visibility Type of connection between SADT and SDP-SDP SKA1 Low Electro-opticalSDP_REQ_INT-158 Visibility Number of connections-SDP SKA1 Low Electro-opticalSDP_REQ_INT-159 Visibility Power for pluggable module-SDP SKA1 Low ElectricalSDP_REQ_INT-16 Monitoring. Failure prediction- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-160 Visibility Power Source-SDP SKA1 Low ElectricalSDP_REQ_INT-161 Visibility Optical modules-SDP SKA1 Low MechanicalSDP_REQ_INT-162 Visibility Cabling -SDP SKA1 Low MechanicalSDP_REQ_INT-163 Visibility Rack space-SDP SKA1 Low MechanicalSDP_REQ_INT-164 Visibility Number of transponder units-SDP SKA1 Low MechanicalSDP_REQ_INT-165 Visibility Transponder management-SDP SKA1 Low Monitor and ControlSDP_REQ_INT-166 Visibility Traffic management user interface-SDP SKA1 Low Monitor and ControlSDP_REQ_INT-167 Visibility Physical layer monitoring across interface-SDP SKA1 Low Monitor and ControlSDP_REQ_INT-168 Visibility Built in self-test data integrity and performance margin-SDP SKA1 Low Monitor and ControlSDP_REQ_INT-169 Visibility Interoperability between elements following upgrade-SDP SKA1 Low OperationalSDP_REQ_INT-17 Monitoring. Capability reporting- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-170 Visibility Interoperability between elements following upgrade-SDP SKA1 Low OperationalSDP_REQ_INT-171 Visibility System integration plan compliance-SDP SKA1 Low OperationalSDP_REQ_INT-172 Visibility Precursor constraints-SDP SKA1 Low OperationalSDP_REQ_INT-173 Visibility Wire data rate-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-174 Visibility Data Link and Framing-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-175 Visibility SADT-SDP end point -SDP SKA1 Survey Data ExchangeSDP_REQ_INT-176 Visibility Individual link capacity-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-177 Visibility Data traffic profile-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-178 Visibility Flow control -SDP SKA1 Survey Data ExchangeSDP_REQ_INT-179 Visibility Data buffering-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-18 Monitoring. Resource Overview- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-180 Visibility Transport latency-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-181 Visibility Packet loss-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-182 Visibility Packet out of order-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-183 Visibility Protocol support-SDP SKA1 Survey Data ExchangeSDP_REQ_INT-184 Visibility Pluggable Modules-SDP SKA1 Survey Electro-opticalSDP_REQ_INT-185 Visibility Type of connection between SADT and SDP-SDP SKA1 Survey Electro-opticalSDP_REQ_INT-186 Visibility Number of connections-SDP SKA1 Survey Electro-opticalSDP_REQ_INT-187 Visibility Power for pluggable module-SDP SKA1 Survey ElectricalSDP_REQ_INT-188 Visibility Power Source-SDP SKA1 Survey Electrical

SDP_REQ_INT-189 Visibility Optical modules-SDP SKA1 Survey MechanicalSDP_REQ_INT-19 Monitoring. Current Capability availability- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-190 Visibility Cabling -SDP SKA1 Survey MechanicalSDP_REQ_INT-191 Visibility Rack space-SDP SKA1 Survey MechanicalSDP_REQ_INT-192 Visibility Number of transponder units-SDP SKA1 Survey MechanicalSDP_REQ_INT-193 Visibility Transponder management-SDP SKA1 Survey Monitor and ControlSDP_REQ_INT-194 Visibility Traffic management user interface-SDP SKA1 Survey Monitor and ControlSDP_REQ_INT-195 Visibility Physical layer monitoring across interface-SDP SKA1 Survey Monitor and ControlSDP_REQ_INT-196 Visibility Built in self-test data integrity and performance margin-SDP SKA1 Survey Monitor and ControlSDP_REQ_INT-197 Visibility Interoperability between elements following upgrade-SDP SKA1 Survey OperationalSDP_REQ_INT-198 Visibility Interoperability between elements following upgrade-SDP SKA1 Survey OperationalSDP_REQ_INT-199 Visibility System integration plan compliance-SDP SKA1 Survey OperationalSDP_REQ_INT-2 Interface Management Structure of Reporting- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-20 Monitoring. Event reporting - SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-200 Visibility Precursor constraints-SDP SKA1 Survey OperationalSDP_REQ_INT-201 Visibility Wire data rate-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-202 Visibility Data Link and Framing-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-203 Visibility SADT-SDP end point -SDP SKA1 Mid Data ExchangeSDP_REQ_INT-204 Visibility Individual link capacity-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-205 Visibility Data traffic profile-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-206 Visibility Flow control -SDP SKA1 Mid Data ExchangeSDP_REQ_INT-207 Visibility Data buffering-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-208 Visibility Transport latency-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-209 Visibility Packet loss-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-21 Engineering Interface- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-210 Visibility Packet out of order-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-211 Visibility Protocol support-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-212 Visibility Pluggable Modules-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-213 Visibility Type of connection between SADT and SDP-SDP SKA1 Mid Electro-opticalSDP_REQ_INT-214 Visibility Number of connections-SDP SKA1 Mid Electro-opticalSDP_REQ_INT-215 Visibility Power for pluggable module-SDP SKA1 Mid ElectricalSDP_REQ_INT-216 Visibility Power Source-SDP SKA1 Mid ElectricalSDP_REQ_INT-217 Visibility Optical modules-SDP SKA1 Mid MechanicalSDP_REQ_INT-218 Visibility Cabling -SDP SKA1 Mid MechanicalSDP_REQ_INT-219 Visibility Rack space-SDP SKA1 Mid MechanicalSDP_REQ_INT-22 Life-cycle Management. Remote updates- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-220 Visibility Number of transponder units-SDP SKA1 Mid MechanicalSDP_REQ_INT-221 Visibility Transponder management-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-222 Visibility Traffic management user interface-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-223 Visibility Physical layer monitoring across interface-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-224 Visibility Built in self-test data integrity and performance margin-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-225 Visibility Interoperability between elements following upgrade-SDP SKA1 Mid OperationalSDP_REQ_INT-226 Visibility Interoperability between elements following upgrade-SDP SKA1 Mid OperationalSDP_REQ_INT-227 Visibility System integration plan compliance-SDP SKA1 Mid OperationalSDP_REQ_INT-228 Visibility Precursor constraints-SDP SKA1 Mid OperationalSDP_REQ_INT-229 Pulsar Search Wire data rate-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-23 Life-cycle Management. Facilitate remote updates- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-230 Pulsar Search Data Link and Framing-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-231 Pulsar Search SADT-SDP end point -SDP SKA1 Mid Data ExchangeSDP_REQ_INT-232 Pulsar Search Individual link capacity-SDP SKA1 Mid Data Exchange

