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Copyright 2016, Oracle and/or its affiliates. All rights reserved. |

Oracles SPARC S7 Servers

Matthias Burkard master principal sales consultant


Safe Harbor Statement

The following is intended to outline our general product direction. It is intended for information purposes only, and may not be incorporated into any contract. It is not a commitment to deliver any material, code, or functionality, and should not be relied upon in making purchasing decisions. The development, release, and timing of any features or functionality described for Oracles products remains at the sole discretion of Oracle.

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Oracles SPARC S7 servers extend the worlds most advanced systems for enterprise computing into scale-out and cloud applications, with unique capabilities for information security, core efficiency and data analytics acceleration.

SPARC S7 ProcessorBased Systems

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(1) Maximum memory capacity is based on 64 GB DIMMs.

SPARC S7 Servers

SPARC S7-2 Server SPARC S7-2L Server

Processors 1 or 2 2

Max Cores/Threads 16 / 128 16 / 128

Max Memory 1 1 TB 1 TB

Form Factor 1U 2U

Max Disk Drives 8 26

PCIe Slots Available 3 6

Integrated Ethernet 4x 10GBase-T 4x 10GBase-T

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SPARC S7 ProcessorBased Servers

Oracles SPARC S7 processor: Software in Silicon features: Same as in Oracles SPARC M7 processor System-on-a-chip design: DDR4 interfaces and PCIe controller

DDR4-2400 memory for high performance

Internal SAS-3 Host Bus Adapter

Onboard support for NVMe flash drives

x8-capable PCIe 3.0 slots

Oracle Integrated Lights Out Manager (Oracle ILOM) management

Oracle Solaris 11.3 or later required Oracle Solaris 10 1/13 supported in guest domains

Key Characteristics

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Two Systems, Five Enclosures, Shared Design

SPARC S7-2 and SPARC S7-2L Servers

SPARC S7-2L, 2U 12x 3.5-inch and 2x 2.5-inch drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; ~100 TB storage (12x 3.5-inch drives plus 2x 2.5-inch SAS-3 drives)

SPARC S7-2L, 2U 26x 2.5-inch drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; 39 TB storage (24x plus 2x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays)

SPARC S7-2L, 2U 8x 2.5-inch drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 6 PCIe 3.0 slots; 17 TB storage (8x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays)

SPARC S7-2, 1U 8x 2.5-inch drives 1U; 1 or 2 processors; 16 DIMMs; 1,024 GB DDR4; 3 PCIe 3.0 slots; 17 TB storage (8x 2.5-inch SAS-3 drives, 4x NVMe-enabled bays)

SPARC S7-2L, 2U 12x 2.5-inch NVMe flash drives 2U; 2 processors; 16 DIMMs; 1,024 GB DDR4; 4 PCIe 3.0 slots; 38 TB NVMe flash storage (12x 2.5-inch NVMe drives)

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SPARC S7 ProcessorBased Systems: Software

Oracle Solaris 11.3 SRU9 required Oracle Solaris 10 1/13 supported in guest domains

Oracle Enterprise Manager Ops Center 12c (12.3.2)

Oracle Enterprise Manager 12c

Software in Silicon support

Oracle Database 12c (12.1.0.2 + latest bundled patches)* Data Analytics Accelerator (DAX) units supported

with Oracle Database In-Memory option Cryptographic acceleration available with Oracle

Database Transparent Data Encryption (TDE) option Oracle Solaris Studio 12.4 and later

Java SE Development Kit and JVM: JDK 7u85 and later

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*) Bundle patch 160719 and additional patch required, see notes


Faster than the Latest from HPE

Dramatically Improve Java Application Efficiency

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2,402

4,112 1.7x Faster Java S7-2 4.27 GHz S7 Core

x86 2.2 GHz E5 v4 Core

HPE DL360 G9

SPARC S7-2 (16-core) 65,790 SPECjbb2015-MultiJVM max-jOPS, 35,812 SPECjbb2015-MultiJVM critical-jOPS; HP ProLiant DL360 Gen9 (44-core) 105,690 SPECjbb2015-MultiJVM max-jOPS, 52,952 SPECjbb2015-MultiJVM critical-jOPS

