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Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 1
Oracle SPARC
Matthias Burkard Master Principal Sales Consultant
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 2
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.
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 3
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 4
Sunrise:
1st SPARC
Processor
SUNRAY
UltraSPARC I
UltraSPARC II
UltraSPARC III
UltraSPARC IIIi
UltraSPARC IV+
UltraSPARC T1
SPARC T4
UltraSPARC T3
UltraSPARC T2
SUNRAY
SPARC M6
SuperSPARC I
SPARC T5
SPARC M5
1987 1992 1996 2000 2005 1988 1995 2002 2007 2010 2011 2013
25+ Years of SPARC Processors
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 6
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 7
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
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
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 Unique to M5
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 8
Oracle SPARC Processor Roadmap
Solaris 11.x Solaris 11.1 Solaris 11.x Solaris 11.x
Solaris 12 Solaris 11
T4 +1x Throughput
+5x Thread Strength
M5 +6x Throughput
+1.5x Thread Strength
M6 +2x Throughput
>1x Thread Strength
In Test
M & T Series +2x Throughput
+1.5x Thread Strength
T5 +2.5x Throughput
+1.2x Thread Strength
2011 2012 2013 2014 2015 2016
Delivered
Software in Silicon
•Database Query
•Decompression
•Encryption
•Application Data
Integrity
•Java Optimization
•Low Latency
Clustering
2018
Oracle Numbers
Optimization
M & T Series +1.3x Throughput
+1.5x Thread Strength
Solaris 12.x
2017 2019
Software in Silicon
Enhancements
•Database Query+
•Java Optimization+
•Encryption+
•Low Latency
Clustering+
Core
Enhancements
Increased Cache
Increased Bandwidth
Solaris 12.x
Next Gen Core
Planned
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 10
The Ultimate Software Optimization: Hardware Moving Oracle Database & Java Software Functions into Hardware
Database Query Acceleration
Application Data Protection
Java Acceleration
Data Compression / Decompression
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 11
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!
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 12
High Speed Encryption Capabilities On-Chip Crypto Accelerators Outperform Competition
See benchmark disclosure slide
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 13
Improved Security & Reliability in Hardware
Software in Silicon: Application Data Integrity
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 14
Reliability & Security: Application Data Integrity
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
Revolutionary Change to Memory Architecture
Memory Pointers
Memory Content
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 15
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
Results placed directly in processor cache
SQL: SELECT count(*) …WHERE lo_orderdate = d_datekey …AND lo_partkey = 1059538 AND d_year_monthnum BETWEEN 201311 AND 201312;
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 16
Decompress at memory speed >120 GB/sec
Software in Silicon: Accelerating Oracle Database 12c
One step 10X
faster
Decompress More than Doubles data size
Read Software
scan Re
ad
Write
Write
Re
ad
DA
X
Write
Multiple steps
SQL: SELECT count(*) …WHERE lo_orderdate = d_datekey …AND lo_partkey = 1059538 AND d_year_monthnum BETWEEN 201311 AND 201312;
t
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 17
Up to 170 Billion rows per second
Revolutionary Performance with Fewer Cores
Query Throughput
Legacy Approach
Useable Memory
Legacy Approach
Frees 64 cores for decompress and frees 32
cores for query
Comparing current systems with equivalent CPU core counts and physical memory
Oracle Software in Silicon 10x
Oracle Software in Silicon 3x
Over
More
Up to
Higher
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 18
The Unique Oracle Advantage Hardware and Software Engineered to Work Together
vs
One Engineering Team
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 19