SDP_REQ_INT-233 Pulsar Search Data traffic profile-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-234 Pulsar Search Flow control -SDP SKA1 Mid Data ExchangeSDP_REQ_INT-235 Pulsar Search Data buffering-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-236 Pulsar Search Transport latency-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-237 Pulsar Search Packet loss-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-238 Pulsar Search Packet out of order-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-239 Pulsar Search Protocol support-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-24 Life-cycle Management. Report version information - SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-240 Pulsar Search Pluggable Modules-SDP SKA1 Mid Electro-opticalSDP_REQ_INT-241 Pulsar Search Type of connection between SADT and SDP-SDP SKA1 Mid Electro-opticalSDP_REQ_INT-242 Pulsar Search Number of connections-SDP SKA1 Mid Electro-opticalSDP_REQ_INT-243 Pulsar Search Power for pluggable module-SDP SKA1 Mid ElectricalSDP_REQ_INT-244 Pulsar Search Power Source-SDP SKA1 Mid ElectricalSDP_REQ_INT-245 Pulsar Search Optical modules-SDP SKA1 Mid MechanicalSDP_REQ_INT-246 Pulsar Search Cabling -SDP SKA1 Mid MechanicalSDP_REQ_INT-247 Pulsar Search Rack space-SDP SKA1 Mid MechanicalSDP_REQ_INT-248 Pulsar Search Number of transponder units-SDP SKA1 Mid MechanicalSDP_REQ_INT-249 Pulsar Search Transponder management-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-25 Data Transport. Maximum data rate- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-250 Pulsar Search Traffic management user interface-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-251 Pulsar Search Physical layer monitoring across interface-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-252 Pulsar Search Built in self-test data integrity and performance margin-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-253 Pulsar Search Interoperability between elements following upgrade-SDP SKA1 Mid OperationalSDP_REQ_INT-254 Pulsar Search Interoperability between elements following upgrade-SDP SKA1 Mid OperationalSDP_REQ_INT-255 Pulsar Search System integration plan compliance-SDP SKA1 Mid OperationalSDP_REQ_INT-256 Pulsar Search Precursor constraints-SDP SKA1 Mid OperationalSDP_REQ_INT-257 Pulsar Timing Wire data rate-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-258 Pulsar Timing Data Link and Framing-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-259 Pulsar Timing SADT-SDP end point -SDP SKA1 Mid Data ExchangeSDP_REQ_INT-26 Protocol. Communicati ons protocol- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-260 Pulsar Timing Individual link capacity-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-261 Pulsar Timing Data traffic profile-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-262 Pulsar Timing Flow control -SDP SKA1 Mid Data ExchangeSDP_REQ_INT-263 Pulsar Timing Data buffering-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-264 Pulsar Timing Transport latency-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-265 Pulsar Timing Packet loss-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-266 Pulsar Timing Packet out of order-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-267 Pulsar Timing Protocol support-SDP SKA1 Mid Data ExchangeSDP_REQ_INT-268 Pulsar Timing Pluggable Modules-SDP SKA1 Mid ElectricalSDP_REQ_INT-269 Pulsar Timing Type of connection between SADT and SDP-SDP SKA1 Mid Electro-opticalSDP_REQ_INT-27 Data Identification. Exclusions- SDP SKA1 Low Survey Mid. Telescope State InformationSDP_REQ_INT-270 Pulsar Timing Number of connections-SDP SKA1 Mid Electro-opticalSDP_REQ_INT-271 Pulsar Timing Power for pluggable module-SDP SKA1 Mid ElectricalSDP_REQ_INT-272 Pulsar Timing Power Source-SDP SKA1 Mid ElectricalSDP_REQ_INT-273 Pulsar Timing Optical modules-SDP SKA1 Mid MechanicalSDP_REQ_INT-274 Pulsar Timing Cabling -SDP SKA1 Mid MechanicalSDP_REQ_INT-275 Pulsar Timing Rack space-SDP SKA1 Mid MechanicalSDP_REQ_INT-276 Pulsar Timing Number of transponder units-SDP SKA1 Mid MechanicalSDP_REQ_INT-277 Pulsar Timing Transponder management-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-278 Pulsar Timing Traffic management user interface-SDP SKA1 Mid Monitor and Control

SDP_REQ_INT-279 Pulsar Timing Physical layer monitoring across interface-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-28 Data Identification. Critical information- SDP SKA1 Low Survey Mid. Telescope State InformationSDP_REQ_INT-280 Pulsar Timing Built in self-test data integrity and performance margin-SDP SKA1 Mid Monitor and ControlSDP_REQ_INT-281 Pulsar Timing Interoperability between elements following upgrade-SDP SKA1 Mid OperationalSDP_REQ_INT-282 Pulsar Timing Interoperability between elements following upgrade-SDP SKA1 Mid OperationalSDP_REQ_INT-283 Pulsar Timing System integration plan compliance-SDP SKA1 Mid OperationalSDP_REQ_INT-284 Pulsar Timing Precursor constraints-SDP SKA1 Mid OperationalSDP_REQ_INT-29 Data Identification. Non-critical information- SDP SKA1 Low Survey Mid. Telescope State InformationSDP_REQ_INT-3 Interface Management Configure interface- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-30 Data Transport. Maximum data rate- SDP SKA1 Low Survey Mid. Telescope State InformationSDP_REQ_INT-31 Protocol. Communicati ons protocol- SDP SKA1 Low Survey Mid. Telescope State InformationSDP_REQ_INT-32 Visibility Organisation- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-33 Visibility Coverage- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-34 Visibility Transport- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-35 Visibility MTU- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-36 Visibility Format- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-37 Visibility Communications protocol- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-38 Visibility Routing- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-39 Visibility Multiple streams- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-4 Interface Management Alarm and event filtering- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-40 Visibility SKA-1 Low Data Rate- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-41 Visibility SKA-1 Survey Data Rate- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-42 Visibility SKA-1 Mid Data Rate- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-43 Visibility Meta-data- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-44 Visibility Antenna Labelling- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-45 Visibility Timestamps- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-46 Visibility Channel / Baseline ID- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-47 Visibility Channel / Baseline Count- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-48 Visibility Schedule Block ID- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-49 Visibility Hardware ID- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-5 Control Configure SDP parameters- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-50 Visibility Time Centroid- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-51 Visibility Complex Visibility- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-52 Visibility Flagging Fraction- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-53 Visibility Normalisation- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-54 Visibility Delay Tracking- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-55 Visibility Doppler Tracking- SDP SKA1 Low, Survey and Mid. Visibility DataSDP_REQ_INT-56 Pulsar Search Transport- SDP SKA1 Mid. Pulsar Search DataSDP_REQ_INT-57 Pulsar Search Format- SDP SKA1 Mid. Pulsar Search DataSDP_REQ_INT-58 Pulsar Search Communications protocol- SDP SKA1 Mid. Pulsar Search DataSDP_REQ_INT-59 Pulsar Search SKA-1 Mid Data Rate- SDP SKA1 Mid. Pulsar Search DataSDP_REQ_INT-6 Safety Locally failsafe- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-60 Pulsar Search Meta-data- SDP SKA1 Mid. Pulsar Search DataSDP_REQ_INT-61 Pulsar Search Candidates- SDP SKA1 Mid. Pulsar Search DataSDP_REQ_INT-62 Pulsar Timing Transport- SDP SKA1 Mid. Pulsar Timing DataSDP_REQ_INT-63 Pulsar Timing Format- SDP SKA1 Mid. Pulsar Timing DataSDP_REQ_INT-64 Pulsar Timing Communications protocol- SDP SKA1 Mid. Pulsar Timing DataSDP_REQ_INT-65 Pulsar Timing SKA-1 Mid Data Rate- SDP SKA1 Mid. Pulsar Timing DataSDP_REQ_INT-66 Pulsar Timing Meta-data- SDP SKA1 Mid. Pulsar Timing DataSDP_REQ_INT-67 Pulsar Timing Communications protocol- SDP SKA1 Mid. Pulsar Timing Data

