Oracle SPARC Matthias Burkard Master Principal Sales Consultant 1
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 Oracle s products remains at the sole discretion of Oracle. 2
Agenda Oracle Hardware Strategy Investment and Momentum in Core Technology Investment and Momentum in Systems Engineered to Work Together Oracle s T5 Oracle s M6 Big Memory Machine Innovation, Future, and Product Portfolio 3
25+ Years of SPARC Processors 1987 1988 1992 1995 1996 2000 2002 2005 2007 2010 2011 2013 Sunrise: 1st SPARC Processor SuperSPARC I UltraSPARC II UltraSPARC IIIi UltraSPARC IV+ SPARC T5 UltraSPARC T2 SPARC T4 SUNRAY SPARC M5 SUNRAY UltraSPARC I UltraSPARC III UltraSPARC T1 UltraSPARC T3 SPARC M6 4
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SPARC T5 Processor Features 16 S3 cores, 16-128 Strands @ 3.6Ghz Single or multi-threaded operation per core System scalability to 8 sockets SPARC Core S3 1-8 Strand Dynamically Threaded Pipeline ISA-based Crypto-acceleration 8MB Shared L3$ Integrated I/O Double I/O bandwidth over T4 2 x8 Lane PCIe 3.0 @ 8GT/s System Scalability 7 Coherence Ports for scalability to 8S Power Management Dynamic Voltage Frequency Scaling Downclock, Overclock 6
T5/M5 Systems RAS S11 FMA Diagnosis engine on SP Auto reconfigure on failure Soft Error Rate Discrimination (SERD) Bad page retirement OS and SP watchdogs FMA Component hot-upgradeable T5/M5 Processor L1$ Tag, Status $ Data Parity protection Retry on error L2$/L3$ Data SEC/DED protection Cache-line Sparing L2$/L3$ Tags SEC/DED protection Inline Correction Cache-line Sparing L2$/L3$ Status & Directory SEC/DED protection Inline Correction Architectural RegistersL2 Cache SEC/DED protection Precise Trap and Hypervisor Correction and Retry Unique to M5 Hypervisor Enables software partitioning (LDoms) virtualization and failure containment Processor support for error clearing, correction and collection Central Directory and Switch SEC/DED protection with in line correction Physical domain isolation CRC protected System Interconnect with message retry and lane sparing Deconfigurable directory chips, no loss of functionality, minimized bandwidth loss Redundant Scalability Switch Boards System Redundant SPs with automatic failover Redundant clock boards Diagnosis to the FRU level on first fault Power and Cooling Advanced Power Management Redundant hot-swap fans Redundant hot-swap AC/DC Dual grid power System I/O PCI-Express end-to-end CRC PCI Express link retry Hot-plug low profile PCI Express cards Redundant, hot-plug boot disks Alternate connections between M5 and IO controllers Memory SDRAM Soft Errors ECC Protection and Correction Extended ECC Protection 4-bit Correction Pin Steering Channel Interconnect CRC protection/message Retry Lane Sparing 7
T4 +1x Throughput +5x Thread Strength Oracle SPARC Processor Roadmap Delivered M6 +2x Throughput M5 >1x Thread Strength +6x Throughput +1.5x Thread Strength T5 +2.5x Throughput +1.2x Thread Strength In Test M & T Series +2x Throughput +1.5x Thread Strength Software in Silicon Database Query Decompression Encryption Application Data Integrity Java Optimization Low Latency Clustering Planned 2011 2012 2013 2014 2015 2016 Solaris 11 Solaris 11.1 Solaris 11.x Solaris 11.x Solaris 11.x Solaris 12 Next Gen Core M & T Series +1.3x Throughput +1.5x Thread Strength Oracle Numbers Optimization 2017 2018 2019 Solaris 12.x Core Enhancements Increased Cache Increased Bandwidth Software in Silicon Enhancements Database Query+ Java Optimization+ Encryption+ Low Latency Clustering+ Solaris 12.x 8
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The Ultimate Software Optimization: Hardware Moving Oracle Database & Java Software Functions into Hardware Database Query Acceleration Java Acceleration Application Data Protection Data Compression / Decompression 10
The Ultimate Software Optimization: Hardware Moving Oracle Database & Java Software Functions into Hardware Software in Silicon Database query acceleration Java acceleration Application data protection Data decompression ONLY ORACLE! 11