One Engineering Team Red Stack
1
9
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 Upgraded Together
Risk free patching/updates Managed Together
3x lower administration and maintenance costs Supported Together
Coordinated
response for your
deployment
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 20
Oracle Systems Execution Strategy Focused and Leveraged: Building a Complete Portfolio
T4: 8 Cores, 4MB$
2.85-3.0Ghz
T5: 16 cores, 8MB$
3.6Ghz M6-32, M5-32
T4-1
T5-2 T5-4 T5-8 T5-1B
S3 Core
8 threads
M6 / M5: 12 / 6 Cores,
48M$, 3.6Ghz
SINGLE
INNOVATIVE
CORE
HIGH
PERFORMANCE
PROCESSORS
HIGHLY SCALABLE AND
RELIABLE SYSTEMS
THE MOST SCALABLE,
RELIABLE, AND SECURE
OPERATING ENVIRONMENT
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 21
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 22
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 24
Oracle’s Unique Advantage: Design Innovation Extreme Performance, Efficiency and Optimization for Software
System
Software
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 25
Oracle’s SPARC Server Portfolio
Higher Performance
Bigger Data
Greater Application Consolidation
100% Compatibility Since 2000
SPARC T4-1 8 cores @ 2.85 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 T5-2 32 cores @ 3.6 GHz
512 GB Memory
SPARC T5-1B 16 cores T5-1B
256 GB Memory
SPARC M6-32 384 cores @ 3.6
GHz
32 TB Memory
SPARC M5-32 192 cores @ 3.6
GHz
32 TB Memory
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 26
SPARC T5-1B SPARC T5-2 SPARC T5-4 SPARC T5-8
Processor 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
SPARC T5 Servers Product Line Overview
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 27
SPARC T5-1B 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
Next Generation 1-socket SPARC Blade Server
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 28
SPARC T5-2 Enterprise 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
Next Generation 1 and 2-socket SPARC Server
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 29
SPARC T5-4 Enterprise 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
Next Generation 4-socket SPARC Server
Front
Rear
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 30
SPARC T5-8 Enterprise 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
Next Generation 8-socket SPARC Server
Front
Rear
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 31
Reality Check: Total Cost Analysis
ENERGY 3 YEAR TCO ACQUIRE
X86, Linux
Oracle SPARC, Solaris
MAINTAIN ACQUIRE MANAGE
MANAGE MAINTAIN
Oracle SPARC, Solaris costs are 30% lower than x86, Linux over 3 years
Based on 3rd. party industry analyst study
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 32
SPARC T5 Server TCO Comparison
System software
included: OS, V12N,
Management
All prices and
performance data are
based on public
references.
Oracle SPARC T5-2 Is An Obvious Choice!
TCO
Ref: Public pricing and benchmark references
$0
$50.000
$100.000
$150.000
$200.000
$250.000
T5-2 P750 DL580
HW Support
Virt Mnt Fee
Virt. Lic Fee
OS Support
OS Lic Fee
HW
$203,456
$91,448
$74,701
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 33
Fastest Server for Oracle Siebel ERP at Less than a Fourth of the Cost
IBM Power 750
AIX
$523,004
7X Oracle
Advantage
$135,516
Oracle SPARC T5-2
Oracle Solaris
See benchmark disclosure slide
176,185 Transactions per hour
333,339 Transactions per hour
Siebel Benchmark
Server Cost
See benchmark disclosure slide
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 34
SPARC T5-2
Java Benchmark Metric: 39,088
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
Fastest Server for Java Outperforms x86 Results for 2, 4, and 8 Socket
See benchmark disclosure slide
HP HP HP
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 35
Best Value for Java Faster, More Efficient Application Infrastructure
IBM P780
AIX
16,646
$990,000
12X Oracle
Advantage
Java Operations Benchmark
Cost
57,422
$270,000
Oracle SPARC T5-8
Oracle Solaris
SPARC T5-8, 57,422.17 SPECjEnterprise2010 EjOPS; IBM Power 780, 16,646.34 SPECjEnterprise2010 EjOPS.