SDP_REQ_INT-68 Pulsar Timing SKA-1 Mid Data Rate- SDP SKA1 Mid. Pulsar Timing DataSDP_REQ_INT-69 Pulsar Timing Meta-data- SDP SKA1 Mid. Pulsar Timing DataSDP_REQ_INT-7 Monitoring. Report external state model- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-70 Rack size- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-71 Rack standard- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-72 Service area- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-73 Floor loading- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-74 Connection- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-75 Temperature- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-76 Capacity- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-77 Environment- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-78 Additional load- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-79 Data centre power efficiency- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-8 Monitoring.. Report internal states- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-80 Per rack power consumption- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-81 Nominal voltage- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-82 Level variation- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-83 Nominal level- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-84 Harmonic distortion- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-85 Frequency variation- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-86 Controlled shutdown under UPS- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-87 Redundancy- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-88 Scope- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-89 Logging- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-9 Monitoring. Report alarms- SDP SKA1 Low Survey Mid. Monitor and ControlSDP_REQ_INT-90 Configuration- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-91 Ease of Use- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-92 Authentication- SDP Compute SKA1 Common MechanicalSDP_REQ_INT-93 Space allocation- SDP Compute SKA1 Mid MechanicalSDP_REQ_INT-94 Cable trays- SDP Compute SKA1 Mid MechanicalSDP_REQ_INT-95 Overall power consumption- SDP Compute SKA1 Mid ElectricalSDP_REQ_INT-96 Medium- SDP Compute SKA1 Mid Fire ControlSDP_REQ_INT-97 Warning- SDP Compute SKA1 Mid Fire ControlSDP_REQ_INT-98 Space allocation- SDP Compute SKA1 Low MechanicalSDP_REQ_INT-99 Cable trays- SDP Compute SKA1 Low Mechanical

DescriptionThe SDP shall provide a self-description on request from the TM. Through self-description the SDP provides information that describes the content of the interface, including a set of valid commands, parameters, monitoring points, alarms and events.The SDP shall provide the following alarm-related data to the TM: a) Time of detection: Accuracy of TBD milliseconds with a resolution of TBD milliseconds b) Severity of the Event: Categorised by at least 3 levels of comparison c) Description of the event that caused the alarmThe SDP equipment will be limited to an overall power limit of 0.75 MW TBC.The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.INFRA-AUS shall provide sufficient floor space for the installation of 75 racks TBC.INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP equipment will be limited to an overall power limit of 2.0 MW TBC.The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.The racks referred to hereafter shall be of size 1200mm D x 600mm W x 2100mm H.The racks of archive equipment provided by the SDP for installation in the allocated space provided by INFRA shall meet the IEC 60297-3-100 standard TBC in terms of mechanical interfaces and size.The SDP shall report log messages to TM.Additional aisle space in front of racks of 1200mm will be provided by INFRA for each rack of SDP archive equipment to allow for doors, cabling and operator access.Equipment provided by the SDP for installation in the allocated space provided by INFRA shall have a maximum floor loading of 2000 kg per square metre TBC.INFRA shall ensure that the ambient environment of the SDP equipment is no more than 25 degrees Celsius TBC.INFRA shall ensure that the ambient environment of the SDP equipment is in the range 20% to 80% humidity non-concensing.The data centre housing SDP equipment shall have a PUE no greater than 1.25.The SDP equipment will be limited to a maximum of 20 kW per rack.INFRA shall provide a power supply with a nominal voltage of 230V AC.INFRA shall provide a power supply with a variation of no more than TBD % from the steady state level.INFRA shall provide a power supply with a variation of no more than TBD % from the steady state level.INFRA shall provide a power supply with total harmonic distortion less than TBD %.The TM shall control the level at which log messages are reported.INFRA shall provide a power supply with power supply frequency of 50Hz +/I TBD %.INFRA shall provide uninterruptable power at a TBD level for a duration of TBD to the SDP in the event of a major power supply failure.Each rack shall be supplied by two independent power feeds.The access control system provided by INFRA shall ensure that all access attempts to the SDP equipment are logged.The access control system provided by INFRA shall have the ability to provide temporary access for contractors and maintainers as authorised by the SDP.The access control system provided by INFRA shall not impact on staff activities once inside the secure area.The access control system provided by INFRA shall use authentication media that is revocable and replaceable.INFRA-SA shall provide sufficient floor space for the installation of TBD archive racks.INFRA-SA shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP shall ensure that the SDP archive equipment inserts no more than TBD kW of total load into the INFRA environment.The SDP shall make provision for an extensive set of "drill-down" monitoring points in the SDP to enable a capability for fault diagnostics.The SDP archive equipment will be limited to an overall power limit of TBD kW.The fire control system provided by INFRA-SA shall use a medium that complies to the following South African standards (TBD) in order to ensure that unnecessary damage is not caused to SDP archive equipment in the case of a fire suppression event.The fire control system provided by INFRA-SA shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.INFRA-AUS shall provide sufficient floor space for the installation of TBD archive racks.INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP shall ensure that the SDP archive equipment inserts no more than TBD kW of total load into the INFRA environment.The SDP equipment will be limited to an overall power limit of TBD kW.The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.INFRA-AUS shall provide sufficient floor space for the installation of TBD archive racks.The activation of the drill-down capability is TBD.INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP shall ensure that the SDP archive equipment inserts no more than TBD kW of total load into the INFRA environment.The SDP archive equipment will be limited to an overall power limit of TBD kW.

