Copyright © Intel Corporation 2005
Intel Enterprise Platforms: Products Designed and Validated Together Delivering Value Beyond Gigahertz
Gary Gumanow, SPG – Sr. Platform Marketing Engineer
Copyright © Intel Corporation 2005
What we’ll cover today…What we’ll cover today…Enterprise Vision and RoadmapUnderstanding end user requirementsIntel Platform TechnologiesSummary
Copyright © Intel Corporation 2005
More Platform Value through More Platform Value through Technology InnovationTechnology Innovation
Cores & ThreadsCores & Threads• Supports larger number Supports larger number
of software threads of software threads • Greater performance Greater performance
VirtualizationVirtualization• Flexibility & manageability Flexibility & manageability • Robust virtual partitionsRobust virtual partitions• Consolidation for Consolidation for
improved utilizationimproved utilization
RASRAS• Comprehensive data Comprehensive data
protection features, protection features, integrity & error recoveryintegrity & error recovery
• Improved uptimeImproved uptime
System Management System Management • Common management Common management
standards for lower TCOstandards for lower TCOI/O and MemoryI/O and Memory• Higher bandwidth Higher bandwidth • More reliability featuresMore reliability features• Flexibility of industry Flexibility of industry
standards solutionsstandards solutions
Power Management Power Management • Lower power consumedLower power consumed• Improved data center Improved data center
utilizationutilization
Comparisons referenced are in relation to Intel server Comparisons referenced are in relation to Intel server product offerings today (as of May 2004)product offerings today (as of May 2004)
64
Value Beyond Gigahertz!Value Beyond Gigahertz!
Copyright © Intel Corporation 2005
Intel Understands Enterprise NeedsIntel Understands Enterprise Needs
“[standard-based] hardware technologies will play a major and defining role in future server architectures. Budget-constrained
enterprises are looking for means to shave costs, not just incrementally, but
dramatically.”Gartner – Reducing Total Cost of Ownership
for Servers, October 2003
“Most companies will find that the biggest gains [from a standardization strategy] come from reduced complexity, lower
maintenance or support costs, or improved performance.”
IDC The Role of Standardization in Simplifying IT Infrastructure, Bozman, Sep 04
““The stability of the platform is absolutely The stability of the platform is absolutely crucial for our effort,” said Ken Zinnato, crucial for our effort,” said Ken Zinnato, technology architect at DuPont. “… Intel technology architect at DuPont. “… Intel Stable Image Platform goes a long way Stable Image Platform goes a long way
toward doing that.”toward doing that.”
““The stability of the platform is absolutely The stability of the platform is absolutely crucial for our effort,” said Ken Zinnato, crucial for our effort,” said Ken Zinnato, technology architect at DuPont. “… Intel technology architect at DuPont. “… Intel Stable Image Platform goes a long way Stable Image Platform goes a long way
toward doing that.”toward doing that.”
End-user focused platformsEnd-user focused platforms
Copyright © Intel Corporation 2005
We spoke to end users, and We spoke to end users, and they want to…they want to…
Reduce costsReduce costs
Grow their businessGrow their business
Mitigate riskMitigate risk
Copyright © Intel Corporation 2005
Products and technologies designed and Products and technologies designed and validated together to deliver greater end user validated together to deliver greater end user
benefitsbenefits
Lower CostLower CostEnable GrowthEnable Growth
Mitigate RiskMitigate Risk
All products and dates are preliminary and subject to change without notice.
Intel Platform FocusIntel Platform Focus
Larger Larger cachecache
Platform Platform validatiovalidatio
nn
Power Power managementmanagement
DDR2 DDR2 memorymemory
PCI PCI ExpressExpress
**
RAIDRAID
SSE3SSE3HT TechnologyHT Technology
RAS RAS featuresfeatures
Platform Platform compatibilicompatibili
tyty
IntelIntel®® EM64TEM64T
Execute Execute Disable BitDisable Bit
SIPPSIPP
Copyright © Intel Corporation 2005
* Performance tests and ratings are measured using specific computer systems and/or components and reflect the approximate performance of Intel products as measured by those tests. Any difference in system hardware or software design or configuration may affect actual performance.
• High endHigh end•PerformancePerformance•Reliability/data integrityReliability/data integrity•ScalabilityScalability•OS, HW, SW choiceOS, HW, SW choice
• High volume High volume •Price/PerformancePrice/Performance•Broadest SW ecosystemBroadest SW ecosystem•Headroom for 64-bit SWHeadroom for 64-bit SW•Enterprise, SMB provenEnterprise, SMB proven
RISC replacement Evolution to 64-bit
Two 64-bit ArchitecturesTwo 64-bit Architectures
Copyright © Intel Corporation 2005
Intel® Pentium® 4 – 5xx / 6xxIntel® Pentium® 4 – 5xx / 6xxIntelIntel®® E7221 chipset E7221 chipset
Intel Enterprise Server Platform Intel Enterprise Server Platform RoadmapRoadmap
All products, dates and information are preliminary and subject to change without notice.
