carrier grade blade system

Advance Technologies; Automate the World.

Manual Rev. 2.00

Revision Date: October 7, 2004

Part No: 50-1F001-100

Carrier Grade Blade System

cPSB-880 Series

User’s Manual

Copyright 2004 ADLINK TECHNOLOGY INC.

All Rights Reserved.

The information in this document is subject to change without priornotice in order to improve reliability, design, and function and doesnot represent a commitment on the part of the manufacturer.

In no event will the manufacturer be liable for direct, indirect, spe-cial, incidental, or consequential damages arising out of the use orinability to use the product or documentation, even if advised ofthe possibility of such damages.

This document contains proprietary information protected by copy-right. All rights are reserved. No part of this manual may be repro-duced by any mechanical, electronic, or other means in any formwithout prior written permission of the manufacturer.

Trademarks

Product names mentioned herein are used for identification pur-poses only and may be trademarks and/or registered trademarksof their respective companies.

Getting Service from ADLINKCustomer Satisfaction is top priority for ADLINK Technology Inc.Please contact us should you require any service or assistance.

ADLINK TECHNOLOGY INC.Web Site: http://www.adlinktech.comSales & Service: [email protected]: +886-2-82265877FAX: +886-2-82265717Address: 9F, No. 166, Jian Yi Road, Chungho City,

Taipei, 235 Taiwan

Please email or FAX this completed service form for prompt andsatisfactory service.

Company InformationCompany/OrganizationContact PersonE-mail AddressAddressCountryTEL FAX:Web Site

Product InformationProduct Model

EnvironmentOS:M/B: CPU:Chipset: Bios:

Please give a detailed description of the problem(s):

Table of Contents i

Table of ContentsList of Tables.......................................................................... iii

List of Figures ......................................................................... v

1 Introduction ........................................................................ 11.1 Product Overview ................................................................ 11.2 Mechanical Layout............................................................... 11.3 System Architecture............................................................. 31.4 Features............................................................................... 31.5 Specifications....................................................................... 41.6 cPSB-880 Configurations .................................................... 6

Base Model ..................................................................... 6Module Options ............................................................... 7

2 Getting Started ................................................................... 92.1 Shipping Contents ............................................................... 92.2 CompactPCI Computing Blade & PSU Installation.............. 9

CompactPCI Card Installation/Removal Procedure ...... 102.3 Rear Transition Module Installation ................................... 132.4 Powering Up the System ................................................... 132.5 System Alarm Board.......................................................... 14

3 Computing Blades............................................................ 153.1 cPCI-6830.......................................................................... 15

Features ....................................................................... 17Specifications ................................................................ 17

3.2 cPCI-6860.......................................................................... 19Features ....................................................................... 21Specifications ................................................................ 21

3.3 cPCI-6820/6810................................................................. 23Features ....................................................................... 26Specifications ................................................................ 27

ii Table of Contents

4 Switching Fabric Blade .................................................... 294.1 CPC-3400F........................................................................ 29

RTM (Rear Transition Module) ..................................... 30Features ........................................................................ 33Specifications ................................................................ 33

4.2 cPC-4406F (cPC-4416F) ................................................... 34RTM (Rear Transition Modules) ................................... 35Features ........................................................................ 39Specifications ................................................................ 39

4.3 cPC-6400........................................................................... 41RTM (Rear Transition Modules) ................................... 42Features ........................................................................ 44Specifications ................................................................ 44

5 Chassis Management Module.......................................... 475.1 CMM Overview .................................................................. 47

CMM System Management Architecture ...................... 50Features ........................................................................ 50Specifications ................................................................ 51

5.2 CMM Setup....................................................................... 525.3 CMM Firmware Update...................................................... 58

Important Safety Instructions............................................... 63

Warranty Policy ..................................................................... 65

List of Tables iii

List of TablesTable 1-1: cPSB-880 Series Specifications ............................... 4Table 1-2: cPSB-880 Series Configurations .............................. 6Table 1-3: cPSB-880 Series Module Options ............................ 7Table 3-1: cPSB-880 Series Computing Blade Descriptions ... 15Table 3-2: cPCI-6830 Computing Blade Specifications ........... 17Table 3-3: cPCI-6860 Computing Blade Specifications ........... 21Table 3-4: cPCI-6820/10 Computing Blade Specifications ...... 27Table 4-1: cPSB-880 Series Switching Fabric Blades ............. 34Table 4-2: CPC-4406 Switching Fabric Blade Specifications .. 39Table 4-3: CPC-6400 Switching Fabric Blade Specifications .. 44Table 5-1: cPC-8603 Chassis Management Module Specifications

51

iv List of Tables

List of Figures v

List of FiguresFigure 1-1: Mechanical Layout of the cPSB-880 ......................... 2Figure 2-1: cPSB-880 Series slot layout. ................................... 10Figure 2-2: Installing 3U Power Supply Units. ........................... 11Figure 2-3: Installing 6U Processor Blade. ................................ 11Figure 2-4: Latching the module handles securely. ................... 12Figure 3-1: cPCI-6830 Top and Front view................................ 16Figure 3-2: cPCI-R6830 Top and Front view ............................. 16Figure 3-3: cPCI-6860 Top and Front view................................ 20Figure 3-4: cPCI-R6860 Top and Front view ............................. 20Figure 3-5: cPCI-6810 Top and Front view................................ 24Figure 3-6: cPCI-6820 Top and Front view................................ 25Figure 3-7: cPCI-R6820 Top and Front view ............................. 26Figure 4-1: cPC-3400F Top and Front view............................... 30Figure 4-2: CPC-3400 RTMs ..................................................... 32Figure 4-3: CPC-4406 Top and Front view ................................ 35Figure 4-4: CPC4406 RTMs ...................................................... 38Figure 4-5: cPCI-6400 Top and Front view................................ 41Figure 4-6: cPC-6400 Top and Front view................................. 43Figure 5-1: cPC-8603 Top and Front view................................. 48Figure 5-2: cPC-R8603 RTM Top and Front view ..................... 48Figure 5-3: N2525A CMM module Top and Isometric view ....... 49

vi List of Figures

Introduction 1

1 Introduction1.1 Product OverviewThe cPSB-880 Series 9U Packet Switched Blade Platform is anideal development platform for telecom applications focusing ongateways such as media and signaling gateways, as well as tele-com value-added services like Location Based Service (LBS),Ring Back Tone (RBT), and Multimedia Message Systems (MMS).This flexible and reliable PICMG 2.16 compliant development plat-form with optimized I/O and storage provides the best solution forequipment manufacturers and system integrators and shortenstime-to-market for fast growing business revenues.

The cPSB-880 supports eight PICMG 2.16 compliant slots, up to 6node slots and 2 fabric slots supporting 64-bit/66MHz PCI andH.110 CT bus, embedded CD-ROM and floppy drives, and 2 to 3HDDs for RAID implementation. Application developers will neverfind a better PICMG 2.16 platform with such a flexible and care-fully considered design.