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.59.15bit/s (64 bits/visibility) [RD8] (TBC)Ethernet supporting Jumbo framesDemarcation at SDP switch100Gbit/sContinuous unidirectional data flow from CSP to SDPThe SDP shall report detected failures, and identification of the source of the failure in the SDP product breakdown structure, based on the FMECA analysis. Where applicable, faulty Line Replaceable Units (LRUs) shall be identified.No flow control to be provided by SADT.None requiredNo special requirementsMinimal better than 10-6 suggestedNoneEthernet/IP/UDP/ Application Header /science dataThe pluggable modules shall meet 4x25G electrical I/O CAUI-4 IEEE P802.3bm100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.Number of 100GE connections 592 TBCDC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)The SDP shall report monitoring points that are required for preventive maintenance, as identified in the FMECA analysis.Mains or 48v DC power for the transponder units. TBDReceptor housings on the SDP equipment shall fit with pluggable modulesCFP4..Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.Expected number of rack SADT transponder units TBC.The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlThe SDP, when requested by the TM to commit/engage a capability, shall report the availability of that capability as either: a) Not available b) Available, with degraded performance c) Available with full performanceInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD37.07 Tbps (64 bits/visibility) [RD8] (TBC)Ethernet supporting Jumbo framesDemarcation at SDP switch100Gbit/sContinuous unidirectional data flow from CSP to SDPNo flow control to be provided by SADT.None requiredThe SDP shall present a high-level overview of SDP resource availability.No special requirementsMinimal better than 10-6 suggestedNoneEthernet/IP/UDP/ Application Header /science dataThe pluggable modules shall meet 4x25G electrical I/O CAUI-4 IEEE P802.3bm100 Gigabit Ethernet using CFP4 modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.Number of 100GE connections 371DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)Mains or 48v DC power for the transponder units. TBD

Receptor housings on the SDP equipment shall fit with pluggable modulesCFP4..The SDP shall report on all capabilities available to the telescope.Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.Expected number of rack SADT transponder units ~ TBC.The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSDP shall report information in a hierarchical structure, including a product breakdown structure and a capability structure.The SDP shall report the following events to TM: a) Processing progress: SDP shall report on "Processing Started", "Processing Completed" and "Processing Success/Fail" events to TM to indicate the progress of a capability. b) Mode/Frequency change: SDP shall report on the successful/failed mode or observational frequency band change requested by the TM. c) VO event: SDP shall report on the creation of a VO event.SADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD27.21 Tbps (64 bits/visibility) [RD8] (TBC)Ethernet supporting Jumbo framesDemarcation at SDP switch100Gbit/sContinuous unidirectional data flow from CSP to SDPNo flow control to be provided by SADT.None requiredNo special requirementsMinimal better than 10-6 suggestedThe TM shall provide a "tunnelling" capability to access engineering interfaces of sub-elements remotely.NoneEthernet/IP/UDP/ Application Header /science dataThe pluggable modules shall meet 4x25G electrical I/O CAUI-4 IEEE P802.3bm100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.Number of 100GE connections 273DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)Mains or 48v DC power for the transponder units. TBDReceptor housings on the SDP equipment shall fit with pluggable modulesCFP4..Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.The SDP shall enable patching and upgrade of software and firmware remotely.Expected number of rack SADT transponder units TBC.The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD0.222 Tbit/s TBC [RD10]The TM shall provide "tunnelling" capability to facilitate remote software and firmware upgrades.Ethernet supporting Jumbo framesDemarcation at SDP switch10 Gbit/s

Continuous unidirectional data flow from CSP to SDP. Note the TCP transport uses bidirectional traffic but any feedback for the Pulsar computation goes via TM.No flow control to be provided by SADT.None requiredNo special requirementsMinimal better than 10-6 suggestedNoneEthernet/IP/TCP/ Application Header /science dataThe SDP shall report version information of all software and firmware.The pluggable modules shall meet 4x25G electrical I/O CAUI-4 IEEE P802.3bm10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.Number of 10 GE connections 23DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)Mains or 48v DC power for the transponder units. TBDReceptor housings on the SDP equipment shall fit with pluggable modulesCFP4..Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.Expected number of rack SADT transponder units 1 shared with PST. TBC.The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.The maximum data rate for the transfer of control and monitoring data to facilitate the SDP_TM interface is TBD.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD0.002 Tbit/s TBCEthernet supporting Jumbo framesDemarcation at SDP switchThe communications protocol for this interface is defined in Section 5 of this document.10 Gbit/sContinuous unidirectional data flow from CSP to SDP. Note the TCP transport uses bidirectional traffic but any feedback for the Pulsar computation goes via TMNo flow control to be provided by SADT.None requiredNo special requirementsMinimal better than 10-6 suggestedNoneEthernet/IP/TCP/ Application Header /science dataThe pluggable modules shall meet 4x25G electrical I/O CAUI-4 IEEE P802.3bm10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.The TM shall ensure that all Telescope State Information contained in the Telescope Model will be available for transmission to the SDP in one of the categories defined below.Number of 10 GE connections 1DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)Mains or 48v DC power for the transponder units. TBDReceptor housings on the SDP equipment shall fit with pluggable modulesCFP4..Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.Expected number of rack SADT transponder units 1 shared with PSS TBC.The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfacesAll traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PC

SADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerThe TM shall send and the SDP shall receive Telescope State Information as detailed in Appendix X within TBD seconds of the TM receiving such state information. These information points are classified as critical for the purposes of this document.In non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose ofInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBD.SADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBDThe TM shall send and the SDP shall receive Telescope State Information other than that detailed in Appendix X within TBD seconds of the TM receiving such state information. These information points are classified as non-critical for the purposes of this document.The TM shall be able to request the SDP to configure the level of reporting of monitoring points, alarms, events and logs.The maximum data rate for the transfer of control and monitoring data to facilitate the SDP_TM interface is TBD.The communications protocol for this interface is defined in Section 5 of this document.See 2.1.3 for information on data organisation.For a given set of frequency channels the CSP shall produce all possible cross-correlations and auto-correlations.The CSP shall produce visibility data using UDP/IP on IEEE 802.3 Ethernet frames.The UDP MTU shall be as large as possible, whilst still maintaining transmission compatibility with COTS networking equipment.See 2.1.3 for information on data format.SPEAD [AD1] with visibility specific payload format. The communications protocol for this interface is further defined in Section 5 of this document.Subsets of the visibility data hierarchy shall be routable to specific IP and port combinations. Subsets are still TBD.The CSP, when producing multiple streams of visibility data, will provide sufficient control and meta-data to allow each stream to be independently received by the SDP.The SDP shall filter alarms and events to prevent the reporting of alarms for items that are not fitted or that are under maintenance.The CSP-Low shall send and the SDP-Low shall receive visibility data at a maximum rate of 72.64 Tbps (TBC).The CSP-Survey shall send and the SDP-Survey shall receive visibility data at a maximum rate of 45.54 Tbps (TBC).The CSP-Mid shall send and the SDP-Mid shall receive visibility data at a maximum rate of 33.45 Tbps (TBC).The CSP shall provide sufficient meta-data with the visibility data to allow the receiver to fully decode any encapsulation without additional information. Specifically this will include the ability to convert timestamp information into an absolute time standard (UTC, TBD).Metadata included with visibility data will include labels of antennas forming the visibility in the format as used by TM. The order of antenna labels forming the visibility shall be according to the sign convention of the SKA telescope.64-bit integer UTC timestamp epoch of the last sample that was integrated (i.e. whether flagged/not correlated, or not). 32 bits is 1 second count since UTC epoch; 32 bits is fraction of a 1 second, providing ~0.25 ns timestamp resolution. As a minimum each integration time (60ms) needs to be uniquely identified. Nanosecond timestamp resolution is needed for pulsar phase binning use cases.Channel ID, baseline ID and beam ID (Survey only) once per integration time. 26-bit baseline polarisation ID (to allow for 10e4 stations in SKA2) and a 22-bit channel ID for Low and Mid. 22-bit baseline ID (to allow for ~3k stations in SKA2), a 20-bit channel ID, and a 6-bit beam ID for Survey. Provides offset into channel / baseline visibility array for this particular heap.Provides counts for the two dimensions of the channel / baseline visibility array. When used in conjunction with the ID, uniquely identifies the portion of the overall array in this heap. 26 bits for the baseline count and 22 bits for the channel count.A 64-bit schedule block ID used to uniquely associate correlator data with a particular observation. This ID will be provided to the CSP by TM. Actual bit length is TBD pending decision from TM.Hardware source ID, 24-bit. This indicates the hardware source of the data for testing/troubleshooting/back tracing to a hardware fault.The TM shall configure the SDP parameters as required for the observation.Time centroid index (TCI), as 8-bit integer (TBD). Is the unit-less calculated centroid of the integration interval.Complex visibility, two 32-bit single-precision floating point numbers already data valid normalized.8-bit (TBD) integer indicating the fraction of data (FD) that was correlated. Encode the square root of FD in 8 bits. Reserve 1 bit of the FD for a hardware fault flagThe CSP shall not perform Van Vleck, or any other normalization corrections, on the visibility data.The CSP shall apply delay tracking and fringe stopping corrections to each channel, as supplied by the TM, to all visibility data sent to the SDP.The CSP shall apply Doppler tracking corrections, as supplied by the TM, to all visibility data sent to the SDPThe CSP shall produce pulsar search data using TCP/IP on IEEE 802.3 Ethernet frames.The format for pulsar search candidates is TBD.Unidirectional high-level message passing protocol running on TCP/IP.5The CSP-Mid shall send and the SDP-Mid shall receive pulsar search data at a maximum rate of 10 Gbps. The CSP-Mid shall send and the SDP-Mid shall receive transient or single pulse search data at a maximum data rate of 4 Gbps.The SDP shall be designed to be locally fail-safe and not be dependent on any external inputs from TM for safety.The CSP shall provide sufficient meta-data with the pulsar search data to allow the receiver to fully decode any encapsulation without additional information.List of pulsar search candidates in TBD format.The CSP shall produce pulsar timing data using TCP/IP on IEEE 802.3 Ethernet frames.1. The format for the pulsar timing data is defined as PSRFITS file format. Individual files are 10s dumps Each file is max 68 MB per beam per dumpFile transfer between CSP and SDP using rsync (TBC).The CSP-Mid shall send and the SDP-Mid shall receive pulsar timing data at a maximum rate of 9.4 Gbps (this data rate is for the payload data only and does not include overhead for the file format, protocol, etc.)The CSP shall provide sufficient meta-data with the pulsar timing data to allow the receiver to fully decode any encapsulation without additional information.File transfer between CSP and SDP using rsync (TBC).

The CSP-Mid shall send and the SDP-Mid shall receive pulsar timing data at a maximum rate of 9.4 Gbps (this data rate is for the payload data only and does not include overhead for the file format, protocol, etc.)The CSP shall provide sufficient meta-data with the pulsar timing data to allow the receiver to fully decode any encapsulation without additional information.The SDP shall report the SDP element external state to TM.The racks referred to hereafter shall be of size 1200mm D x 600mm W x 2100mm H.The racks of equipment provided by the SDP for installation in the allocated space provided by INFRA shall meet the IEC 60297-3-100 standard TBC in terms of mechanical interfaces and size.Additional aisle space in front of racks of 1200mm will be provided by INFRA for each rack of SDP equipment to allow for doors, cabling and operator access.Equipment provided by the SDP for installation in the allocated space provided by INFRA shall have a maximum floor loading of 2000 kg per square metre TBC.INFRA will provide a fluid interface to each SDP rack that conforms to the TBD standard.INFRA shall ensure that the temperature of the cooling fluid at the point of ingress to the SDP rack is no more than 22 degrees Celsius TBC.The SDP shall ensure that the SDP rack presents no more than 50 kW TBC of heat load to the cooling medium.INFRA shall ensure that the ambient environment of the SDP equipment is no more than 25 degrees Celsius TBC.The SDP shall ensure that the SDP equipment inserts no more than TBD kW of additional load into the INFRA environment.The data centre housing SDP equipment shall have a PUE no greater than 1.25.The SDP shall report the internal states of sub-elements to TM.The SDP equipment will be limited to a maximum of 50 kW per rack.INFRA shall provide a power supply with a nominal 3-phase voltage of 400V AC.INFRA shall provide a power supply with a variation of no more than TBD % from the steady state level.INFRA shall provide a power supply with a steady state voltage equal to the specified nominal voltage +10/-6% TBC.INFRA shall provide a power supply with total harmonic distortion less than TBD %.INFRA shall provide a power supply with power supply frequency of 50Hz +/-TBD %.INFRA shall provide uninterruptable power at a TBD level for a duration of TBD to the SDP in the event of a major power supply failure.Each rack shall be supplied by two independent power feeds.An access control system provided by INFRA shall prevent unauthorised access to all SDP equipment.The access control system provided by INFRA shall ensure that all access attempts to the SDP equipment are logged.The SDP shall report alarms for conditions and failures that: a) pose hazards to equipment, data or personnel b) reduce the effectiveness of SDP to perform its prime functions or provide capabilities.The access control system provided by INFRA shall have the ability to provide temporary access for contractors and maintainers as authorised by the SDP.The access control system provided by INFRA shall not impact on staff activities once inside the secure area.The access control system provided by INFRA shall use authentication media that is revocable and replaceable.INFRA-SA shall provide sufficient floor space for the installation of 100 racks TBC.INFRA-SA shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP equipment will be limited to an overall power limit of 3.2MW.The fire control system provided by INFRA-SA shall use a medium that complies to the following South African standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-SA shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.INFRA-AUS shall provide sufficient floor space for the installation of 25 racks TBC.INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].