High Speed Encryption Capabilities On-Chip Crypto Accelerators Outperform Competition 2.7X faster than Intel s E5 processor 256-bit encryption 2.5X faster than Intel s E5 processor 128-bit encryption??? IBM Power 7+ yet to show results publicly 12 See benchmark disclosure slide
Software in Silicon: Application Data Integrity Improved Security & Reliability in Hardware First ever hardware based memory protection Stops malicious programs from accessing other application memory Can be always on: Hardware approach has negligible performance impact Results in improved developer efficiency and more secure and higher available applications 13
Reliability & Security: Application Data Integrity Revolutionary Change to Memory Architecture Database In-memory places terabytes of data in memory More vulnerable to corruption by bugs/attacks than storage SPARC M7 Application Data Protection stops memory corruptions with no impact on performance Hidden color bits added to pointers (key), and content (lock) Pointer color (key) must match content color or program is aborted Prevents access off end of structure, stale pointer access, malicious attacks, etc. plus improves developer productivity Memory Pointers Memory Content 14
Query Acceleration: Not Just Simply Queries Real-world Enterprise analytics accelerated Hardware for common range comparisons How many between start-date and end-date? The following query would run entirely in silicon SQL: SELECT count(*) WHERE lo_orderdate = d_datekey AND lo_partkey = 1059538 AND d_year_monthnum BETWEEN 201311 AND 201312; Results placed directly in processor cache 15
Read DAX Write Read Write Software in Silicon: Accelerating Oracle Database 12c Decompress at memory speed >120 GB/sec t Decompress More than Doubles data size One step 10X faster Write Read Software scan Multiple steps SQL: SELECT count(*) WHERE lo_orderdate = d_datekey AND lo_partkey = 1059538 AND d_year_monthnum BETWEEN 201311 AND 201312; 16
Revolutionary Performance with Fewer Cores Up to 170 Billion rows per second Query Throughput Useable Memory 17 Legacy Approach Oracle Software in Silicon Frees 64 cores for decompress and frees 32 cores for query Legacy Approach Oracle Software in Silicon Up to 3x Higher Comparing current systems with equivalent CPU core counts and physical memory Over 10x More
The Unique Oracle Advantage Hardware and Software Engineered to Work Together One Engineering Team vs 18
One Engineering Team Red Stack Engineered Together Best performance, availability, security, efficiency Tested Together 150,000 machine hours every week 10M+ machine hours annually Certified Together We take the risk for you Deployed Together Your application up in hours, not months Managed Together 3x lower administration and maintenance costs Upgraded Together Risk free patching/updates Supported Together Coordinated response for your deployment 19
Oracle Systems Execution Strategy Focused and Leveraged: Building a Complete Portfolio M6 / M5: 12 / 6 Cores, 48M$, 3.6Ghz S3 Core 8 threads T5: 16 cores, 8MB$ 3.6Ghz M6-32, M5-32 T4: 8 Cores, 4MB$ 2.85-3.0Ghz T5-1B T5-2 T5-4 T5-8 T4-1 SINGLE INNOVATIVE CORE HIGH PERFORMANCE PROCESSORS HIGHLY SCALABLE AND RELIABLE SYSTEMS THE MOST SCALABLE, RELIABLE, AND SECURE OPERATING ENVIRONMENT 20
Oracle SPARC Systems Direction Increase Application Performance 2x Every Two Years Lead Mission Critical computing Embed Oracle-specific enhancements Design the best servers in the world. Period. Not just about servers: Integrate into Engineered Systems 21
Investment in Core Technology PROCESSORS SOFTWARE BANDWIDTH SYSTEMS SPARC microprocessors are the fastest in the world, and continue to lead the industry into the multi-core era Oracle Solaris is the leading enterprise cloud OS, many years ahead in scalability and reliability SPARC servers reach incredible scale inside the server, or outside, through leading-edge InfiniBand technology Oracle s portfolio today has the performance and price / performance advantage, and offers breakthrough virtualization for business critical applications 22