1.2 Mechanical LayoutRefer to the photographs below for the mechanical layout of thecPSB-880.

1. Alarm LEDs for Voltages, Fans and Temp

2. Guarded PWR/ON & Alarm Reset button

3. Drive bays

4. N+1 Redundancy Power Modules

5. Redundant cooling system: 5 fans suck-in and 5 fansblow-out

6. Telco grade look’n’feel honeycomb style grille

7. 8-slots (6 node slots & 2 fabric slots)

8. Two 51 CFM fans improve cooling for power bank

9. AC inlet with magnetic circuit breaker protection

2 Introduction

Figure 1-1: Mechanical Layout of the cPSB-880

Front View

Alarm LEDsVoltage, Fan, Temp

Guarded PWR/ONAlarm Reset

Drive Bays

N+1 Hot swappable 500W+250W

redundant cPCI power supplies

Redundant cooling system 5 fans (suck in), 5 fans (blow out)

Rear View

Telco grade look ‘n feel honeycomb style grille

8 slots (6 node slots & 2 fabric slots

Two 51 DFM fans for efficient power bank

cooling

AC inlet with magnetic circuit breaker

protection

Introduction 3

1.3 System ArchitectureThe cPSB-880 Series uses the following system architecture:

1.4 FeaturesStandard 6U CompactPCI and PICMG 2.16, 2.9 & H.110 CT Bus Dual PICMG 2.16 fabric slots for switching-HA8 slots (6 node slots and 2 fabric slots), 8 RTM slotsN+1 hot swappable 500W+250W redundant cPCI power supplies Optional PICMG 2.9 CMM with Intelligent Platform Manage-ment Interface (IPMI) CMM for remote monitoring and con-trol of the system via EthernetOne 64-bit/66MHz cPCI bus SegmentN+N(5+5+2) hot swappable redundant cooling architectureDesigned for NEBS Level 3 compliance

4 Introduction

1.5 Specifications

CompactPCI Standards PICMG 2.0; 2.1; 2.5; 2.9; 2.11; 2.16 Form Factor 6U cPCI with 80 mm depth rear I/O

EnclosureEIA RS-310C 19" 9U high rack-mount enclosureCoated metal plate outer coveringGuarded power switch and reset button

Basic Alarm Module (Model dependent)

Monitoring inner chassis temperature, fan status (Model dependent)

Abnormal status will generate alarm and LED warningAlarm reset (silence of beeper)LED indicattors show power voltage status on 5V, 3.3V,

12V and -12V

Remote Chassis Monitoring Module(Model dependent)

Same as basic alarm function plus: Monitors boards via the Intelligent Platform Management Interface (IPMI)

Monitors backplane voltages and status for up to eight power supplies

Remote login and management via LAN or ModemRemote reset control for compute bladesWeb-based GUI for both remote and stand-alone

application

Cooling System

Front-access hot-swappable fan trays for in-take and ventilation: 12V DC brush-less, dual ball bearing 5 fans for in-take and 5 fans for ventilation Rated speed for each fan: 4000 ± 500 RPM Rated power for each fan: 2.64W Air flow for in-take: 241 CFM Air flow for ventilation: 241 CFMReal-access hot-swappable fan module for power bank and driver bays: 12 VDC brushless, dual ball bearing 2 fans for ventilation with 51 CFM each Rated speed for each fan: 280 250 RPM Rated power for each fan: 2.9W

Drive Bay Two 5.25” can support RAID and one 3.5”drive ray, build-in one silm-type CD-ROM

Table 1-1: cPSB-880 Series Specifications

Introduction 5

Power Supply

Supports up to 4 in-rack 3U cPCI 8HP power modulesSupports current sharing on 5V, 3.3V and 12VPICMG 2.11 47-pin power interfaceAvailable power module: cPS-H325/AC (250W N+1

redundant each)Dimension 483.2 x 399 x 299.1 (mm, WxHxD, w/o handle)Operating temperature 0 to 45°CStorage temperature -20 to 80°CHumidity 5% to 95%, non-condensingSafety, Certification, EBS CE, FCC class A, Designed for NEBS Level 3

Table 1-1: cPSB-880 Series Specifications

6 Introduction

1.6 cPSB-880 Configurations

Base ModelThe cPSB-880 Base Model comes in the configurations shown inthe table below. The model number is determined by matchingthe computing blade in the leftmost column with the switch blade.The “M” designation indicates the optional Chassis ManagementModule.

Note:

1. Base Model includes: 9U high PICMG 2.16 Blade serverchassis with one computing blade, one switch fabric,basic alarm module and pre-installed universal ACinputs PSU 250W*3.

2. Each Computing Blade includes CPU, Memory, 20GBHDD and RTM (dual CPU's on dual CPU boards).

Computing Blade

Switch Blade

CPC-3400F CPC-4406F CPC-6400

cPSB-880 Series Model No.cPCI-6830V/ P126/M1G/D cPSB-883-01 cPSB-884-01 cPSB-886-01

cPCI-6860/ X16/M1G/D cPSB-883-03 cPSB-884-03 cPSB-886-03

cPCI-6820AA/ P9/M1G/D cPSB-883-04 cPSB-884-04 cPSB-886-04

cPCI-6810AA/ P10/M1G/D cPSB-883-06 cPSB-884-06 cPSB-886-06

Table 1-2: cPSB-880 Series Configurations

Introduction 7

Module OptionsThe table below lists the available computing and switching fabricblades, I/O modules, and HA Software for the cPSB-880:

Product Number Description/Configuration

Computing Blade

cPCI-6860/X16/M1G/D

6U cPCI PICMG 2.16 Dual Slot Dual LV Xeon System Host CPU Module with VGA, Dual GbE and Fast Ethernet with Dual 1.6G LV Xeon and 1GB RAM (2*512 MB DDR SDRAM), 2.5" 20GB HDD and RTM with Ultra-160 SCSI and Extra Dual GbE

cPCI-6830V/P126/M1G/D

PICMG 2.16 6U cPCI 64-bit/66MHz Dual SKT-370 Tualatin/ P-III CPU module with LAN and VGA, with Dual PIII-1.26GHz CPU,1GB RAM(2*512MB), 20GB 2.5" HDD and RTM

cPCI-6820AA/P9/M1G/D

PICMG 2.16 & 2.9 6U cPCI Single Slot 64-bit/66MHz Universal SBC, Dual Pentium-III-933 with 4 SO-DIMM, Dual GbE w/o PMC with 1GB RAM(2*512MB SO-DIMM), 20GB 2.5" HDD and RTM

cPCI-6810AA/P10/M1G/D

PICMG 2.16 & 2.9 6U cPCI Single Slot 64-bit/66MHz Universal SBC, Pentium-III-933 1GHz with 2x SO-DIMM, Dual GbE, 2 PMC, 1GB RAM, 20GB 2.5" HDD and RTM

cPCI-6765A/P8/512/D

PICMG 2.16 & 2.9 6U cPCI Single Slot Mobile P-III-850 Blade (Chron) CPU Module with PMC, Dual LAN and VGA, without cPCI Bus, 512MB RAM (2*256MB),2.5" 20GB HDD and RTM

cPCI-5515A-1B/P12/M1G/D

PICMG 2.16 & 2.9 6U cPCI Single Slot 64-bit/66MHz Chron SBC, Mobile Pentium4 1.2GHz with up to 2GB RAM, Dual GbE w/o PMC , with VGA, 1GB RAM, 20GB 2.5" HDD and RTM

Switching Fabric BladeCPC-3400F-11410 24 port Switch w/5 port 10/100 TX RTM

Table 1-3: cPSB-880 Series Module Options

8 Introduction

CPC-4406F-11346 24+2 Gb TX Switch w/5 port 10/100 + 2 Gb TX RTMCPC-6400-11543 24 port Switch w/5 port 10/100/1000 TX RTM

CPC-6400-11544 24 port Switch w/ Dual Slot 24 port 10/100/1000 TX RTM

Qualified I/O ModulePMC-8217V SMI 721 VGA Display PMC module w/4M VRAMPMC-8611 Fast Ethernet PMC Card by Intel® 82559PMC-8615 Gigabit Ethernet PMC Card by Intel® 82544GCPMC-8670 PMC System Diagnostic Card

4526T-000 PMC single-port 1Gbps Fiber Channel Adapter, multimode(62.5/125) fiber connection

cPCI-8602 6U cPCI Single Slot Carrier Board for Dual 64-bit PMC Slot

High Availability (HA) SoftwareUpSuite HA

(Call for availability)HA Middleware provides failover functionality based on

CG Linux PICMG 2.16 systems

Product Number Description/Configuration

Table 1-3: cPSB-880 Series Module Options

Getting Started 9

2 Getting StartedThis chapter describes the unpacking procedure of the sub-sys-tem and installation procedures for CompactPCI boards andpower supply units (PSUs).