Decomposes Decomposed byThe SDP shall provide a self-description on request from the TM. Through self-description the SDP provides information that describes the content of the interface, including a set of valid commands, parameters, monitoring points, alarms and events.The SDP shall provide the following alarm-related data to the TM: a) Time of detection: Accuracy of TBD milliseconds with a resolution of TBD milliseconds b) Severity of the Event: Categorised by at least 3 levels of comparison c) Description of the event that caused the alarm

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.

INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.

The racks of archive equipment provided by the SDP for installation in the allocated space provided by INFRA shall meet the IEC 60297-3-100 standard TBC in terms of mechanical interfaces and size.

Additional aisle space in front of racks of 1200mm will be provided by INFRA for each rack of SDP archive equipment to allow for doors, cabling and operator access.Equipment provided by the SDP for installation in the allocated space provided by INFRA shall have a maximum floor loading of 2000 kg per square metre TBC.INFRA shall ensure that the ambient environment of the SDP equipment is no more than 25 degrees Celsius TBC.INFRA shall ensure that the ambient environment of the SDP equipment is in the range 20% to 80% humidity non-concensing.

INFRA shall provide a power supply with a variation of no more than TBD % from the steady state level.INFRA shall provide a power supply with a variation of no more than TBD % from the steady state level.

INFRA shall provide uninterruptable power at a TBD level for a duration of TBD to the SDP in the event of a major power supply failure.

The access control system provided by INFRA shall ensure that all access attempts to the SDP equipment are logged.The access control system provided by INFRA shall have the ability to provide temporary access for contractors and maintainers as authorised by the SDP.The access control system provided by INFRA shall not impact on staff activities once inside the secure area.The access control system provided by INFRA shall use authentication media that is revocable and replaceable.

INFRA-SA shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP shall ensure that the SDP archive equipment inserts no more than TBD kW of total load into the INFRA environment.The SDP shall make provision for an extensive set of "drill-down" monitoring points in the SDP to enable a capability for fault diagnostics.

The fire control system provided by INFRA-SA shall use a medium that complies to the following South African standards (TBD) in order to ensure that unnecessary damage is not caused to SDP archive equipment in the case of a fire suppression event.The fire control system provided by INFRA-SA shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.

INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP shall ensure that the SDP archive equipment inserts no more than TBD kW of total load into the INFRA environment.

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.

INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].The SDP shall ensure that the SDP archive equipment inserts no more than TBD kW of total load into the INFRA environment.

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-AUS shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.

The SDP shall report detected failures, and identification of the source of the failure in the SDP product breakdown structure, based on the FMECA analysis. Where applicable, faulty Line Replaceable Units (LRUs) shall be identified.

100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)The SDP shall report monitoring points that are required for preventive maintenance, as identified in the FMECA analysis.

Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.

The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlThe SDP, when requested by the TM to commit/engage a capability, shall report the availability of that capability as either: a) Not available b) Available, with degraded performance c) Available with full performanceInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD

100 Gigabit Ethernet using CFP4 modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)

Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.

The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSDP shall report information in a hierarchical structure, including a product breakdown structure and a capability structure.The SDP shall report the following events to TM: a) Processing progress: SDP shall report on "Processing Started", "Processing Completed" and "Processing Success/Fail" events to TM to indicate the progress of a capability. b) Mode/Frequency change: SDP shall report on the successful/failed mode or observational frequency band change requested by the TM. c) VO event: SDP shall report on the creation of a VO event.SADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD

The TM shall provide a "tunnelling" capability to access engineering interfaces of sub-elements remotely.

100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)

Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.

The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD

Continuous unidirectional data flow from CSP to SDP. Note the TCP transport uses bidirectional traffic but any feedback for the Pulsar computation goes via TM.

10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)

Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.

The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfaces.The maximum data rate for the transfer of control and monitoring data to facilitate the SDP_TM interface is TBD.All traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PCSADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT linksInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBDSADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBD

Continuous unidirectional data flow from CSP to SDP. Note the TCP transport uses bidirectional traffic but any feedback for the Pulsar computation goes via TM

10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.The TM shall ensure that all Telescope State Information contained in the Telescope Model will be available for transmission to the SDP in one of the categories defined below.

DC power for the pluggable units taken from the Ethernet switch.CAUI-4 IEEE P802.3bm Power Watts (TBD)

Physical space shall be available for the cables or fibres required for client and line side connections.Standard 19 inch rack space conforming to IEC 60297 or ETS 300119 will be required from SDP for SADT transponder equipment. The amount of rack space per SADT transponder unit is 10 U TBC.

The SADT transponders shall have a Network Management System capable of controlling and monitoring the line and client side interfacesAll traffic management functionality provided by SADT equipment shall have an end user controllable terminal interface provided by SADT e.g. Network manager/craft terminal PC

SADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerThe TM shall send and the SDP shall receive Telescope State Information as detailed in Appendix X within TBD seconds of the TM receiving such state information. These information points are classified as critical for the purposes of this document.In non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose ofInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlInteroperability between end element equipment and internal interfaces shall be maintained during system build upgrades using strict version controlSADT equipment shall operate according to a system-wide (multi-element) integration test plan owned by the SKAO � TBD.SADT equipment interfaces and constraints due to the precursor telescopes on site shall be provided system-wide by the SKAO and AIV consortium - TBDThe TM shall send and the SDP shall receive Telescope State Information other than that detailed in Appendix X within TBD seconds of the TM receiving such state information. These information points are classified as non-critical for the purposes of this document.The TM shall be able to request the SDP to configure the level of reporting of monitoring points, alarms, events and logs.The maximum data rate for the transfer of control and monitoring data to facilitate the SDP_TM interface is TBD.

For a given set of frequency channels the CSP shall produce all possible cross-correlations and auto-correlations.

The UDP MTU shall be as large as possible, whilst still maintaining transmission compatibility with COTS networking equipment.