See benchmark disclosure slide
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 36
Best Value for Database
IBM Power 780
3 Node Cluster – AIX
$5,830,000
7X Oracle
Advantage
Database
$620,000
Oracle SPARC T5-8
Oracle Solaris
See benchmark disclosure slide
Server Cost
See benchmark disclosure slide
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 37
Announced M5 with a
7X price performance
advantage over IBM
March 26, 2013: Oracle Changes the Market
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 38
Oracle Introduces the SPARC M6-32 Server
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
September 22, 2013
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 39
Oracle M6-32 Performance, Efficiency, In-Memory Computing
High Efficiency
Flexible logical and
physical virtualization,
continuous availability
Best for In-Memory
In-memory Oracle data base
queries up to 7X faster
2X the throughput
performance
Extreme Performance
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 40
Powered By Oracle Processor Technology SPARC M6: Higher Density and Lower Cost / Core
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
96 COMPUTE
THREADS PER
PROCESSOR
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 41
Oracle M6 Changes Enterprise Computing
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
Run All of Your Applications In Memory For Unparalleled Performance
3072 Compute Threads
384 CORES
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 42
Unprecedented Performance and Scalability M6 Big Memory Machine: Terabyte Scale Computing
Best platform for in-memory computing 32 TERABYTE SYSTEM MEMORY
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 43
Oracle: Re-engineering Systems Economics
Wo
rse
B
ett
er
Near Linear Pricing
$ / U
nit
of
Pe
rfo
rman
ce
T5-4
$147,992
T5-8
$268,314
M6-32
$1,209,943
T5-2
$67,042
IBM Power 750 POWER7+ $204,982
IBM Power 780 POWER7+ $2,101,370
IBM Power 795 POWER7
$5,761,583
IBM Power 740 POWER7+ $101,571
2 Socket 4 Socket 8 Socket 32 Socket
Wo
rse
B
ett
er
Note: Data as of 04/01/14
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 47
SPARC M6-32 – Big Memory At Big Scale
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
The Details
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 48
Accelerate Database Performance
Game changing performance
advantage on database
queries when using big
memory
Oracle’s Big Memory Advantage
0
1
2
3
4
5
6
7
8
Scan-rate Query1 Query2
Re
lati
ve
Pe
rfo
rma
nc
e
Small Memory Large Memory
>7X PERFORMANCE BOOST
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 49
Why Big-Memory?
$/MB
1999 2013
Technology Cost/TB Latency
Disks 1x 5 ms
DRAM 50x 100 ns
DRAM vs HDD:
1,000X better cost-performance
32GB/DIMM
Year
0,001
0,01
0,1
1
10
64MB/DIMM
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 50
SPARC M6-32: Mission-Critical Proven
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
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 51
RAS Feature Supported
Dual Grid Power &
Major Component
Redundancy
Reboot / Recovery if
key failures
Hot Plug of Major
Components
Dynamic Domains
(Hardware Partitions)
Solaris FMA
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, auto-
diagnosis and recover, memory page retirement
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 53
SPARC M6-32 Key Use Cases 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
Extreme Performance, Highest Efficiency, and Best for Oracle Software
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 54
Oracle Invests in Hardware / IBM Divests Hardware
2000 2002 2004 2006 2008 2010 2012 2014
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
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
X86
Servers FAB?
Storage?
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 55
Best Enterprise Portfolio
T4-1B
T4-1
T4-2
T4-4
T5-1B
T5-2
T5-4 SuperCluster T5-8 and M6-32
Exalytics T5-8
Entry-Level Mid-Range High-End Engineered Systems
M6-32, M5-32
T5-8
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 56
Oracle Cloud Infrastructure Building the Cloud with In-memory Computing
ORACLE ENGINEERED
SYSTEMS
SERVERS, STORAGE &
NETWORKING PRODUCTS SOFTWARE
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 57
Optimize All Workloads on a Private Cloud Oracle SuperCluster with Exadata Hardware and Exalogic Software
CO
MP
LE
TE
Compute
Storage
Software
Networking
+
+
The best system for
running databases
and applications in
memory
Most scalable
system for
consolidation and