2.1 Shipping ContentsCheck the shipping carton for any damage. If the shipping cartonand contents are damaged, please notify the dealer for a replace-ment. Retain the shipping carton and packing material for inspec-tion by the dealer. Obtain authorization before returning anyproduct to ADLINK.

Check that the following items are included in the package. If thereare any missing items, please contact your dealer:

One cPSB-880 Series platformThis User’s ManualPower cord (either N. American or European)

2.2 CompactPCI Computing Blade & PSU Installation

The CompactPCI connectors are rigid and require careful handlingwhen inserted and removed. Improper handling of cards can eas-ily damage the backplane.

The Computing Blade slots are gray, Fabric Blade slots are yel-low, and PSU slots are green. Be certain to insert each moduleinto the correct type of slot. The slot left of the PSU slot show inthe figure below is for CMM use only.

System slots usually have obvious indicators (i.e. red card guiderail, triangle mark enclosing the slot number on the backplane,etc.) The system card can only be installed in the system slot. Donot insert a system card into any other slot, or insert any periph-eral card into system slot.

10 Getting Started

Figure 2-1: cPSB-880 Series slot layout.

The handles on CompactPCI cards and PSUs ensure simple andsafe installation and removal. Please follow the procedures belowto install a CompactPCI module into a chassis:

CompactPCI Card Installation/Removal Procedure1. Place the sub-system on a level surface or rackmount it.

Remove the blanking plates where required by undoingthe retaining screws at each end. Retain the blankingplates for possible future use. The system should not beput into use without blanking plates for all empty slots,otherwise the EMC and cooling performance will becompromised

2. Hold the SBC module, peripheral card or PSU modulevertically. Make sure that the handles are unlatched (i.e.

CMM use

Fabric Blade Slot

Computing Blade SlotPSU Slot

Getting Started 11

that they are pulled outwards) by first pressing on therelease buttons with your thumb.

3. Carefully insert the module into the desired slot by slid-ing the edges of the board into the appropriate cardguide rail. Take care to ensure correct alignment of thecard with the chassis during insertion to prevent damageto the card and/or backplane.

Figure 2-2: Installing 3U Power Supply Units.

Figure 2-3: Installing 6U Processor Blade.

Insert Module

Handle Engages

with Chassis

Insert Module

Handle Engages with Chassis

12 Getting Started

4. Continue inserting the card until the handles engage withthe chassis.

Figure 2-4: Latching the module handles securely.

5. Pull inwards on the handles for final insertion. Ensurethat the locking button on the handle is fully latched intoposition.

To remove the module, press the release button (if necessary),and reverse steps 1 through 5 above.

Unlatched

Fully Latched

Getting Started 13

2.3 Rear Transition Module InstallationThe installation and removal procedures for a Rear TransitionModule (RTM) are the same as those for CompactPCI boards.Because they are shorter than front boards, pay careful attentionwhen inserting or removing RTMs. Only models with an “R” at theend of the model number support RTMs.

Note: We strongly recommended the use of RTMs with AB typeconnectors to prevent the damage to the backplane duringRTM installation.

2.4 Powering Up the System Connect the supplied power cord to the socket on the back of thechassis. All supplied PSUs are full range 90-240VAC and do notrequire input voltage setting. Insert the desired blades into theappropriate card slots as described in Section 2.2 and 2.3.

The cPSB-880 series feature a guarded power switch. Use a suit-ably shaped object (such as a pen) to actuate the power switch.After the system is powered up, all LEDs will light up to indicatenormal operating conditions.

14 Getting Started

2.5 System Alarm BoardAn embedded alarm board monitors temperature and fan status.Should a fan become disabled or the temperature exceed 50°C,the Alarm LED will light up and an audible warning will be heard.

To disable the audible warning, press the Alarm RST button. TheAlarm LED will continue to flash until the fault is corrected.

Voltage Status LEDsGuarded Power Switch

Alarm reset button

Alarm LEDs

Computing Blades 15

3 Computing BladesIn this chapter, we will describe the recommended ComputingBlades for the cPSB-880 Series platform. The following tablespecifies the Computing blade that correspond to each cPSB-880Series model.

3.1 cPCI-6830The cPCI-6830 is positioned within the 6U cPCI product line as thenext generation host CPU board with the highest computing per-formance powered by dual Intel® Tualatin/Pentium® III CPU. TheCPU module supports a front side bus (FSB) of 133MHz and aCPU clock of 1.4GHz featuring 64-bit/66MHz cPCI bus with up to3GB high performance DDR host SDRAM support.

The cPCI-6830 provides standard I/Os including RS-232, PrinterPort, USB, EIDE, Triple Ethernets, removable CompactFlashsocket, and optional VGA and AC97 audio interface. The cPCI-6830 is designed to meet the needs of applications which requirethe highest computing performance and high reliability.

Computing Blade cPSB-880 Model Description

cPCI-6830V/P126/M1G/D cPSB--88X-01

PICMG 2.16 6U cPCI Dual Slot Dual SKT-370 Tualatin/P-III System Host CPU Module, Triple LAN with VGA

cPCI-6860/X16/M1G/D cPSB--88X-03

PICMG 2.16 6U cPCI Dual Slot Dual LV Xeon System Host CPU Module with VGA, GbE and Ultra-160 SCSI

cPCI-6820AA/P9/M1G/D cPSB--88X-04

PICMG 2.16 & 2.9 6U cPCI Single Slot, 64-bit/66MHz Universal SBC, Dual or Single Mobile Pentium-III with Dual

GbE & PMC

cPCI-6810AA/P10/M1G/D cPSB--88X-04

PICMG 2.16 & 2.9 6U cPCI Single Slot, 64-bit/66MHz Universal SBC, Single

Pentium-III with Dual GbE & PMC

Table 3-1: cPSB-880 Series Computing Blade Descriptions

16 Computing Blades

Figure 3-1: cPCI-6830 Top and Front view

Figure 3-2: cPCI-R6830 Top and Front view

Computing Blades 17

Features PICMG 2.16 CompactPCI Packet Switching Backplane CompliantStandard 6U form factor with 2-slot (8TE/HP) spaceDesign for Dual Intel® Socket-370 Tualatin/Pentium-III CPUSupports up to Intel® FC-PGA2 Tualatin CPU at 1.4GHzThree 184-pin DIMM sockets support up to 3GB DDR266 memory with ECC support64-bit/66MHz CompactPCI busOptional VGA with resolution up to 1600x1200 in 32-bit true colorOn-board triple 10/100Mbps Ethernet portsSupports Intel® pre-boot execution environment (PXE) for remote bootOptional AC97 audio on rear I/O transition module

Specifications

CompactPCI Standards PICMG 2.0 R3.0; PICMG 2.1 R2.0; PICMG 2.16 R1.0

Form Factor 6U cPCI (233.33x160mm), 2 slots (8HP) wide

CPU/Cache

Intel® SKT-370 FC-PGA2 Pentium-III (Tualatin) up to 1.4GHz with 512K on-die L2 cache;

Intel® SKT-370 FC-PGA Pentium-III up to 1.0GHz with 256K on-die L2 cache

Front Side Bus 100/133MHz for P-IIIChipset VIA Pro266TBIOS Award 4Mb flash memory

RAM Three 184-pin DIMM sockets, up to 3GB DDR-266 memory with ECC and registered support

cPCI Bus Interface

VIA VT8101 VPX 64-bit/66MHz PCI bus controller;64-bit/66MHz, support 4 bus-mastering devices;32-bit/33MHz, support 7 bus-mastering devices

VGA Removable mPCI-8750 mini-PCI VGA card by ATI RageXL with 8MB VRAM

Table 3-2: cPCI-6830 Computing Blade Specifications

18 Computing Blades

LANTriple 10/100Mbps Ethernet ports with RJ-45 connector: 2 ports on front board by Intel® 82559, 1 port on rear panel

by VIA VT6103 PHY with VIA VT8233 built-in MAC

IDE ATA-100, dual channels; built-in 2.5" ATA HDD housing on RTM

Floppy Standard 34-pin connector on RTMFlash Disk Flash2000 2.5" flash drive

USB USB 1.1, dual ports on RTM

Front Panel I/Os PS2 KB&MS (combo), VGA (cPCI-6830V), LAN1, LAN2, COM1 (RJ-45)

Backplane (rear) I/O

J3: COM2, KB, MS, FDD, IDE2, LAN1&2 (PICMG 2.16); J4: LPT, IDE1, USBx2, LAN3 (MII), VGA, AC-97 (model

dependant)Rear I/O Module

OptionscPCI-R6830; cPCI-R6830A (only for high quantity OEM

projects)

Watchdog Timer 1~255 sec or 1~255 min software programmable, can generate system reset.