Max jOPS / Core


Open Source OLTP Database Benchmark

Outstanding Leadership in Database Performance

S7-2 4.27 GHz S7 Core

X86 2.2 GHz E5 v4 Core

1.6x Faster Database

Transactions per minute, per Core

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NoSQL Big Data Benchmark

Dramatically Scale your Big Data Workloads

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Yahoo Cloud Serving Benchmark

11.4 K Ops

21.3 K Ops 1.9x Faster NoSQL S7-2 4.27 GHz S7 Core

X86 2.2 GHz E5 v4 Core


S7 advantage increases on highest security ciphers

Much Faster End-To-End Encryption

SPARC S7 Core

x86 E5 v4 Core

2.3 x Faster

AES 256-CFB: Popular for Cloud, DB

SHA 512: Important for Financial Operations

2.0 GB/s

0.9 GB/s

3.0 GB/s

0.4 GB/s

7.5x Faster SPARC S7 Core

x86 E5 v4 Core

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Copyright 2016, Oracle and/or its affiliates. All rights reserved. | Copyright 2016, Oracle and/or its affiliates. All rights reserved. |

Extreme Results with SPARC + Java + FOSS

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SPARC and Java/JVM Co-Engineering Propels Open Source SW Results

Oracles Big Data SQL can combine Oracle Database queries & FOSS sources

1.3x to 1.5x faster than x86 and more on the way DAX to accelerate Spark SQL

Much faster per core than x86

1.35x faster secure per core than x86

Faster than x86

Cassandra NoSQL

Apache Hadoop

- Apache Spark ML - SPARC GraphX - general Spark processing

Berkeley DB


Java, JVM are the Language of the Cloud Java and the underlying JVM is the design target for SPARC processors

Big Data & DevOps Description Written in

Oracle Fusion Enterprise Apps Java

Apache Spark In-memory Analtyics JVM

Apache Cassandera NoSQL database Java

Apache Hadoop Disk to disk Map Reduce Java

Apache HDFS Filesystem Java

Apache Lucene Doc text Indexing Java

Apache Solr Text/doc/web search Java

Jersey/Grizzly (REST) REST Interface Java

Apache Hive SQL on HDFS Java

Neo4j Graph Java

Scala Language JVM

Big Data & DevOps Description Written in

Akka (REST) REST for Big Data JVM

Apache Accumulo Key/value store Java

Apache Flink Batch &Stream Processing Java (JVM)

Apache Kafka Streaming Message Broker JVM

Apache log4j Log event manager Java

Apache Samza Stream processing JVM

Apache Storm Stream processing Java & Clojure

Apache Yarn Cluster job manager Java

Apache Zookeeper Config & group services Java

H20.ai ML Apps libraries Java, Python, R

Hbase Non-relational database Java

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Oracle is an Open Platform for Enterprise Developers Actively Participating in Open Source Communities and Projects

OpenStack, Murano, Trove,

Cinder, Swift, Docker,

Open Daylight, Puppet,

Clang, LLVM, Kerberos,

OpenBSD PF, OpenSSL,

OVAL Community,

OpenSCAP,

Hadoop,

Free and Open Source Packages Available

Updates freely available

Over 500 supported

OpenStack Corporate Sponsor

Open Daylight Silver Sponsor

Open Container Initiative Sponsor

MIT Consortum Sponsor

Dozens of communities and >500 projects: Communities Sponsored

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SPARC S7 Processor Overview

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SPARC S7 Processor Overview

Software in Silicon features Silicon Secured Memory

Cryptographic accelerators

4 DAX units, 16 DAX engines

8 cores at 4.27 GHz

64 hardware threads per processor

Dynamic threading supporting critical threads

Up to 8 DDR4 DIMMs per processor

2-way fully connected glueless symmetric multiprocessing (SMP)

