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SPARC T4 Servers and SPARC Supercluster Karel Kannel Proact Estonia AS

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Transforming The Technology Stack

Investing in Best of Breed

Top to Bottom Engineering

Co-Engineered with Enterprise Software

Engineered Systems

HW/SW Engineered to Work Together

Compute, Storage, Network Building Blocks

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Engineering Level Optimization Matters

Management Tools EMC/NetApp

Management Tools Brocade

Management Tools HP

Management Tools VMware

Management Tools Red Hat Enterprise Linux

Management Tools Oracle

Custom Integrated

Lower Cost / Greater Capabilities / Accelerated Deployment

Applications

Middleware / Database

OS / Virtualization

Server

Storage Network

Storage

Oracle's Engineered Stack

Management Tools

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Oracle’s Engineered Systems

Purpose Built for Enterprise Applications

Purpose Built for Middleware and

Application Logic

Purpose Built for Database & Data

Warehouse

New NEW

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SPARC Supercluster

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SPARC Supercluster Redefining General Purpose Servers

•  Replace DB2 on Power7 and improve database performance 3x

•  Replace HP Superdome and reduce costs by 5x

•  Increase Java application performance 10x

•  Transform Database Storage performance 10x

•  Reduce time to production by 4x

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Winning the Architecture with Engineered Systems Use Cases Define the Optimized Solution

Exalogic Middleware Upgrade Mainframe Modernization Middleware Platform Standardization

Exadata OLTP/Data Warehouse Database Consolidation Database Upgrade

SPARC Supercluster General Purpose Multi-Tier Applications Datacenter Consolidation Virtualization

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Oracle SPARC Supercluster

•  Enterprise Application Infrastructure –  Oracle, 3rd party & customer apps –  Virtualization built in

•  High Performance Database –  Exadata Storage Cells

•  Fastest Middleware and Java –  Exalogic Elastic Cloud

•  Simplified Management and Patching –  Install, update, patch, and manage

•  Complete Ready-to-Run System –  Fastest path to production

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SPARC Supercluster Architecture

Nodes • 2 or 4 compute nodes

Storage Grid •  3 or 6 storage cells

InfiniBand Network •  Redundant 40Gb/s switches •  Unified server & storage net

•  Oracle Solaris 11 and Solaris 10

•  Oracle Enterprise Manager Ops Center (optional)

Shared Storage •  ZFS storage appliance

with dual controllers

A complete infrastructure solution for enterprise applications

Software

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SPARC Supercluster- Full or Half Rack

•  Full Rack –  4 x SPARC T4-4 compute nodes –  6 x Exadata Storage Servers, either

•  High Performance (43TB capacity total) •  High Capacity (144TB capacity total)

–  1 x ZFS7320 Storage Dual Controller –  3 x Sun Network QDR InfiniBand Gateway

Switch with 36 IB ports –  1 x GbE Management Switch

•  Each SPARC T4-4 Node: –  4 x SPARC T4 3.0GHz 8-core processor –  32 x 2x16GB DDR3 DIMMs (1TB total) –  6 x 600GB internal drive (SAS) –  2 x 300GB SSDs –  4 x Sun Dual 10 GbE SFP+ PCIe 2.0 Low

Profile Adapter (2 port) –  4 x Sun Quad Data Rate (QDR) InfiniBand

PCIe Low Profile HCA (2 port)

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Full Rack Half Rack

Balanced Incremental Scaling

SPARC Supercluster T4-4 upgraded to T5-4 nodes

SPARC T5-4 nodes

Add fibre channel to compute nodes

Connect to Exadata Storage Expansion Rack

Invest Today and Protect Tomorrow Field Upgradeable

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Virtualization Oracle Solaris Zones and Oracle

VM Clustering Oracle Solaris Cluster

Oracle Clusterware

Database 11g R2, 10g and other DB

Applications E-Business Suite, PeopleSoft, SAP,

Siebel, and much more

Middleware WebLogic

Optional with Exalogic Elastic Cloud

Management Oracle Ops Center and Enterprise

Manager Grid Control

+ Operating System

Oracle Solaris 11 for Exadata and Exalogic nodes

Solaris 10/11 nodes for applications

Software Stack Engineered to Work Together

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SPARC Supercluster Legacy System Replacement Infrastructure Modernization