Other Features Intel® PXE pre-boot on Ethernet; On-board LAN, H/W Monitor disable

Operating Temp. 0 to 50°C (inner-chassis temp, CPU type dependant; system air-flow required)

Storage Temp. -20 to 80°CShock 15G peak-to-peak, 11ms duration, non-operation

Vibration Non-operation: 1.88Grms, 5-500Hz, each axis; Operation: 0.5Grms, 5-500Hz, each axis, with 2.5" HDD

Measured Power

Single P-III 1GHz CPU with 1.5G RAM: 7.8A @ +5V; 2.5A @ +3.3V; Consumption 0.564A @ +12V

Dual Tualatin/P-III 1.4GHz CPU with 3G RAM: 14.6A @ +5V; 3.11A @ +3.3V; 0.704A @ +12V or Test CE,

Certificates/Tests FCC Class A; HALT


Computing Blades 19

3.2 cPCI-6860The cPCI-6860 series products comply with PICMG 2.0 Rev. 3.0CompactPCI specifications for 6U 2-slot (8 TE/HP) form factorboards. The cPCI-6860 is the state-of-the-art system master pro-cessor board in a 6U dual-slot CompactPCI form factor. It featuresa single Intel® 2.4GHz Xeon® processor with 512KB L2 cache, orsingle/dual Intel® low voltage 1.6 or 2.0 GHz Xeon® processor(s).An Intel® E7501 chipset provides support for up to 4Gbytes of144-bit wide PC1600 registered ECC DDR and a processor frontside bus speed of 400MHz. The cPCI-6860 also features an Intel®82546EB dual port gigabit Ethernet controller on the local high-speed 133MHz 64bit PCI-X bus. The Ethernet connections can beaccess through the front faceplate or switched to the backplane forPICMG 2.16 compliant applications.

With the cPCI-R6860 rear transition module (RTM), the cPCI-6860can support an extra two-gigabit Ethernet ports, an Ultra 160 SCSIcontroller, and two ATA100 channels which can support either a2.5 inch IDE HDD or CompactFlash (CF) memory card for non-volatile flash storage applications. In addition to high computingperformance and communication capabilities, the cPCI-6860 sup-ports Intelligent Platform Management IPMI v1.5 using an optionalBaseboard Management Controller (BMC) for applications thatrequire high reliability and serviceability.

20 Computing Blades



Computing Blades 21

Features PICMG 2.16 CompactPCI Packet Switching Backplane CompliantPICMG 2.9 System Management Bus Compliant (optional)Standard 6U form factor with 2-slot (8TE/HP) spaceSupports dual 2.0GHz Low Voltage Xeon or single 2.4GHz Xeon processorUp to 4GB DDR-200 registered memory with ECC64-bit/66MHz CompactPCI busQuad 10/100/1000Mbps Ethernet ports with single 10/100Mbps port (with cPCI-R6860)Ultra-160 SCSI interface, CompactFlash socket (with cPCI-R6860)Supports Intel® pre-boot execution environment (PXE) for remote boot.Supports Remote Console

Specifications

CompactPCI Standards

PICMG 2.0 R3.0; PICMG 2.1 R2.0; PICMG 2.9 R1.0; PICMG 2.16 R1.0


CPU/Cache Dual Intel® Low Voltage Xeon Processors or Single Intel® Xeon Processor with 512K L2 cache, 1.6/1.8/2.0/2.4GHz

Front Side Bus 400MHzChipset Intel® E7500 with ICH3-S and P64H2BIOS Award 4Mb flash memory

RAM Two 184-pin DIMM sockets, up to 4GB Registered ECC DDR-200 memory

cPCI Bus Interface

Intel® 21154BE 64-bit/66MHz PCI to PCI bus bridge64-bit/66MHz, support 4 bus-mastering devices32-bit/33MHz, support 7 bus-mastering devices

VGA ATI RageXL with 8MB VRAM


22 Computing Blades

LAN

Additional dual 10/100/1000Mbps Ethernet ports by Intel® 82546EB on RTM (cPCI-R6860)

Single 10/100Mbps Ethernet ports by Intel® 82562EM, front panel I/O only

IDE ATA-100, dual channels; built-in 2.5" ATA HDD housing on RTM

Floppy Standard 34-pin connector on RTMFlash Disk Flash2000 2.5" flash drive or CompactFlash socket on RTM

USB USB 1.1, 2 ports on front panel, 2 ports on RTMFront Panel I/Os LSI 53C1000R Ultra160 SCSI on RTMBackplane (rear)

I/OCOM1 (RS-232), PS2 KB&MS (combo), VGA, 10/100

LAN x1 Gigabit LAN x2, USB x2

Rear I/O Module Options

J3: KB, MS, FDD, IDE1, LAN1&2 (PICMG 2.16), Buzzer;J4: COM2, COM3 (management), IDE2, USBx2, VGA, hub-

linkWatchdog Timer cPCI-R6860

Other Features 1~255 sec or 1~255 min software programmable, can generate NMI or system reset.

Operating Temp. PICMG 2.9 System Management with IPMI V1.0 (optional) Intel® PXE pre-boot on Ethernet, Remote Console

Storage Temp. 0 to 50ºC (inside-chassis temp, CPU type dependant; external air-flow required)

Shock -20 to 80ºC

Vibration Non-operation: 1.88Grms, 5-500Hz, each axisOperation: 0.5Grms, 5-500Hz, each axis, with 2.5" HDD

Measured Power

Single Xeon 2.0GHz CPU with 2GB RAM: 10.0A @ +5V; 12.2A @ +3.3V; Consumption 0.54A @ +12V

Dual Low Voltage Xeon 1.6GHz CPU with 2GB RAM: 11.0A @ +5V; 11.6A @ +3.3V; 0.5A @ +12V

Certificates/Tests CE; FCC class A; HALT


Computing Blades 23

3.3 cPCI-6820/6810The ADLINK’s cPCI-6820/6810 series Single Board Computer(SBC) and its corresponding rear I/O transition module is a power-ful and flexible CompactPCI universal system/peripheral slot pro-cessor board. It is based on the Intel® mobile Pentium-III/TualatinCPU. This board is specially designed to add system functionaldensity to the 6U CompactPCI platform for communication, high-density servers, and Telecom applications. It is also suitable forhigh-density, high-reliability, and high-availability embedded appli-cations where having a diverse range of features and performanceare paramount.

The cPCI-6820 series product complies with PICMG 2.0 Rev. 3.0CompactPCI specifications for 6U, single-slot (4 TE/HP) form fac-tor boards. The cPCI-6820 board features dual Intel® PentiumTMIII Processor – Low Power (933 MHz) with 512KB L2 cache. ThecPCI 6810 is based on the same artwork as the cPCI-6820 andfeatures single low voltage Intel® 933MHz or 1G Hz PentiumTM IIIprocessor.

The cPCI-6820 series SBC uses the ServerWorks chipset, whichsupports a 133MHz processor front side bus (FSB) and up to four144-pin SO-DIMM sockets of PC-133 Registered SDRAM. ThecPCI-6820/6810 also features an Intel® 82546EB dual port gigabitEthernet (GbE) controller on the 66MHz 64bit PCI bus. The dualGbE connections can be routed to the cPCI-R6820 RTM or to thePICMG 2.16 compliant backplane. In addition to its high comput-ing performance and communication capability, the cPCI-6820also supports Intelligent Platform Management IPMI v1.0 basedon PICMG 2.9 specifications for applications that require high reli-ability and serviceability.