Technology: TSMC 20nm

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On-Chip System Integration

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Fewer components Fewer links Lower power Less space Lower cost

PC

Ie

Coherence Links

Storage

Ethernet

Storage

Ethernet

Memory DIMMs

SPARC S7

SPARC S7

Integrated DDR4

Integrated PCIe 3.0

Glueless 2-way System Interconnect

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Copyright 2016, Oracle and/or its affiliates. All rights reserved. | 20

Comparison of key Oracle microprocessor capabilities

Advanced Entry-Level SPARC S7 Processor

SPARC T5 Processor

SPARC M7 Processor

SPARC S7 Processor

Processor Cores 16 32 8

Cache per Core 0.5 MB 2 MB 2 MB

Memory Bandwidth per Core 5.0 GB/sec 5.3 GB/sec 6.0 GB/sec

Memory Access 163 ns 131 ns 97 ns

I/O Bandwidth 32 GB/sec 145 GB/sec 32 GB/sec

Processor Frequency 3.60 GHz 4.13 GHz 4.27 GHz


SPARC S7 Processor: Software in Silicon Features

Feature Benefits

Secu

rity

in

Sili

con

Silicon Secured Memory Prevention of malicious memory access attacks Protection against silent data corruption in memory Faster and higher-quality code development

Cryptographic Acceleration

End-to-end security at full speeds Encryption of everything always Secured network and database transactions

SQL

in

Silic

on

In-Memory Query Acceleration

Analytics performed on live OLTP data Reduced number of systems needed for analytics and reporting

In-Line Decompression Reduced memory footprint and lower TCO Increased in-memory databases and performance

Same Benefits as in the SPARC M7 Processor

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Revolutionary Hardwired Protection Against Data Corruption

Security in Silicon: Silicon Secured Memory

SPARC S7 processor stops memory corruption

Helps stop malicious code from accessing secure data

When access is denied, the problem is reported

Hidden color bits added to pointers and to memory

Pointer color must match content color or access is aborted

Can be used in production code with near-zero impact on performance

Memory Pointers

Memory Content

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Security in Silicon: Cryptographic Acceleration

Eight cryptographic accelerators per SPARC S7 processor, one in each core

Wire-speed encryption capabilities for secure data center operation without a performance penalty

Support for 15 industry-standard cryptographic algorithms plus random number generation

Easy to deploy via Oracle Solaris Cryptographic Framework

Oracle Database 11.2.0.3 or later: Acceleration is automatic with Oracle Database Enterprise Edition when Transparent Data Encryption is enabled

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Core Core Core Core

SQL in Silicon: In-Memory Query Acceleration

The SPARC S7 processor includes on-chip Data Analytics Accelerator (DAX) units

Independently process streams of database column elements placed in system memory

Example: Find all values that match California

4 accelerator units per chip, with 4 pipelines each

Free processor cores to run higher-level SQL functions or other applications

Read data directly from memory, process it, and place results in cache for core usage

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SPARC S7

Cache

DAX DAX DAX DAX

Core Core Core Core


SQL in Silicon: In-Line Decompression

The key to placing more data in memory

The performance of decompression on

todays processors is a huge bottleneck

Solution: DAX unit runs decompression at

memory speeds

Equivalent to eight decompression PCI cards and 30 CPU cores

Increases useable memory

Process

Decompress

DAX

Data Stream

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SQL in Silicon with Oracle Database

In-Memory Query Acceleration and In-Line Decompression available only with the Oracle Database In-Memory option

Oracle Database 12.1.0.2 BP7 + Oracle Solaris 11.3 or later required

Oracle Database 12.1.0.2 BP13 (Oct. 2015) recommended

Oracle Applications certified for Oracle Database 12c support DAX technology

Performance will be application-specific

Internal workloads have been heavily optimized with indexes over time

More opportunities with customer database

In-Memory Query Acceleration and In-Line Decompression

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SPARC S7-2 Server System Details