Superdome2

IBM Websphere

• Higher Performance • Greater Availability • More Secure

• Easier to Manage

All at a fraction of the cost

Modernization

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SPARC Supercluster Key Performance Factors Extreme performance and efficiency

•  Java Applications –  2.2 Million JMS messages/sec –  All China rail ticketing in less

than a rack •  Database Applications

–  2.8 Million database-optimized IOPS

–  For most demanding Databases •  Internet Applications

–  1 Million HTTP requests/sec –  Facebook web traffic in 2 racks

JMS Messages/sec0

0.51

1.52

2.5

Milli

ons

DB-optimized IOPS0

0.51

1.52

2.53

Milli

ons

HTTP Request/sec0

0.5

1

1.5

Milli

ons

SPARC Supercluster

SPARC Supercluster

SPARC Supercluster

Alternative

Alternative

Alternative

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SPARC T4 Servers

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Biggest Single Generation Application Performance Boost In History

•  Improvements over T3 –  Up to 5x integer performance –  Up to 7x floating point performance

•  Gains over the competition –  Superior database performance

•  Up to 4x price/performance compared to IBM Power7 and HP Superdome running database

–  5x better Security performance than IBM Power7 and 3x better than x86

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SPARC T4 Processor

•  Replace 16 S2 cores & L2$ used on T3 with 8 S3 cores and new 4MB L3$

•  Reuse T3 Coherence, memory controllers, and I/O interfaces

•  Features –  8 S3 cores, 8-64 threads @ up to

3Ghz –  Single or multi-threaded operation

per core –  System scalability to 4 sockets

•  SPARC Core S3 –  1-8 Strand Dynamically

Threaded Pipeline –  ISA-based

Crypto-acceleration •  4MB Shared L3$

Full Crossbar 4MB, 8 Bank, 16-way L3$

Coherency Unit Coherency Unit

PEU NIU

C2 C1 C4 C3 C6 C5 C8 C7

Memory Controller Memory Controller

BOB

DDR3

BOB

DDR3

BOB

DDR3

BOB

DDR3

PEU

2 x8 PCIe gen2 @ 5Gb/s 8 GB/s each direction

6x 9.6GT/s Coherency Ports 2-4 Socket Scalability

2 XAUI 10Gb Ethernet 16KB I$ 16KB D$

128KB L2$ FPU

Core S3

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SPARC T4-1B SPARC T4-1 SPARC T4-2 SPARC T4-4

Processor SPARC T4 2.85GHz

SPARC T4 2.85GHz

SPARC T4 2.85GHz SPARC T4 3.0GHz

Max Processor Chips 1 1 2 4 Max Cores/Threads 8, 64 8, 64 16, 128 32, 256 DIMM Slots 16 16 32 64 Max Memory 256GB 256GB 512GB 1.024TB Drive Bays 2 8 6 8

I/O Slots

2 x PCIe 2.0 EM, 2 NEM, 1 REM,

1 FEM slots

6 LP x 8 PCIe 2.0, 4 x 1GbE ports, 2 x 10GBE XAUI

ports

10 x PCIe 2.0, 4 x 1GbE ports, 4 x 10GbE XAUI

ports

16 x PCIe 2.0 EM, 4 x 1GbE ports, 8 x 10GbE XAUI

ports Form Factor/RU Blade Rack 2U Rack 3U Rack 5 U

Key Differentiators of SPARC T4:

5x single thread performance increase over SPARC T3 processor while retaining throughput performance of SPARC T3 Expanded application workload fit to meet requirements for both multi thread and single thread applications

SPARC T4 Product Line Product Line Overview

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Oracle Solaris 11 – Raises the Bar The Next Generation Operating System

Only Solaris 11 has … •  Been designed for clouds – Zones,

network virtualization, ZFS •  BIG data: 128 ZFS with built in dedup,

compression, crypto •  Fast, secure boot and database startup •  Mistake-proof patching and fast upgrade •  Enterprise security with least privilege,

auditing, restricted root

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•  Unified lifecycle management •  Discovery, provisioning, updating, monitoring &

management

•  Physical & virtual systems mgmt •  SPARC & x86 servers •  Solaris Containers •  Oracle VM for SPARC (LDoms)