24 Computing Blades


Computing Blades 25


26 Computing Blades


Features PICMG 2.16 CompactPCI Packet Switching Backplane (cPSB) CompliantPICMG 2.9 System Management Bus CompliantStandard 6U form factor, 1-slot (4HP) wideDesign for LV Pentium-III/Tualatin CPU running at FSB 133MHz, single processor (cPCI-6810) or dual processors (cPCI-6820)Up to four 144-pin SO-DIMM sockets support up to 2GB PC-133 Reg. ECC SDRAM64-bit/66MHz PCI busOn-board up to two 64-bit PMC module slotBuild-in housing for 2.5" low profile HDDDual 10/100/1000Mb Ethernet portsUniversal operation for both system and peripheral slotsWDT status indicationFull hot-swap support

Computing Blades 27

Specifications




CPU/Cache

cPCI-6820: Dual Intel® uFCBGA LV Pentium-III (Tualatin) up to 933MHz with 512K on-die L2 cache

cPCI-6810: Single Intel® uFCBGA LV Pentium-III (Tualatin) up to 933MHz with 512K on-die L2 cache

Front Side Bus 133MHzChipset ServerWorks LE-IIIBIOS Award 4Mb flash memory

RAM PC-133 Registered ECC SDRAM Up to four 144-pin SO-DIMM sockets, up to 2GB Reg. ECC PC-133 SDRAM

cPCI Bus Interface

HiNT HB6 Universal PCI to PCI bridge; 64-bit/66MHz, Support 4 bus-mastering devices, 32-bit/33MHz, support 7 bus-mastering devices

VGA C&T 69000 VGA with 2MB VRAM (cPCI-6820 only)

LAN 10/100/1000Mbps Ethernet by Intel® 82546EB: dual ports for rear I/O or PICMG 2.16

IDE ATA-100, dual channels; built-in 2.5" ATA HDD housing on both front board and RTM

Floppy NoneFlash Disk Flash2000 2.5" flash drive or CF Card on RTM

USB USB 1.1, 4 ports (2 for front, 2 for rear faceplate)

Front Panel I/OscPCI-6820: COM1 (RS-232), PS2 KB, PS2 MS, USB, VGA,

PMCcPCI-6810: COM1 (RS232),USB,PMC*2

Backplane (rear) I/O

J3: PMC rear I/O, LAN1&2 (PICMG 2.16); J5: IDE1, IDE2, USBx4, VGA, KB, MS, Buzzer

Rear I/O Module Options cPCI-R6820

Watchdog Timer 1~255 sec or 1~255 min software programmable, can generate NMI or system reset.

Other Features PICMG 2.9 System Management with IPMI V1.0, Intel® PXE pre-boot on Ethernet, Serial Console

Operating Temp. 0 to 55°C (inside-chassis temp; external air-flow required)

Table 3-4: cPCI-6820/10 Computing Blade Specifications

28 Computing Blades

Storage Temp. -20 to 80°CShock 15G peak-to-peak, 11ms duration, non-operation

Vibration Non-operation: 1.88Grms, 5-500Hz, each axis Operation: 0.5Grms, 5-500Hz, each axis, with 2.5" HDD

Measured Power

Single Mobile Tualatin P-III-933 & 512MB RAM: 1.8A @ +5V; 3.9A @ +3.3V; 46mA @ +12V (w/o HDD)

Dual Mobile Tualatin P-III-933 & 2GB RAM: 3.2A @ +5V; 6A @ +3.3V; 29mA @ +12V (w/o HDD)

Certificates/Tests CE; FCC class B; HALT

Table 3-4: cPCI-6820/10 Computing Blade Specifications

Switching Fabric Blades 29

4 Switching Fabric BladesIn this chapter, we will describe the switching fabric blades for thecPSB-880 Series platform. The following table specifies the switchblade that corresponds to each model.

4.1 CPC-3400FThe CPC-3400F is a layer2, cost/effective 10/100 Ethernet switch-ing platform. It offers 24 10/100 auto negotiating Ethernet ports ina rugged, hot-swap CompactPCI 6U form factor. The result is acost effective switching solution for OEMs and Integrators lookingto quickly launch carrier-grade IP products with basic Ethernetswitching capabilities.

Switch blade cPSB-880 Description

cPC-3400F cPSB-883-xx 24 port Switch w/5 port 10/100 TX RTM

cPC-4406F, (cPC-4416F) cPSB-884-xx 24+2 Gb TX Switch w/5 port

10/100 + 2 Gb TX RTM

cPC-6400 cPSB-886-xx 24 port Switch w/5 port 10/100/1000 TX RTM

30 Switching Fabric Blades

.

Figure 4-1: cPC-3400F Top and Front view

RTM (Rear Transition Module)There are three Rear Transition Modules (RTMs) available to suitparticular installation and development needs.

24-Port Single-Slot RTM Board (A)The twenty-four-Port, Single-Slot RTM is a standard size 6UCompactPCI rear-panel I/O board. It measures 233.35mm inheight and 80mm in depth, as defined by the CompactPCIPICMG 2.0 R3.0 specification. There are no active componentson this board. The RTM is connected to the main boardthrough the midplane, via the RJ3 and RJ5 CompactPCI con-nectors. It is used to bring out twenty-four 10/100M switchedEthernet ports, via two RJ21 Telco connectors. Two 8-foot


cables bring these connectors to a 1U-high rack mountablepatch panel with twenty-four RJ45 connectors.

5-Port RTM Board (B)The 5-port RTM is a standard size 6U CompactPCI rear-panelI/O board. It measures 233.35mm in height and 80mm in depthas defined by the CompactPCI PICMG 2.0 R3.0 specification.There are no active components on this board. The RTM isconnected to the CPC3400s main board through the midplane,via the RJ3 and RJ5 CompactPCI connectors. It is used tobring out five 10/100M switched Ethernet ports (ports 20-24).

24-Port Dual Slot RTM Board (C)The RTM is a standard size 6U CompactPCI rear-panel I/Oboard. It measures 233.35mm in height and 80mm in depth asdefined by the CompactPCI PICMG 2.0 R3.0 specification. It istwo card slots wide. There are no active components on thisboard. The RTM is connected to the main board through themidplane, via the RJ3 and RJ5 CompactPCI connectors. It isused to bring out 24 10/100M switched Ethernet ports.


Figure 4-2: CPC-3400 RTMs


Features Twenty-four 10/100 Base-T/TX IEEE 802.3 full duplex, Ethernet, unmanaged Layer2 switchFully auto-configurable, no user setup required; Plug-n-Play.PICMG 2.16 compliant:Non-blocking architecture supporting full-duplex, full wire speed Layer2 switching at all Ethernet frame sizesSupports PICMG 2.9 SMB (IPMI), Peripheral Management Controller.802.3x frame-based flow control providedFlow control provided in half-duplex mode with back pres-sureSupports 4K unicast (MAC) addressing802.3u auto-negotiating supportSupports PICMG 2.1, R2.0 hot swap (hardware connection layer only), and PICMG 2.16, section 3.5 CompactPCI/PSB hot swap board requirements


Specifications

4.2 cPC-4406F (cPC-4416F)The CPC-4406 (cPC-4416F) is a fast, flexible and feature-rich 10/100/1000 Ethernet switching platform. It offers 24 10/100 autonegotiating Ethernet ports plus two Gigabit ports in a rugged, hot-swap CompactPCI 6U form factor. The result is a powerful switch-ing solution for OEMs and Integrators looking to quickly launchhigh availability, carrier-grade IP products.