SPEAD [AD1] with visibility specific payload format. The communications protocol for this interface is further defined in Section 5 of this document.Subsets of the visibility data hierarchy shall be routable to specific IP and port combinations. Subsets are still TBD.The CSP, when producing multiple streams of visibility data, will provide sufficient control and meta-data to allow each stream to be independently received by the SDP.The SDP shall filter alarms and events to prevent the reporting of alarms for items that are not fitted or that are under maintenance.The CSP-Low shall send and the SDP-Low shall receive visibility data at a maximum rate of 72.64 Tbps (TBC).The CSP-Survey shall send and the SDP-Survey shall receive visibility data at a maximum rate of 45.54 Tbps (TBC).The CSP-Mid shall send and the SDP-Mid shall receive visibility data at a maximum rate of 33.45 Tbps (TBC).The CSP shall provide sufficient meta-data with the visibility data to allow the receiver to fully decode any encapsulation without additional information. Specifically this will include the ability to convert timestamp information into an absolute time standard (UTC, TBD).Metadata included with visibility data will include labels of antennas forming the visibility in the format as used by TM. The order of antenna labels forming the visibility shall be according to the sign convention of the SKA telescope.64-bit integer UTC timestamp epoch of the last sample that was integrated (i.e. whether flagged/not correlated, or not). 32 bits is 1 second count since UTC epoch; 32 bits is fraction of a 1 second, providing ~0.25 ns timestamp resolution. As a minimum each integration time (60ms) needs to be uniquely identified. Nanosecond timestamp resolution is needed for pulsar phase binning use cases.Channel ID, baseline ID and beam ID (Survey only) once per integration time. 26-bit baseline polarisation ID (to allow for 10e4 stations in SKA2) and a 22-bit channel ID for Low and Mid. 22-bit baseline ID (to allow for ~3k stations in SKA2), a 20-bit channel ID, and a 6-bit beam ID for Survey. Provides offset into channel / baseline visibility array for this particular heap.Provides counts for the two dimensions of the channel / baseline visibility array. When used in conjunction with the ID, uniquely identifies the portion of the overall array in this heap. 26 bits for the baseline count and 22 bits for the channel count.A 64-bit schedule block ID used to uniquely associate correlator data with a particular observation. This ID will be provided to the CSP by TM. Actual bit length is TBD pending decision from TM.Hardware source ID, 24-bit. This indicates the hardware source of the data for testing/troubleshooting/back tracing to a hardware fault.

Time centroid index (TCI), as 8-bit integer (TBD). Is the unit-less calculated centroid of the integration interval.Complex visibility, two 32-bit single-precision floating point numbers already data valid normalized.8-bit (TBD) integer indicating the fraction of data (FD) that was correlated. Encode the square root of FD in 8 bits. Reserve 1 bit of the FD for a hardware fault flag

The CSP shall apply delay tracking and fringe stopping corrections to each channel, as supplied by the TM, to all visibility data sent to the SDP.The CSP shall apply Doppler tracking corrections, as supplied by the TM, to all visibility data sent to the SDP

The CSP-Mid shall send and the SDP-Mid shall receive pulsar search data at a maximum rate of 10 Gbps. The CSP-Mid shall send and the SDP-Mid shall receive transient or single pulse search data at a maximum data rate of 4 Gbps.The SDP shall be designed to be locally fail-safe and not be dependent on any external inputs from TM for safety.The CSP shall provide sufficient meta-data with the pulsar search data to allow the receiver to fully decode any encapsulation without additional information.

1. The format for the pulsar timing data is defined as PSRFITS file format. Individual files are 10s dumps Each file is max 68 MB per beam per dump

The CSP-Mid shall send and the SDP-Mid shall receive pulsar timing data at a maximum rate of 9.4 Gbps (this data rate is for the payload data only and does not include overhead for the file format, protocol, etc.)The CSP shall provide sufficient meta-data with the pulsar timing data to allow the receiver to fully decode any encapsulation without additional information.

The CSP-Mid shall send and the SDP-Mid shall receive pulsar timing data at a maximum rate of 9.4 Gbps (this data rate is for the payload data only and does not include overhead for the file format, protocol, etc.)The CSP shall provide sufficient meta-data with the pulsar timing data to allow the receiver to fully decode any encapsulation without additional information.

The racks of equipment provided by the SDP for installation in the allocated space provided by INFRA shall meet the IEC 60297-3-100 standard TBC in terms of mechanical interfaces and size.Additional aisle space in front of racks of 1200mm will be provided by INFRA for each rack of SDP equipment to allow for doors, cabling and operator access.Equipment provided by the SDP for installation in the allocated space provided by INFRA shall have a maximum floor loading of 2000 kg per square metre TBC.

INFRA shall ensure that the temperature of the cooling fluid at the point of ingress to the SDP rack is no more than 22 degrees Celsius TBC.The SDP shall ensure that the SDP rack presents no more than 50 kW TBC of heat load to the cooling medium.INFRA shall ensure that the ambient environment of the SDP equipment is no more than 25 degrees Celsius TBC.The SDP shall ensure that the SDP equipment inserts no more than TBD kW of additional load into the INFRA environment.

INFRA shall provide a power supply with a variation of no more than TBD % from the steady state level.INFRA shall provide a power supply with a steady state voltage equal to the specified nominal voltage +10/-6% TBC.

INFRA shall provide uninterruptable power at a TBD level for a duration of TBD to the SDP in the event of a major power supply failure.

An access control system provided by INFRA shall prevent unauthorised access to all SDP equipment.The access control system provided by INFRA shall ensure that all access attempts to the SDP equipment are logged.The SDP shall report alarms for conditions and failures that: a) pose hazards to equipment, data or personnel b) reduce the effectiveness of SDP to perform its prime functions or provide capabilities.The access control system provided by INFRA shall have the ability to provide temporary access for contractors and maintainers as authorised by the SDP.The access control system provided by INFRA shall not impact on staff activities once inside the secure area.The access control system provided by INFRA shall use authentication media that is revocable and replaceable.

INFRA-SA shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].

The fire control system provided by INFRA-SA shall use a medium that complies to the following South African standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.The fire control system provided by INFRA-SA shall provide visual and audible warnings prior to the activation of the fire suppression system to allow evacuation of personnel from the environment.

INFRA-AUS shall supply and install cable trays sufficient to cover the following requirements [width, mass loading, above/below are TBD].

Satisfied byThe SDP shall provide a self-description on request from the TM. Through self-description the SDP provides information that describes the content of the interface, including a set of valid commands, parameters, monitoring points, alarms and events.The SDP shall provide the following alarm-related data to the TM: a) Time of detection: Accuracy of TBD milliseconds with a resolution of TBD milliseconds b) Severity of the Event: Categorised by at least 3 levels of comparison c) Description of the event that caused the alarm

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.

The fire control system provided by INFRA-SA shall use a medium that complies to the following South African standards (TBD) in order to ensure that unnecessary damage is not caused to SDP archive equipment in the case of a fire suppression event.

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.

The fire control system provided by INFRA-AUS shall use a medium that complies to the following Australian standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.

The SDP shall report detected failures, and identification of the source of the failure in the SDP product breakdown structure, based on the FMECA analysis. Where applicable, faulty Line Replaceable Units (LRUs) shall be identified.