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SPARC S7-2 Server: Overview 1U chassis, fits into 900 mmdeep rack One or two SPARC S7 processors (up to 16 cores/128 threads) Up to 1,024 GB of DDR4-2400 memory

4, 8, or 16 DIMMs per system 16 GB, 32 GB, or 64 GB per DIMM

Eight 2.5-inch hot-pluggable disk drive bays Up to 8 SAS HDDs/SSDs Up to 4 NVMe SSDs Mixing SAS and NVMe drives is supported

One internal 12 Gb/sec SAS-3 HBA Onboard support for NVMe SSDs Four 10GBASE-T ports (one onboard quad-port NIC) 3+11 low-profile PCIe 3.0 x8 slots (2 with physical x16 support) Serial and Ethernet management ports, 2 USB ports Four hot-swappable N+1 redundant fan modules (top loading) Two 800 W/1,200 W 2 (output) hot-pluggable power supplies (N+1)

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1) One PCIe slot (#4) is internal and reserved for the SAS HBA 2) Power supply output: 800 W when operating at 100120 VAC, 1,200 W at 200240 VAC


SPARC S7-2 Server: Front View

SAS1

SAS0

SAS3/NVMe1

SAS2/NVMe0

Locator LED/Button

Front System Indicators

Power Button

SAS6 SAS7

SAS5/NVMe3

SAS4/NVMe2

4x NVMeCapable Drive Bays

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2x USB 2.0

RFID/Serial Number


SPARC S7-2 Server: Rear View

4x 10GBase-T

3x PCIe 3.0 Slots

PCIe 1 PCIe 2 PCIe 3

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1000Base-T Network Management Port

RJ45 Serial Management Port

Rear System Indicators

2x N+1 Redundant Power Supplies IEC 60320 C13/C14 AC Inlet


SPARC S7-2 Server: Configuration Policy

Single- or dual-processor base packages Memory DIMM slots on motherboard

Choice of half-populated or fully populated memory (4x or 8x DIMMs per processor) All DIMMs required to be the same: either 16 GB, 32 GB, or 64 GB

Disk drives Minimum of one disk drive is required per system, no HBA or controller options required Mixing of SAS HDDs/SSDs and NVMe SSDs is supported

Fans Base package includes four N+1 redundant hot-swappable quad-fan modules System continues to operate with fan failure(s) unless an over-temperature scenario occurs System will not power-on with a failed fan or a missing fan module

Power supply units (PSUs) Base package includes two N+1 redundant hot-swappable power supplies System continues to operate and will power-on with one failed or missing power supply Requires 100120 VAC or 200240 VAC, 50/60 Hz; system warns if an AC cord is not attached

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SPARC S7-2L Server System Details

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SPARC S7-2L Server: Overview 2U chassis, fits into 900 mmdeep rack Two SPARC S7 processors (16 cores/128 threads) Up to 1,024 GB of DDR4-2400 memory

8 or 16 DIMMs per system 16 GB, 32 GB, or 64 GB per DIMM

Four types of disk drive cage options Eight 2.5-inch drive bays1

24 front and 2 rear 2.5-inch drive bays1,2 Twelve 2.5-inch NVMe drive bays (no SAS drives) Twelve 3.5-inch and two 2.5-inch drive bays2 (no NVMe drives)

One internal 12 Gb/sec SAS-3 HBA3 Four 10GBASE-T ports (one onboard quad-port NIC) 6+14 low-profile PCIe 3.0 x8 slots (2 with physical x16 support) Serial and Ethernet management ports, 2 USB ports Four hot-swappable N+1 redundant fan modules (top loading) Two 1,200 W (output) hot-pluggable power supplies (N+1)