The CPC-4406 comes from the leader in Fault Tolerant EthernetSwitching to offer sophisticated high availability switching featuresincluding 802.3ad Link Aggregation, VRRP, 802.1q VLANs and

General CompactPCI

Features

PICMG 2.1, R2.0 PICMG 2.9 System Management BusPICMG2.16 Packet Switching Backplane

Form Factor Standard 6U CompactPCI1-slot (4TE/HP) width

Internal Switching Capacity 5Gbps, non-blocking full wire-speed L2 switching fabric

Latency < 12u secMAC Address 4K

StandardsIEEE 802.3, 10BaseT, 100BaseTIEEE 802.3X Flow ControlIEEE 802.3u Auto-Negotiation

LED Indicator Link, Activity, Speed, Load, Power, and Hot SwapPower

Requirements 15 Watts Maximum

Environment Operating Temperature: 32-131°F(0-55°C)Relative Humidity:10-90%, non-condensing

Agency Certifications

UL1950, CSA-C22.2 No. 950 93, FCC Class A(Part 15, Subpart J), CE, ETSI EN 300 386(pending), NEBS level 3 friendly

MTBF Estimated 200,000 hrs

Table 4-1: cPSB-880 Series Switching Fabric Blades


802.1p CoS. They can be configured as fully redundant, non-blocking switching fabrics to help ensure that no single point offailure halts network traffic

Figure 4-3: CPC-4406 Top and Front view

RTM (Rear Transition Modules)There are several Rear Transition Modules (RTMs) available tosuit particular installation and development needs.

5-Port RTM Board


The 5-Port RTM is a standard size 6U CompactPCI rear-panelI/O board. It measures 233.35 mm in height and 80 mm indepth as defined by the CompactPCI PICMG 2.0 R3.0 specifi-cation. There are no active components on this board. TheRTM is connected to the CPC4401’s main board through themidplane via the RJ3 and RJ5 CompactPCI connectors. It isused to bring out five 10/100Mb switched Ethernet ports, andan RS-232 console port.

24-Port RTM BoardThe RTM is a standard size 6U CompactPCI rear-panel I/Oboard. It measures 233.35mm in height and 80mm in depth asdefined by the CompactPCI PICMG 2.0 R3.0 specification. It istwo card slots wide. There are no active components on thisboard. The RTM is connected to the CPC44xx’s main boardthrough the midplane via the RJ3 and RJ5 CompactPCI con-nectors. It is used to bring out 24 10/100Mb switched Ethernetports.

5 + 2-Port RTMThe 5 + 2-Port RTM is a standard size 6U CompactPCI rear-panel I/O board. It measures 233.35 mm in height and 80 mmin depth as defined by the CompactPCI PICMG 2.0 R3.0 spec-ification. There are no active components on this board. TheRTM is connected to the CPC4406’s main board through themidplane via the RJ3 and RJ5 CompactPCI connectors. It isused to bring out five 10/100Mb switched Ethernet MDIX portsvia shielded RJ45 connectors (ports 20-24), two 1000MbEthernet MDIX ports (ports 25-26), and an RS232 console port.

24-Port Single Slot RTMThe 24-Port Single-Slot RTM is a standard size 6U Compact-PCI rear-panel I/O board. It measures 233.35 mm in height and80 mm in depth as defined by the CompactPCI PICMG 2.0R3.0 specification. There are no active components on thisboard. The RTM is connected to the CPC4406’s main boardthrough the midplane via the RJ3 and RJ5 CompactPCI con-nectors. It is used to bring out twenty-four 10/100Mb switchedEthernet ports via two RJ21 Telco connectors. Two 8-footcables bring these connectors to a 1U-high rack mountable


patch panel with 24 RJ45 connectors. The RTM also brings outan RS-232 console port.

24 + 2-Port Single Slot RTMThe 24-Port Single-Slot RTM is a standard size 6U Compact-PCI rear-panel I/O board. It measures 233.35 mm in height and80 mm in depth as defined by the CompactPCI PICMG 2.0R3.0 specification. There are no active components on thisboard. The RTM is connected to the CPC4406’s main boardthrough the midplane via the RJ3 and RJ5 CompactPCI con-nectors. It is used to bring out twenty-four 10/100Mb switchedEthernet ports via two RJ21 Telco connectors. Two 8-footcables bring these connectors to a 1U-high rack mountablepatch panel with 24 RJ45 connectors. The RTM also brings outtwo 1000Mb Ethernet MDIX ports (ports 25-26).

24 + 2-Port Double Slot RTMThe 24 + 2-Port RTM is a standard size 6U CompactPCI rear-panel I/O board. It measures 233.35 mm in height and 80 mmin depth as defined by the CompactPCI PICMG 2.0 R3.0 spec-ification. There are no active components on this board. TheRTM is connected to the CPC4406’s main board through themidplane via the Section 21: Rear Transition Modules (RTMs)& Board Pinouts 360 RJ3, RJ4 and RJ5 CompactPCI connec-tors. It is used to bring out twenty-four 10/100Mb switchedEthernet MDIX ports via shielded RJ45 connectors (ports 1-24), and two 1000Mb Ethernet MDIX ports (ports 25-26).


Figure 4-4: CPC4406 RTMs


Features Wire-Speed 24 port 10/100/1000 switching fabricPICMG 2.16 CompliantFully featured, Layer 2 switchingLink AggregationSupport for IEEE 802.1p Class of ServiceEasy to use 802.1q VLANsPrevents Broadcast, Multicast and Unicast StormsPICMG 2.9 Compliant

Specifications




Internal Switching Capacity 9Gbps, non-blocking full wire-speed L2 switching fabric

Latency < 4u secMAC Address 8K

VLANs Up to 63 concurrent IEEE 802.1q VLANsCoS Via IEEE 802.1p, 4 priority queues

GVRP/GMRP Auto VLANs and Multicast registration preserve bandwithVirtual

Redundant Router Protocol

(VRRP)

Increase Network Availability

Port Mirroring Attach a network probe on any segmentProduct Update Via FTP/TFTPDHCP/BootP Client Support Automatic IP address assign

DHCP Server, FTP/TFTP Server with 2MB Flash

File System

Enable other subsystems in the chassis to load specific configuration information on a slot-by-slot basis

Table 4-2: CPC-4406 Switching Fabric Blade Specifications


Standards

IEEE 802.3, 10BaseT, 100BaseT,1000BaseFX, 1000BaseTX

IEEE 802.3X Flow ControlIEEE 802.1q VLANs TaggingIEEE 802.1d Spanning TreeIEEE 802.1d-1998 Bridge Extensions(802.1p)IEEE 802.3ad Link Aggregation

Management

RFC 1157 SNMPRFC 1213 MIB IIRFC 1757 RMON Groups 1,2,3,9RFC 1493 Bridge MIBRFC 1643 Ether-like MIBRFC 2674 Bridge Extensions MIBIEEE 802.3ad Link Aggregation MIBPTI Enterprise MIBCLI via out-of-band RS-232 and out-of-band Ethernet

management pot, TelnetLED Indicator Link, Activity, Speed, System Status, Fault and Hot Swap

Power Requirements 36 Watts Maximum, 27 Watts typical

Environment Operating Temperature: 32-131°F (0-55°C)Relative Humidity:10-90%, non-condensing


UL1950, CSA-C22.2 No. 950 93, FCC Class A (Part 15, Subpart J), CE, ETSI EN 300 386, NEBS level 3 friendly

MTBF 103,530 hrs per Bellcore TR-NWT-000332 issue 5 @ 30°C



4.3 cPC-6400The cPC-6400 is a 24-port, full wire speed Layer 2 10/100/1000Ethernet switch that is fully compliant with PICMG 2.16, the stan-dard defining the packet switching backplane. The cPC-6400 canreach up to 40 times the speed of PCI-based systems by offeringup to 4 Gigabits of bandwidth to every slot of a standard orextended 2.16 CompactPCI® chassis.