Oracle s Unique Advantage: Design Innovation Extreme Performance, Efficiency and Optimization for Software System Software 24
Oracle s SPARC Server Portfolio Higher Performance Bigger Data Greater Application Consolidation 100% Compatibility Since 2000 SPARC T5-1B 16 cores T5-1B 256 GB Memory SPARC T4-1 8 cores @ 2.85 GHz 512 GB Memory SPARC T5-2 32 cores @ 3.6 GHz 512 GB Memory SPARC T5-4 64 cores @ 3.6 GHz 2 TB Memory SPARC T5-8 128 cores @ 3.6 GHz 4 TB Memory SPARC M6-32 384 cores @ 3.6 GHz 32 TB Memory SPARC M5-32 192 cores @ 3.6 GHz 32 TB Memory 25
SPARC T5 Servers Product Line Overview Processor SPARC T5-1B SPARC T5-2 SPARC T5-4 SPARC T5-8 SPARC T5 3.6GHz SPARC T5 3.6GHz SPARC T5 3.6GHz SPARC T5 3.6GHz Max Processor Chips 1 2 4 8 Max Cores/Threads 16, 128 32, 256 64, 512 128, 1024 DIMM Slots 16 32 64 128 Max Memory 128GB, 256GB, 512GB 256GB, 512GB, 1TB 1TB or 2TB 2TB or 4TB Drive Bays 2 6 8 8 I/O Slots 2 x PCIe 2.0 EM, 2 NEM,1 FEM slots 8 LP x8 PCIe 3.0, 4 x 10GbE ports 16 LP x8 PCIe 3.0, 4 x 10GbE ports 16 LP x8 PCIe 3.0, 4 x 10GbE ports Form Factor/RU Blade Rack 3RU Rack 5RU Rack 8RU Max Power Consumption 689W 1927W 2410W 4850W 26
SPARC T5-1B Blade Server Next Generation 1-socket SPARC Blade Server Compute 1x SPARC T5 16-core CPU 16x DDR3 DIMMs 128GB (8GB DIMMs), 256GB (16GB DIMMs), 512GB (32GB DIMMs) memory I/O and Storage 2x hot-plug PCIe 2.0 x8 Express Modules 2x 2.5 SAS HDD or SSD drives Availability and Management Built-in RAID 0, 1 Hot plug disks Integrates with Sun Blade 6000 network architecture Oracle ILOM service processor 27
SPARC T5-2 Enterprise Server Next Generation 1 and 2-socket SPARC Server Compute 1x or 2x SPARC T5 16-core CPU 16x or 32x DDR3 DIMMs 128GB (1 CPU), 256GB (8GB DIMMs), 512GB (16GB DIMMs), 1TB (32GB DIMMs, 2 CPU) of memory I/O and Storage 8x PCIe 3.0 x8 slots 4x 10G-baseT ports 6x 2.5 SAS HDD or SSD drives Availability and Management Built-in RAID 0, 1, 1E Hot-plug disks Hot-swap and redundant fans and power supplies Oracle ILOM service processor SysFW 9.1.2a (or greater) is required for the T5-2 1Socket 28
SPARC T5-4 Enterprise Server Next Generation 4-socket SPARC Server Compute 2x or 4x SPARC T5 16-core CPU 32x or 64x DDR3 DIMMs Max 1TB (16GB DIMMs) or 2TB (32GB DIMMs) memory I/O and Storage 16x PCIe 3.0 x8 slots, w/ carriers 4x 10G-baseT ports 8x 2.5 SAS HDD or SSD drives Availability and Management Built-in RAID 0, 1, 1E Hot-plug disks, PCI cards Hot-swap and redundant fans and power supplies Oracle ILOM service processor Front Rear 29
SPARC T5-8 Enterprise Server Next Generation 8-socket SPARC Server Compute 4x or 8x SPARC T5 16-core CPU 64x or 128x DDR3 DIMMs Max 2TB (16GB DIMMs) or 4TB (32GB DIMMs) memory I/O and Storage 16x PCIe 3.0 x8 slots, w/ carriers 4x 10G-baseT ports 8x 2.5 SAS HDD or SSD drives Availability and Management Built-in RAID 0, 1, 1E Hot-plug disks, PCI cards Hot-swap and redundant fans and power supplies Oracle ILOM service processor Front Rear 30
Reality Check: Total Cost Analysis Oracle SPARC, Solaris costs are 30% lower than x86, Linux over 3 years X86, Linux ACQUIRE MANAGE MAINTAIN Oracle SPARC, Solaris ACQUIRE MANAGE MAINTAIN ENERGY 3 YEAR TCO Based on 3rd. party industry analyst study 31
SPARC T5 Server TCO Comparison Oracle SPARC T5-2 Is An Obvious Choice! $250.000 $200.000 $150.000 $100.000 $50.000 $74,701 TCO $203,456 $91,448 HW Support Virt Mnt Fee Virt. Lic Fee OS Support OS Lic Fee System software included: OS, V12N, Management All prices and performance data are based on public references. HW $0 T5-2 P750 DL580 Ref: Public pricing and benchmark references 32
Fastest Server for Oracle Siebel ERP at Less than a Fourth of the Cost 176,185 Transactions per hour Siebel Benchmark 7X 333,339 Transactions per hour IBM Power 750 AIX $523,004 Oracle Advantage Server Cost Oracle SPARC T5-2 Oracle Solaris $135,516 33 See benchmark See benchmark disclosure slide