100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

SADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT links

The SDP, when requested by the TM to commit/engage a capability, shall report the availability of that capability as either: a) Not available b) Available, with degraded performance c) Available with full performance

100 Gigabit Ethernet using CFP4 modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

SADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT links

The SDP shall report the following events to TM: a) Processing progress: SDP shall report on "Processing Started", "Processing Completed" and "Processing Success/Fail" events to TM to indicate the progress of a capability. b) Mode/Frequency change: SDP shall report on the successful/failed mode or observational frequency band change requested by the TM. c) VO event: SDP shall report on the creation of a VO event.

100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

SADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT links

10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

SADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerIn non-observation mode the SADT equipment shall self-generate and receive PRBS data streams, or interface to external test equipment, for the purpose of performance margin testing and maintenance of SADT links

10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

SADT shall provide method to monitor OSI layer 1 statistics inside its interface boundary and collect statistics from end element packetisers and transceiver modules (DOM) via TM and the SADT network managerThe TM shall send and the SDP shall receive Telescope State Information as detailed in Appendix X within TBD seconds of the TM receiving such state information. These information points are classified as critical for the purposes of this document.

The TM shall send and the SDP shall receive Telescope State Information other than that detailed in Appendix X within TBD seconds of the TM receiving such state information. These information points are classified as non-critical for the purposes of this document.

The CSP shall provide sufficient meta-data with the visibility data to allow the receiver to fully decode any encapsulation without additional information. Specifically this will include the ability to convert timestamp information into an absolute time standard (UTC, TBD).Metadata included with visibility data will include labels of antennas forming the visibility in the format as used by TM. The order of antenna labels forming the visibility shall be according to the sign convention of the SKA telescope.64-bit integer UTC timestamp epoch of the last sample that was integrated (i.e. whether flagged/not correlated, or not). 32 bits is 1 second count since UTC epoch; 32 bits is fraction of a 1 second, providing ~0.25 ns timestamp resolution. As a minimum each integration time (60ms) needs to be uniquely identified. Nanosecond timestamp resolution is needed for pulsar phase binning use cases.Channel ID, baseline ID and beam ID (Survey only) once per integration time. 26-bit baseline polarisation ID (to allow for 10e4 stations in SKA2) and a 22-bit channel ID for Low and Mid. 22-bit baseline ID (to allow for ~3k stations in SKA2), a 20-bit channel ID, and a 6-bit beam ID for Survey. Provides offset into channel / baseline visibility array for this particular heap.Provides counts for the two dimensions of the channel / baseline visibility array. When used in conjunction with the ID, uniquely identifies the portion of the overall array in this heap. 26 bits for the baseline count and 22 bits for the channel count.

The CSP-Mid shall send and the SDP-Mid shall receive pulsar search data at a maximum rate of 10 Gbps. The CSP-Mid shall send and the SDP-Mid shall receive transient or single pulse search data at a maximum data rate of 4 Gbps.

The CSP-Mid shall send and the SDP-Mid shall receive pulsar timing data at a maximum rate of 9.4 Gbps (this data rate is for the payload data only and does not include overhead for the file format, protocol, etc.)

The CSP-Mid shall send and the SDP-Mid shall receive pulsar timing data at a maximum rate of 9.4 Gbps (this data rate is for the payload data only and does not include overhead for the file format, protocol, etc.)

The fire control system provided by INFRA-SA shall use a medium that complies to the following South African standards (TBD) in order to ensure that unnecessary damage is not caused to SDP equipment in the case of a fire suppression event.

100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

100 Gigabit Ethernet using CFP4 modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

The SDP shall report the following events to TM: a) Processing progress: SDP shall report on "Processing Started", "Processing Completed" and "Processing Success/Fail" events to TM to indicate the progress of a capability. b) Mode/Frequency change: SDP shall report on the successful/failed mode or observational frequency band change requested by the TM. c) VO event: SDP shall report on the creation of a VO event.

100 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

10 Gigabit Ethernet pluggable modules see document �CSP-SDP Data Transmission, Concept Design, Equipment and Architecture� [RD6]. Note: The packet flow is presented as a 100Gigabit stream out of the pluggable module. SDP is responsible for the Ethernet switching required to deliver the flows to the SDP receiving equipment.

64-bit integer UTC timestamp epoch of the last sample that was integrated (i.e. whether flagged/not correlated, or not). 32 bits is 1 second count since UTC epoch; 32 bits is fraction of a 1 second, providing ~0.25 ns timestamp resolution. As a minimum each integration time (60ms) needs to be uniquely identified. Nanosecond timestamp resolution is needed for pulsar phase binning use cases.Channel ID, baseline ID and beam ID (Survey only) once per integration time. 26-bit baseline polarisation ID (to allow for 10e4 stations in SKA2) and a 22-bit channel ID for Low and Mid. 22-bit baseline ID (to allow for ~3k stations in SKA2), a 20-bit channel ID, and a 6-bit beam ID for Survey. Provides offset into channel / baseline visibility array for this particular heap.

The SDP shall report the following events to TM: a) Processing progress: SDP shall report on "Processing Started", "Processing Completed" and "Processing Success/Fail" events to TM to indicate the progress of a capability. b) Mode/Frequency change: SDP shall report on the successful/failed mode or observational frequency band change requested by the TM. c) VO event: SDP shall report on the creation of a VO event.

PDR03-requirements-matrixEchoSign Document History February 09, 2015

Created: February 09, 2015

By: Verity Allan (vla22@mrao.cam.ac.uk)

Status: SIGNED

Transaction ID: XJEEYA24A7DXX4D

“PDR03-requirements-matrix” HistoryDocument created by Verity Allan (vla22@mrao.cam.ac.uk)February 09, 2015 - 2:23 PM GMT - IP address: 131.111.185.15

Document emailed to Ferdl Graser (ferdl@scs-space.com) for signatureFebruary 09, 2015 - 2:24 PM GMT

Document viewed by Ferdl Graser (ferdl@scs-space.com)February 09, 2015 - 2:30 PM GMT - IP address: 41.164.31.98

Document e-signed by Ferdl Graser (ferdl@scs-space.com)Signature Date: February 09, 2015 - 2:31 PM GMT - Time Source: server - IP address: 41.164.31.98

Document emailed to Paul Alexander (pa@mrao.cam.ac.uk) for signatureFebruary 09, 2015 - 2:31 PM GMT

Document viewed by Paul Alexander (pa@mrao.cam.ac.uk)February 09, 2015 - 6:33 PM GMT - IP address: 131.111.185.15

Document e-signed by Paul Alexander (pa@mrao.cam.ac.uk)Signature Date: February 09, 2015 - 6:33 PM GMT - Time Source: server - IP address: 131.111.185.15

Signed document emailed to Paul Alexander (pa@mrao.cam.ac.uk), Verity Allan (vla22@mrao.cam.ac.uk) andFerdl Graser (ferdl@scs-space.com)February 09, 2015 - 6:33 PM GMT