Compatible with both generic CompactPCI and 2.16 midplanes,the cPC-6400 enables designers to build systems that are faster,more scalable and fault-tolerant than is possible using bussedbackplanes. It is designed to be used as either a high speed inter-connect between devices in a chassis or as a core switch in afault-tolerant cluster of embedded systems.



RTM (Rear Transition Modules)There are two RTMs currently available for the CPC6400:

5-Port Single Slot RTM BoardThe 5-port RTM is a standard size 6U CompactPCI rear-panelI/O board. It measures 233.35mm in height and 80mm in depthas defined by the CompactPCI PICMG 2.0 R3.0 specification.The RTM is connected to the CPC6400’s main board throughthe midplane via the RJ3 and RJ4 CompactPCI connectors. Itis used to bring out five 10/100/1000M switched Ethernet ports,and an RS-232 console port.

24-Port Double Slot RTM BoardThe 24-port RTM is a standard size 6U CompactPCI rear-panelI/O board. It measures 233.35mm in height and 80mm in depthas defined by the CompactPCI PICMG 2.0 R3.0 specification.It is two card slots wide. There are no active components onthis board. The RTM is connected to the CPC6400’s mainboard through the midplane via the RJ3, RJ4 and RJ5 Com-pactPCI connectors. It is used to bring out twenty-four 10/100/1000M switched Ethernet ports, and an RS-232 console port.


Figure 4-6: cPC-6400 Top and Front view


Features PICMG 2.16 CompactPCI Packet Switching Backplane (cPSB) CompliantPICMG 2.9 System Management Bus CompliantStandard 6U form factor, 1-slot (4HP) wideDesign for LV Pentium-III/Tualatin CPU running at FSB 133MHz, single processor (cPCI-6810) or dual processors (cPCI-6820)Up to four 144-pin SO-DIMM sockets support up to 2GB PC-133 Reg. ECC SDRAM64-bit/66MHz PCI busOn-board up to two 64-bit PMC module slotBuild-in housing for 2.5" low profile HDDDual 10/100/1000Mb Ethernet portsUniversal operation for both system and peripheral slotsWDT status indicationFull hot-swap support

Specifications


PICMG 2.1 Hot SwapPICMG 2.9 System Management BusPICMG2.16 Packet Switching Backplane


Internal Switching Capacity 40+ Gbps, non-blocking full wire-speed switching fabric

Latency < 5- 31 usecMAC Address 32K

VLANs 16 concurrent IEEE 802.1q VLANsCoS Via IEEE 802.1p, 4 priority queues

GVRP/GMRP Auto VLANs and Multicast registration preserve bandwithPort Mirroring Attach a network probe on any segment

Product Update Via FTP/TFTP



DHCP/BootP Client Support Automatic IP address assign

DHCP Server, FTP/TFTP Server with 2MB Flash

File System

Enable other subsystems in the chassis to load specific configuration information on a slot-by-slot basis

Standards

IIEEE 802.3-2000, 10BaseT, 100BaseTX, 1000BaseTIEEE 802.3x Full Duplex Flow ControlIEEE 802.1q VLANs TaggingIEEE 802.1d Spanning TreeIEEE 802.1d-1998 Bridge Extensions(802.1p)IEEE 802.1d-1998 section 4 Priority Queues with support

for traffic class management IEEE 802.3ac Tagged packetIEEE 802.3ad Link Aggregation

Management

RFC 1157 SNMP v1, v2c, v3RFC 1213 MIB IIRFC 1757 RMON Groups 1,2,3,9RFC 1493 Bridge MIBRFC 1643 Ether-like MIBRFC 2674 Bridge Extensions MIBIEEE 802.3ad Link Aggregation MIBPTI Enterprise MIBCLI via out-of-band RS-232 and TelnetEmbedded HTTP Server

LED Indicator Link, Activity, Speed, System Status, Fault and Hot SwapPower

Requirements 65 Watts Maximum, 50 Watts Typical

Environment Operating Temperature: 32-131°F (0-55°C)Relative Humidity:10-90%, non-condensing


UL1950, CSA-C22.2 No. 950 93, FCC Class A(Part 15, Subpart J), CE, ETSI EN 300 386(pending), NEBS level 3 friendly

MTBF 150,237 hrs per Telcordia TR-NWT-000332 issue 5 @ 30°C


Chassis Management Module 47

5 Chassis Management ModuleThe ADLINK cPCI-8603-pRMC is a Chassis Management Module(CMM) that provides a remote management interface for bothchassis and board management. The CMM is an optional modulefor the cPSB-880 Series Its features include monitoring and eventlogging of board status, temperature, fans and power supply.Remote control board reset is also provided. The user canremotely access and configure the CMM via Ethernet with a web-based user interface.

5.1 CMM OverviewThe CMM is comprised of the following three major components:

cPCI-8603 (Carrier Board)cPCI-8603R (RTM)N2525A (CMM module)

48 Chassis Management Module

Figure 5-1: cPC-8603 Top and Front view

Figure 5-2: cPC-R8603 RTM Top and Front view


Figure 5-3: N2525A CMM module Top and Isometric view


CMM System Management Architecture

Features PICMG 2.0 CompactPCI Specification R3.0 CompliantPICMG 2.9 System Management R1.0 CompliantCompatible with PICMG 2.16-compliant components6U cPCI form factor, 1-slot (4TE/HP) widthMonitors boards via the Intelligent Platform Management Interface (IPMI)Monitors backplane voltages and status for up to eight power suppliesMonitors system temperature sensorsMonitors system fan tray statusSystem event logging for abnormal statusRemote login and management via LAN or ModemRemote reset control for computing bladesWeb-based GUI for remote and stand-alone application


Specifications

General CompactPCI

Features

PICMG 2.0 CompactPCI Specification R3.0 CompliantPICMG 2.9 System Management R1.0 CompliantCompatible with PICMG 2.16-compliant components

Form Factor Standard 6U CompactPCI 1-slot (4TE/HP, 20.32mm) width

CPU Agilent eRMC 2.0 SOC (system on chip) with built-in ARM710 processor

Memory4MB on-board Flash memory, holds the firmware, database,

GUI and expansion ROM, 8MB on-board SDRAM for pRMC running stage

Serial Interface

Standard RS-232 interface with DB-9 connector on front faceplate for modem connection, support remote login. Reserved RS-485 interface with DB-9 connector on front faceplate

LAN Interface

Single 10/100Mbps Ethernet port with RJ-45 on front faceplate, support remote login from LAN. The Ethernet port can be redirected to backplane I/O for PICMG 2.16 switch connection

Watch-dog Timer The watchdog feature can reset the pRMC in case the firmware hangs

Hardware Monitoring

Monitors backplane voltages for 5V, 3.3V, +12V and –12VMonitors system temperature sensors, up to 4 sensorsMonitors system fan tray status, up to 12 fansSystem event logging for abnormal status

Board Management

Monitors boards via the Intelligent Platform Management Interface (IPMI)

Monitors CPU temperature, board voltages, WDT status for each board

Provides reset command directly to each compute blade (node boards)

Identifies different compute blade via GA (Geographic Address) information

Monitors status for up to eight power suppliesControls inhibition status of each power supply, up to eight

Operating System Embedded real time operating system

Table 5-1: cPC-8603 Chassis Management Module Specifications


5.2 CMM SetupTo setup the CMM, connect a remote console running Windows2000 platform (IP address - 192.168.0.x) with keyboard, mouseand monitor to the CMM’s LAN port using a LAN cross-over cableas shown below.

Front Panel LED Indicators

Power status (green)Ethernet activity (closet to the LAN port), statusDiagnostic LEDs (three red LEDs for pRMC self-test)

Environment

Operating temperature: 0 to 40°CStorage temperature: -20 to 65°CHumidity: 20% to 80% non-condensedShock: 10G peak-to-peak, 11ms duration, non-operationVibration:

Non-operation: 1.5Grms, 5-500Hz, each axisOperation: 0.5Grms, 5-500Hz, each axis, with 2.5” HDD

Certificates/Tests CE, FCC

Table 5-1: cPC-8603 Chassis Management Module Specifications

Remote Console

IP: 192.168.0.x

CMMIP: 192.168.0.100

Note: cPSB-1400 shown.