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1) Four drive bays are NVMe-enabled, mixing SAS and NVMe drives is supported 2) All drive bays are supported by the single internal 12 Gb/sec SAS-3 HBA 3) Not included in the 12x NVMe drive configuration 4) One PCIe slot (#7) is internal and reserved for the SAS HBA or an NVMe PCIe switch


SPARC S7-2L Server: Front View

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Locator

LED/Button


Power Button

4x NVMe-Capable Drive Bays 2x USB 2.0

RFID/Serial Number

2x NVMe-Capable Drive Bays

2x NVMe-Capable Drive Bays

SPARC S7-2L with Eight 2.5-Inch Disk Drive Cage

SPARC S7-2L with Twenty-Four 2.5-Inch Disk Drive Cage


SPARC S7-2L Server: Front View (cont.)

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SPARC S7-2L with Twelve NVMe Disk Drive Cage

SPARC S7-2L with Twelve 3.5-Inch Disk Drive Cage

Locator LED/Button


Power Button

2x USB 2.0

RFID/Serial Number


SPARC S7-2L Server: Rear View

4x 10GBase-T

6x PCIe 3.0 Slots

PC

Ie 1

PC

Ie 2

PC

Ie 3

1000Base-T Network Management Port

RJ45 Serial Management Port

Rear System Indicators

Two rear 2.5-inch SAS disk bays included with 24x 2.5-inch and 12x 3.5-inch disk cages only

PC

Ie 4

PC

Ie 5

PC

Ie 6

SAS Drive SAS Drive

2x N+1 Redundant Power Supplies, IEC 60320 C13/C14 AC Inlet


SPARC S7-2L Server: Configuration Policy

Server base package includes dual processors Memory DIMM slots on motherboard

Choice of half-populated or fully populated memory (8x or 16x DIMMs per system) All DIMMs required to be the same: either 16 GB, 32 GB, or 64 GB

Disk drives Minimum of one disk drive is required per system, HBA or PCIe switch factory options required Mixing of SAS HDDs/SSDs and NVMe SSDs is supported in select models

Fans Base package includes four N+1 redundant hot-swappable dual-fan modules System continues to operate with fan failure(s) unless an over-temperature scenario occurs System will not power-on with a failed fan or a missing fan module

Power supply units (PSUs) Base package includes two N+1 redundant hot-swappable power supplies System continues to operate and will power-on with one failed or missing power supply Requires 200240 VAC, 50/60 Hz; system warns if AC cord not attached (100120 VAC not supported)

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RAS and System Management

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Reliability, Availability, and Serviceability

Fault Management Architecture (FMA) support in Oracle Solaris and Oracle ILOM

Processor and memory protection CPU core and thread off-lining

Memory error protection, page retirement, and memory scrubbing

Major components are redundant and hot-serviceable Fans, power supplies with dual grid support

Internal disks with Oracle Solaris ZFS RAID protection

Dual PCIe switches with crossover connectivity to both SPARC S7 processors

Optimized for scale-out deployments, server-level redundancy expected Single HBA for internal SAS disk drives

One PCIe root complex per processor, up to two per server

SPARC S7 ProcessorBased Servers

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SPARC S7-2 and S7-2L Servers: Availability Features

Redundant, hot-swappable power supplies and cooling fans

Memory error protection, message retry in hardware,

cyclic redundancy check (CRC)

Dual PCIe root complexes and cross-connected PCIe switches Power-On

Self-Test

Internal NVMe drives supported by two separate PCIe buses for isolation

Hot-pluggable drives

Front and rear system indicator LEDs

Redundant I/O controller (cards) with MPxIO for storage devices and IPMP for network devices

Fault Management Architecture (FMA)

Oracle Solaris ZFS for file system resilience (RAID)


Oracle Enterprise Manager Ops Center: Screenshot

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Management of Applications to OS to Virtualization to Disk

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New SPARC Cloud Services, Engineered Systems, & Servers

S7-2 Server

S7-2L Server

MiniCluster S7-2 Engineered System

CLOUD

Model 300 Dedicated Compute

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