•  Rich operating systems support •  Oracle Solaris •  Oracle Linux, Red Hat, SUSE •  Windows

NEW!! Run OVM Live Migration from Ops Center graphical console

Enterprise Manager Ops Center 11g Deploy Oracle Sun Servers 90% Faster

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SPARC Roadmap

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2011 Oracle SPARC Server Portfolio

M-Series Servers

SPARC T3

SPARC Enterprise M3000

SPARC Enterprise M4000

SPARC Enterprise M5000

SPARC Enterprise M8000

SPARC Enterprise M9000

SPARC T3-1 SPARC T3-2 SPARC T3-4

Blade Chassis Storage Blades

Sun Blade 6000 Disk Blade 2 Sun Blade 6000

SPARC T3-1B

SPARC T4

SPARC T4-1 SPARC T4-2 SPARC T4-4 SPARC T4-1B

UltraSPARC T2/T2+

Sun SPARC Enterprise T5120/T5140 Sun SPARC Enterprise

T5220/T5240 Sun SPARC

Enterprise T5440 Sun Blade T6320/ T6340

SPARC Supercluster

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ü

ü

ü

ü

T-Series 1-4 Socket

+ 2x Throughput

M-Series 1-64 Socket

+ 20%

M-Series Powered Up 32-64 Sockets

+6x Throughput +1.5x Single Thread

T-Series 1-4 Sockets

+5x Single Thread

M-Series 32-64 Sockets

+2x Throughput >1x Single Thread

T-Series In fabrication

1-8 Sockets +3x Throughput

SPARC 1-64 Sockets

+2x Throughput +1.5x Single Thread

5 Year Trajectory Cores 4x Threads 32x Memory Capacity 16x Database TPM 40x Java Ops Per Second 10x

Solaris 10 Update

Solaris 11 Update Solaris 11 Solaris 11 Update Solaris 11 Update Solaris 11 Express

2010 2011 2012 2013 2014 2015

Solaris 10 Update

Solaris 10 Update

Accelerating SPARC Solaris Servers Maximizing Results

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SPARC Processor Objectives

•  Enable both M and T-series system product lines –  T-series: scale out –  M-series: scale up

•  Improve performance by a minimum of 2x every 2 years –  Focus on commercial server applications

•  Add features to exploit the value of Oracle software –  e.g. SIMD extensions, memory versioning

•  Use common IP in both product lines –  Processor cores, SERDES, IO interfaces, ILOM, Hypervisor

•  Continue to deliver core SPARC capabilities –  Compatibility, Scalability, RAS, in-box upgrades, complete portfolio

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Oracle is committed to SPARC •  Accelerated multi-year roadmaps

–  Chip development was 4-5 years, now it’s a 2-year average –  Full 30 years of Oracle DB capabilities

•  T4 is a game-changer –  Same throughput, 5x the performance –  Customers don’t always know if an application is multi-threaded

•  The SPARC roadmap has “tick-tock” improvements between single-thread and throughput

•  Next generation systems will –  Significantly improve performance and while enhancing system scalability –  Increase system efficiency and availability –  Maintain our commitment to application compatibility

•  Oracle is the best for running Oracle –  Greater value from integrated approach

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Oracle Database Appliance

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Oracle Database Appliance

• Simple. Reliable. Affordable.

© 2011 Oracle Corporation

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Fully Redundant Hardware

•  2 x dual-socket Oracle Linux servers –  24 Intel Xeon processor X5675

cores –  192 GB main memory

•  12 TB raw disk storage •  292 GB solid state storage •  Built-in redundancy –  Server, storage, network, power

and cooling

© 2011 Oracle Corporation

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‘Pay-as-you-Grow’ Database Licensing • Purchase single hardware configuration • Start with minimum of 2 processor core

licenses • Scale to maximum of 24 processor core

licenses • No hardware upgrades required • License database software just for the cores

you use

© 2011 Oracle Corporation

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Low Entry Cost to High Availability

•  24 processor cores •  Manual configuration & installation •  Multiple-vendor support contracts •  Minimum 24 processor core licenses

HP Oracle Database Appliance

•  24 processor cores •  One-button configuration & installation •  Single-vendor support contract •  Minimum 2 processor core licenses

© 2011 Oracle Corporation

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