Remote Console

IP: 192.168.0.x


Enter the Chassis Management Interface as follows:

1. Open Internet browser on the remote console (requiresJava Virtual Machine: http://java.com/).

2. Enter URL Address ? http://192.168.0.100

3. Login: ADMIN (Default)

4. Password: ADMIN (Default)

5. Click on the Blades tab to monitor board status (youmay need to wait for the CMM to scan the PCI Bus).


6. Click on the Sensors tab. Settings will depend on userrequirements.

The following settings are for a sample system which includesfour Temperature Sensors (Temp1CN1, TempCN2, TempCN3,TempCN4), twelve FAN Sensors (FAN0JP1 ~ FN11JP12) andfour Voltage Sensors: +3.3V,+5V,+12V,-12V.

7. Click on the Card Config tab.


8. Click on the Network Settings button and make andchanges as required.

9. Adjust the RTC (Real Time Clock) setting.


10.If it is necessary to update the firmware of the CMM,click on the Update Firmware button and follow theinstructions in Section 5.6 below.

11.Click on the Server Config tab and make any changesas required.

12.Click on the User Config tab.


There are three predefined user’s groups: ADMINISTRATOR,OPERATOR and USER. The privileges are as follows:

To setup new accounts, click on the New User button.

13.Click on the Paging Settings tab to setup paging.

Paging severity settings can be accessed from the Card Configpage (Step 7).

USERGeneral property access, session info, sensor info, user info, SEL info, board status, history

OPERATORGeneral property access, session info, sensor info, user info, SEL info, board status, history, server action, board control

ADMINISTRATOR All Privileges.


5.3 CMM Firmware UpdateThis section describes how to perform a firmware update for theCMM. You will need the following:

TFTPD32 (Windows TFTP server – freeware, available at http://tftpd32.jounin.net/)New firmware binary file (complete.bin & complete.001)

Connect the remote console to the CMM’s LAN port with a cross-over cable as described in Section 5.5 above.

Create new folder for firmware files:Create a new folder (e.g. E:\RMC-SDK\Build\fwupdate) and then,copy the new firmware (complete.bin & complete.001) into it. Thisdirectory will be entered into the TFTP server’s parameter settingsbelow.

Install TFTP Server Before the CMM firmware upgrade can be performed, it is neces-sary to setup up a TFTP server on the remote console.

1. Power up the remote console.

2. Extract the downloaded TFTP files to a folder.

3. Run TFTPD32.exe.


TFTP Parameter Settings1. Open a Command Console and run ipconfig to check

that the Remote Console’s IP address is the one listedunder Server Interfaces (e.g. 192.168.0.x).

2. Click the Settings button and browse to the directoryyou created above to store the firmware update files(e.g. ”E:\RMC-SDK\Build\Fwupdate”).


3. Under Global Settings, select TFTP server.

4. Make sure the other parameters are as shown in thescreen capture above.

5. Click OK to save these settings.

CMM Firmware Update After completing TFTP server installation & parameter settings,begin the CMM firmware update process as follows:

1. Make sure the firmware update files (complete.bin &complete.001) have been copied to Base Directory asspecified in TFTP Parameter Settings, Step 2 above.

2. Follow Steps 1 to 7 of Section 5.5 above (CMM Setup) andnavigate through the Chassis Management Interface to the Card Config page.

3. Click on Update Firmware.

4. Enter the IP address of the remote console that you con-firmed in TFTP Parameter Settings, Step 1 above (e.g.


192.168.0.x). Enter the name of the BIN firmware updatefile (e.g. complete.bin).

5. Click on OK to begin the firmware upgrade. The processwill proceed automatically.

6. Refresh the browser to confirm the new firmwareversion.

Important Safety Instructions 63

Important Safety InstructionsPlease read and follow all instructions marked on the product andin the documentation before operating the system. Retain allsafety and operating instructions for future use.

Please read these safety instructions carefully.Please keep this User’s Manual for future reference.The equipment should be operated in an ambient tempera-ture between 0 to 45°C.The equipment should be operated only from the type ofpower source indicated on the rating label. Make sure thevoltage of the power source is correct when connecting theequipment to the power outlet.If the user’s equipment has a voltage selector switch, makesure that the switch is set to the proper position for the area.The voltage selector switch is set at the factory to the cor-rect voltage.For pluggable equipment, ensure they are installed near asocket-outlet that is easily accessible.Secure the power cord to prevent unnecessary accidents.Do not place anything over the power cord.If the equipment will not be in use for long periods of time,disconnect the equipment from mains to avoid being dam-aged by transient overvoltage.All cautions and warnings on the equipment should benoted.Please keep this equipment away from humidity.Do not use this equipment near water or a heat source.Place this equipment on a reliable surface when installing.A drop or fall could cause injury.Never pour any liquid into the opening, this could cause fireor electrical shock.

64 Important Safety Instructions

Openings in the case are provided for ventilation. Do notblock or cover these openings. Make sure there is adequatespace around the system for ventilation when setting up thework area. Never insert objects of any kind into the ventila-tion openings.To avoid electrical shock, always unplug all power andmodem cables from the wall outlets before removing cov-ers.Lithium Battery provided (real time clock battery)

“CAUTION - Risk of explosion if battery is replaced byan incorrect type. Dispose used batteries as instructedin the instructions”The equipment should be checked by service personnel ifone of the following situation arises:

The power cord or plug is damaged.Liquid has penetrated the equipment.The equipment has been exposed to moisture.The equipment is not functioning or does not function according to the user’s manual.The equipment has been dropped and damaged.If the equipment has obvious sign of breakage.

Never open the equipment. For safety reasons, the equip-ment should only be opened by qualified service personnel.

Warranty Policy 65

Warranty PolicyThank you for choosing ADLINK. To understand your rights andenjoy all the after-sales services we offer, please read the follow-ing carefully.

1. Before using ADLINK’s products please read the user man-ual and follow the instructions exactly. When sending indamaged products for repair, please attach an RMA appli-cation form which can be downloaded from: http://rma.adlinktech.com/policy/.

2. All ADLINK products come with a two-year guarantee:

The warranty period starts from the product’s shipment date from ADLINK’s factory.Peripherals and third-party products not manufactured by ADLINK will be covered by the original manufactur-ers' warranty. For products containing storage devices (hard drives, flash cards, etc.), please back up your data before send-ing them for repair. ADLINK is not responsible for loss of data. Please ensure the use of properly licensed software with our systems. ADLINK does not condone the use of pirated software and will not service systems using such software. ADLINK will not be held legally responsible for products shipped with unlicensed software installed by the user. For general repairs, please do not include peripheral accessories. If peripherals need to be included, be cer-tain to specify which items you sent on the RMA Request & Confirmation Form. ADLINK is not responsible for items not listed on the RMA Request & Confirmation Form.

66 Warranty Policy

3. Our repair service is not covered by ADLINK's two-yearguarantee in the following situations:

Damage caused by not following instructions in the user's manual.Damage caused by carelessness on the user's part dur-ing product transportation. Damage caused by fire, earthquakes, floods, lightening, pollution, other acts of God, and/or incorrect usage of voltage transformers.Damage caused by unsuitable storage environments (i.e. high temperatures, high humidity, or volatile chemi-cals).Damage caused by leakage of battery fluid during or after change of batteries by customer/user. Damage from improper repair by unauthorized techni-cians. Products with altered and/or damaged serial numbers are not entitled to our service. Other categories not protected under our warranty.

4. Customers are responsible for shipping costs to transportdamaged products to our company or sales office.

5. To ensure the speed and quality of product repair, pleasedownload an RMA application form from our company web-site: http://rma.adlinktech.com/policy. Damaged productswith attached RMA forms receive priority.

If you have any further questions, please email our FAE staff: [email protected].

carrier grade blade system

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