cloud services
Secure multi-tenant
virtualization SuperCluster
T5-8
SuperCluster
M6-32
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 58
Oracle’s Most Powerful Engineered System
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
Secure Multitenant, Database and Application Consolidation & Cloud
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 59
Zero Overhead Virtualization
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
Increase Utilization and Performance
Oracle M6
Dynamic Domain Dynamic Domain
Oracle VM Oracle VM Oracle VM
10
Solaris Legacy
Zone
Solaris 10
Zone
11
Solaris 10
Zone
Solaris 11
Zone
Solaris 11
Zone
Only Oracle Provides
This Level of Virtualization
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 60
SuperCluster M6-32
Physical Domain
Physical Domain
Physical Domain
Physical Domain
Oracle VM for SPARC
Oracle VM for SPARC
Oracle VM for SPARC
Oracle VM for SPARC
Oracle VM for SPARC
DB 12c Zone
App. Zone
DB 10g Zone
DB 11g Zone DB 12c
Zone
DB 10g Zone
1. Instance
consolidation
• Multiple Databases running
on same Solaris Operating
System
• Each Database has direct
access to shared resources
• Each Database is unique
1 2
2. Pluggable Database
• In Database Virtualization
• Reduction in overhead
• High performance, high
density consolidation
• Isolation of virtualized
database
3. Schema-level
database
consolidation
• Shared Database
• Minimizes management
entities
• Minimize resource overhead
PDB PDB
DB
Instanc
e SCH SCH
3 DB
Instanc
e DB
Instanc
e DB 11g
Secure Multi-tenant Density, Flexibility, and Isolation Database Consolidation Options
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 64
Growth In OPEX Continues To Outpace CAPEX
‘96 ‘97 ‘98 ‘99 ‘00 ‘01 ‘02 ‘03 ‘04 ‘05 ‘06 ‘07 ‘08 ‘09 ‘10 ‘11 ‘12 ‘13
10
30
50
70
InstalledServers(M)
$250
$200
$150
$100
$50
0
CustomerSpending($B)
Power&CoolingExpense
Management&Administra on
ServerSpending
LogicalServerInstalledBase(M)
PhysicalServerinstalledBase(M)
RUN|MAINTAIN
Ref: IDC Whitepaper - 4/2012
“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…”
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 65
Consistent Management
Consistent Interface | Multiple Instances | Application Level
SuperCluster Exadata Exalogic Virtual
Compute
Appliance
Big Data
Appliance Exalytics
Oracle Database
Appliance
Zero Data Loss
Recovery
Appliance
Oracle Enterprise Manager 12c
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 66
Introducing: Oracle Enterprise Manager 12c Ops Center
Integrated Infrastructure
Management
+
Integrated Application-to-
Disk Management
+
Integrated Lifecycle
Management
+
Integrated Systems
Management & Support
Industry’s First Converged Hardware Management Solution
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 67
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
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 68
With Oracle Enterprise Manager 12c
Full Stack Cloud Management
Oracle VM 3.0 Virtualization Management
Configuration
and
Compliance
Lifecycle
Management
Application
Performance
& Quality
Management
Foundation Capabilities for Managing Datacenters
Oracle VM Enabled Cloud Management Capabilities
Full Apps to
Disk
Management
Self-Service
Provisioning
Policy-Driven
Resource Mgmt
Metering and
Chargeback
Capacity
Planning
Assembly
Packaging
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 69
Oracle + OpenStack
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
6
9
Oracle Offers Customers Ability to Use OpenStack
to Manage Oracle Cloud Products and Services
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 70
Full Distribution of OpenStack in Oracle Solaris
7
0
Horizon
Cloud Management
Zones & Kernel
Zones
Nova
Compute Virtualization
Elastic Virtual
Switch
Neutron
Cloud Networking
ZFS File
System
Cinder/Swift
Cloud Storage
Unified Archives
Glance
Image Deployment
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 71
Oracle Solaris Enterprise OpenStack
7
1
x86
x86 x86
Shared
Storage Horizon
Cloud Management
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 72
Adding Value to Oracle Solutions
Oracle Solaris Runs on All of Oracle’s Hardware
7
2
Exalogic
Exadata SuperCluster ZFS Storage
x86 T Series M Series
Copyright © 2014, Oracle and/or its affiliates. All rights reserved. 73
Oracle FS1: Flash Storage Enterprise San High Availability Scale-Out Architecture
• Up to 2M 50/50 R-W IOPS • Up to 80 GB/sec throughput
• Full suite of data services
• Petabytes of Flash
• Up to 16 HA Nodes
7
3