Fastest Server for Java Outperforms x86 Results for 2, 4, and 8 Socket SPARC T5-2 Java Benchmark Metric: 39,088 HP HP HP 2.5X over DL 350 Gen 8 Java Metric: 15,540 2.1X over DL 560 Gen 8 Java Metric: 18,049 1.6X over DL 980 Gen 7 Java Metric: 23,268 34 See benchmark disclosure slide
Best Value for Java Faster, More Efficient Application Infrastructure 16,646 Java Operations Benchmark 57,422 12X IBM P780 AIX $990,000 Oracle Advantage Cost Oracle SPARC T5-8 Oracle Solaris $270,000 SPARC T5-8, 57,422.17 SPECjEnterprise2010 EjOPS; IBM Power 780, 16,646.34 SPECjEnterprise2010 EjOPS. 35 See benchmark disclosure slide
Best Value for Database Database 7X IBM Power 780 3 Node Cluster AIX $5,830,000 Oracle Advantage Server Cost Oracle SPARC T5-8 Oracle Solaris $620,000 36 See benchmark disclosure slide See benchmark disclosure slide
March 26, 2013: Oracle Changes the Market Announced M5 with a 7X price performance advantage over IBM 37
Oracle Introduces the SPARC M6-32 Server September 22, 2013 Double the throughput performance of Oracle s leading high-end system M5 Mix and match seamless upgrades to M5 For in-memory computing and virtualized workloads 38
Oracle M6-32 Performance, Efficiency, In-Memory Computing Extreme Performance High Efficiency Best for In-Memory 2X the throughput performance Flexible logical and physical virtualization, continuous availability In-memory Oracle data base queries up to 7X faster 39
Powered By Oracle Processor Technology SPARC M6: Higher Density and Lower Cost / Core 96 COMPUTE THREADS PER PROCESSOR New: 12 S3 cores @ 3.6GHz Large 48MB shared L3 Cache Scalable to 32 processors Integrated 2x8 PCIe 3.0 Integrated ISA-based crypto acceleration 4.1 Tbps total link bandwidth 40
Oracle M6 Changes Enterprise Computing Run All of Your Applications In Memory For Unparalleled Performance 384 CORES 3072 Compute Threads Extreme performance 384 the processor cores Massive throughput performance with 3072 threads Oracle In-Memory data base queries 7X faster Highest efficiency: built-in, no-cost virtualization Flexible physical and logical system partitioning Continuous availability design to eliminate downtime All of your existing apps just run, faster Best for in-memory computing 2X more memory per processor of any datacenter server Terabytes of memory bandwidth 41
Unprecedented Performance and Scalability M6 Big Memory Machine: Terabyte Scale Computing 3 TERABYTES PER SECOND SYSTEM BANDWIDTH 1.4 TERABYTES PER SECOND MEMORY BANDWIDTH 1 TERABYTE PER SECOND I/O BANDWIDTH 384 cores, 3,072 threads, virtualization built in: deploy any size workload Best platform for in-memory computing 32 TERABYTE SYSTEM MEMORY 42
Better $ / Unit of Performance Better Worse Worse Oracle: Re-engineering Systems Economics Near Linear Pricing IBM Power 780 POWER7+ $2,101,370 IBM Power 795 POWER7 $5,761,583 IBM Power 740 POWER7+ $101,571 IBM Power 750 POWER7+ $204,982 T5-2 $67,042 T5-4 $147,992 T5-8 $268,314 M6-32 $1,209,943 2 Socket 4 Socket 8 Socket 32 Socket 43 Note: Data as of 04/01/14
SPARC M6-32 Big Memory At Big Scale The Details Compute Up to 32x SPARC M6 12 core 3.6GHz processors Up to 1,024x DDR3 DIMMs for max memory of 32TB I/O and storage 32x 2.5 SAS-2 internal drives 64x PCIe 3.0 low profile internal slots Scalability and investment protection Mix and match M5 and M6 processor boards in the same server Availability and management Advanced RAS with redundant and hot swap of key components Extensive virtualization with Oracle VM Server for SPARC, Dynamic Domains, and Oracle Solaris Zones Integrated Oracle ILOM system management 47
Relative Performance Accelerate Database Performance Oracle s Big Memory Advantage 8 7 6 5 4 >7X PERFORMANCE BOOST 3 2 1 0 Scan-rate Query1 Query2 Small Memory Large Memory Game changing performance advantage on database queries when using big memory 48
Why Big-Memory? 10 1 64MB/DIMM Technology Cost/TB Latency Disks 1x 5 ms DRAM 50x 100 ns $/MB 0,1 0,01 32GB/DIMM DRAM vs HDD: 1,000X better cost-performance 0,001 1999 2013 Year 49
SPARC M6-32: Mission-Critical Proven Eliminate Downtime for Higher Efficiency Highest Uptime Containment and isolation of hardware faults, that can be repaired live Redundancy of critical components Redundancy of I/O paths to network and storage devices Phone home alerts Investment Protection Existing apps just run Mix M5 and M6 processors Built in Virtualization No cost & zero overhead Comprehensive management tools Flexible, dynamic I/O capability 50
SPARC M6-32: Continuous Availability Highest Availability of Oracle s SPARC Server Portfolio Dual grid power and redundancy of major components including system interconnect Hot plug of major system components Recovery/reboot of key system components System monitoring of key ASIC and sub-asic levels Physical, hardware partitions for increased fault isolation Solaris Fault Management Architecture Predictive self healing incl. CPU off-lining, autodiagnosis and recover, memory page retirement RAS Feature Dual Grid Power & Major Component Redundancy Reboot / Recovery if key failures Hot Plug of Major Components Dynamic Domains (Hardware Partitions) Solaris FMA Supported 51
SPARC M6-32 Key Use Cases Extreme Performance, Highest Efficiency, and Best for Oracle Software Big memory computing Performance: host entire applications and databases in-memory Ease of deployment: avoid data partitioning of large data sets Large mission-critical workloads Customer requirement or IT policy for the highest RAS system Dynamic workloads and higher efficiency Uncertain workload size or need expansion headroom Highest utilization and efficiency with built-in no-cost virtualization Consolidation Multiple workloads into single high availability platform 53
Oracle Invests in Hardware / IBM Divests Hardware Sold networking business to Cisco* Sold HDD business to Hitachi Sold PC business to Lenovo Sold printing business to Ricoh Sold POS business to Toshiba X86 Servers FAB? Storage? 2000 2002 2004 2006 2008 2010 2012 2014 What do you do when IBM sells off the products you re using? Shopping their FAB. Speculation that Storage could be next. *later acquired networking specifically for BladeCenter 54
Best Enterprise Portfolio Engineered Systems Entry-Level Mid-Range High-End T4-1B T5-1B T4-1 T4-2 T5-2 T5-8 SuperCluster T5-8 and M6-32 Exalytics T5-8 T4-4 T5-4 M6-32, M5-32 55
Oracle Cloud Infrastructure Building the Cloud with In-memory Computing ORACLE ENGINEERED SYSTEMS SOFTWARE SERVERS, STORAGE & NETWORKING PRODUCTS 56
COMPLETE Optimize All Workloads on a Private Cloud Oracle SuperCluster with Exadata Hardware and Exalogic Software Software Compute Storage + + The best system for running databases and applications in memory Most scalable system for consolidation and cloud services Networking SuperCluster T5-8 SuperCluster M6-32 Secure multi-tenant virtualization 57
Oracle s Most Powerful Engineered System Secure Multitenant, Database and Application Consolidation & Cloud 58 Unique combination of extreme performance, reliability, scalability and astonishing ROI Integrated, end-to-end secure multitenant architecture Exadata Storage Grid technology Zero-overhead virtualization Enterprise-class high performance servers InfiniBand I/O Backplane Integrated ZS3 storage SuperCluster T5-8 SuperCluster M6-32 2-4 TB RAM 16-32 TB RAM 128-256 Cores 192-384 Cores 57-384 TB Exadata Storage 129-432 TB Exadata Storage 80 TB NAS Storage 80 TB NAS Storage New
Zero Overhead Virtualization Increase Utilization and Performance Maximize utilization More applications More business users More production and test environments Unique innovation Zero overhead Electrically isolated dynamic domains Integrated, hardware assisted encryption Built-in, no cost Dynamic Domain Solaris Legacy Zone Solaris 10 Zone Oracle VM Oracle VM Oracle VM Oracle M6 10 Dynamic Domain Solaris 10 Zone Solaris 11 Zone Solaris 11 Zone Only Oracle Provides This Level of Virtualization 11 59
Secure Multi-tenant Density, Flexibility, and Isolation Database Consolidation Options 2 PDB DB 12c Zone PDB DB 11g App. Zone DB 10g Zone DB 11g Zone 1 DB DB InstancDB Instanc Instanc e e DB 12c Zone e SCH SCH DB 10g Zone 3 Oracle VM for SPARC Oracle VM for SPARC Oracle VM for SPARC Oracle VM for SPARC Oracle VM for SPARC Physical Domain 1. Instance consolidation Physical Domain Multiple Databases running on same Solaris Operating System Each Database has direct access to shared resources Each Database is unique Physical Domain SuperCluster M6-32 2. Pluggable Database In Database Virtualization Reduction in overhead High performance, high density consolidation Isolation of virtualized database Physical Domain 3. Schema-level database consolidation Shared Database Minimizes management entities Minimize resource overhead 60
Growth In OPEX Continues To Outpace CAPEX Customer Spending ($B) Installed Servers (M) $250 $200 $150 $100 $50 Power & Cooling Expense Management & Administra on Server Spending Logical Server Installed Base (M) Physical Server installed Base (M) RUN MAINTAIN 70 50 30 10 IDC Business Value customer research shows that large management savings and overall TCO savings can be achieved by using Unix servers. It is vital for system administrators, IT managers, and datacenter managers to consider the overall TCO, especially the often-overlooked management costs, before choosing server and virtualization solutions. IT organizations should take a holistic approach to datacenter efficiency 0 96 97 98 99 00 01 02 03 04 05 06 07 08 09 10 11 12 13 Ref: IDC Whitepaper - 4/2012 64
Consistent Management Oracle Enterprise Manager 12c Consistent Interface Multiple Instances Application Level Oracle Database Appliance Exadata Exalogic SuperCluster Big Data Exalytics Virtual Appliance Compute Appliance Zero Data Loss Recovery Appliance 65
Introducing: Oracle Enterprise Manager 12c Ops Center Industry s First Converged Hardware Management Solution Integrated Infrastructure Management + Integrated Application-to- Disk Management + Integrated Lifecycle Management + Integrated Systems Management & Support 66
Complete End-to-End System Management Common Management tool for all SPARC systems Provides complete resource management Deploy and manage virtual machines and domains Obtain Operating System analytics and identify opportunities for improvement Manage system configurations, including remote telemetry Perform maintenance, including Health Checks, Phone Home 67
Full Stack Cloud Management With Oracle Enterprise Manager 12c Self-Service Provisioning Oracle VM Enabled Cloud Management Capabilities Metering and Chargeback Policy-Driven Resource Mgmt Capacity Planning Assembly Packaging Configuration and Compliance Lifecycle Management Foundation Capabilities for Managing Datacenters Application Performance & Quality Management Oracle VM 3.0 Virtualization Management Full Apps to Disk Management 68
Oracle + OpenStack Oracle Offers Customers Ability to Use OpenStack to Manage Oracle Cloud Products and Services Oracle joined OpenStack Foundation as a corporate sponsor OpenStack integration with Oracle Solaris, Oracle Linux, Oracle VM, Oracle Virtual Compute Appliance, Oracle s storage Oracle Infrastructure Cloud and Oracle Storage Cloud Service compatibility with OpenStack 69
Full Distribution of OpenStack in Oracle Solaris Horizon Cloud Management Nova Compute Virtualization Neutron Cloud Networking Cinder/Swift Cloud Storage Glance Image Deployment Zones & Kernel Zones Elastic Virtual Switch ZFS File System Unified Archives 70
Oracle Solaris Enterprise OpenStack Horizon Cloud Management Shared Storage x86 x86 x86 71
Adding Value to Oracle Solutions Oracle Solaris Runs on All of Oracle s Hardware Exalogic Exadata SuperCluster ZFS Storage x86 T Series M Series 72
Oracle FS1: Flash Storage Enterprise San High Availability Scale-Out Architecture Up to 16 HA Nodes Petabytes of Flash Up to 2M 50/50 R-W IOPS Up to 80 GB/sec throughput Full suite of data services 73
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