2004 -20052004 -2005
64-bit Intel® Xeon™ – 2MB64-bit Intel® Xeon™ – 2MBIntelIntel®® E7520 / E7320 chipsets E7520 / E7320 chipsets
Intel® Itanium® 2 - 3MB cacheIntel® Itanium® 2 - 3MB cacheIntel® E8870 / Enabled Intel® E8870 / Enabled
TrulandTruland64-bit Intel64-bit Intel®® Xeon Xeon™™ MP – 8MB MP – 8MBIntelIntel®® E8500/Enabled chipsets E8500/Enabled chipsets
IntelIntel®® Itanium Itanium®® 2 - 9MB cache 2 - 9MB cacheIntelIntel®® E8870 / Enabled E8870 / Enabled
2005-20062005-2006
BensleyBensleyDempseyDempsey
Blackford chipsetBlackford chipset
Millington / DP MontvaleMillington / DP MontvaleIntel® E8870 / EnabledIntel® E8870 / Enabled
TrulandTrulandPaxville / TulsaPaxville / Tulsa
IntelIntel®® E8500 / Enabled E8500 / Enabled
Montecito / MontvaleMontecito / MontvaleIntel® E8870 / EnabledIntel® E8870 / Enabled
FUTUREFUTURE
Future PlatformFuture PlatformFuture ProcessorFuture Processor
Future chipsetFuture chipset
DimonaDimonaFuture chipsetFuture chipset
ReidlandReidlandWhitefieldWhitefield
Future chipsetFuture chipset
RichfordRichfordTukwila / PoulsonTukwila / Poulson
Future chipsetFuture chipset
RISCRISCReplacementReplacement
EnterpriseEnterprise
VolumeVolume
4/8+4/8+
22
4/8+4/8+
22
Segment/SocketsSegment/Sockets
Dual/Multi-Core ProcessorsDual/Multi-Core Processors
EntryEntry
11 Future PlatformFuture PlatformFuture ProcessorFuture Processor
Future chipsetFuture chipset
Future PlatformFuture PlatformFuture ProcessorFuture Processor
Future chipsetFuture chipset
Platform CodenamesPlatform Codenames
Copyright © Intel Corporation 2005
2005: The Year of 64-bit Server 2005: The Year of 64-bit Server ComputingComputing
2004 2005 2006+
End User DeploymentEnd User Deployment
Application AvailabilityApplication Availability
OS/Tools/Driver Readiness OS/Tools/Driver Readiness
Windows* x64Windows* x64
DP MP
All products and dates are preliminary and subject to change without notice.
Platform/OS/Tools/Driver Readiness OS/Tools/Driver Readiness
Since 2001 End User DeploymentEnd User Deployment
Application AvailabilityApplication Availability
Itan
ium
® a
rchi
tect
ure
x86
arch
itect
ure
Optimized solutions with Intel SW Optimized solutions with Intel SW ToolsTools
Copyright © Intel Corporation 2005
Grow your business and boost compute intensive applications
Get tremendous gains for financial services and risk analysis applications (Monte Carlo)
Improve response times by up to 893%Expand your analysis and increase your modeling
Take advantage of multi-threading and multi-core processor technologies
Improves scaling on multiprocessors
Monte Carlo
Improvements with Intel's Math Kernel Library 7.2.1
0
5
10
15
20
25
30
35
40
45
50
2P Irwindale 3.6 GHz w/ gcc 3.x
w/ NAG Library
2P 3.6 GHz IRW w/ MKL
Tim
e to
Com
plet
ion
• Results represented in seconds, Lower is better
Are you getting the most from your Are you getting the most from your software?software?
893% 893% faster faster
w/ Intel® w/ Intel® Math Kernel LibraryMath Kernel Library
Intel® Math Kernel Intel® Math Kernel Library helps you Library helps you
get better get better performanceperformance
Copyright © Intel Corporation 2005
64-bit Platform Ramp 64-bit Platform Ramp
64-bit Intel® Xeon™ Processor shipments exceeded 32-bit versions in Q4’2004
Shipped first million units of 64-bit Intel® Xeon™ Processors in just 6 monthsSurpassed second million in Q1 ‘05 Expect 80% of Intel® Xeon™ processors shipping in Q1'05 will have 64-bit capability
>100 compatible platform designs shipping today
Major end customers utilizing these platforms
Pixar, Siemens Medical, Cotton Traders, Maya Entertainment, University of Kentucky, Bank of NY and more…
All products and dates are preliminary and subject to change without notice.
Established Platform SuccessEstablished Platform Success
Copyright © Intel Corporation 2005
64-bit Intel® Xeon™ processor with 2MB L2 64-bit Intel® Xeon™ processor with 2MB L2
CacheCache Server Platform Performance – vs Previous two Server Platform Performance – vs Previous two generationsgenerations
System configuration available in backup
Compares 64-bit Intel® Xeon™ processor 3.60 GHz with 2MB L2 Cache with two of its previous generations
1 1 1 1 11.14
1.441.34 1.26
1.131.32
1.601.47 1.41
1.23
0.0
0.5
1.0
1.5
2.0
2.5
SpecWeb99 WebBench MMB3 SPECjbb2000 TPC-C
Intel® XeonTM processor 3.20 GHz, 1MB L2 cache, 533MHz bus
64-bit Intel® XeonTM processor 3.60 GHz, 1MB L2 cache, 800MHz bus
64-bit Intel® XeonTM processor 3.60 GHz, 2MB L2 cache, 800MHz bus
Relative Performance - Higher is better
Web Server Java App Server Database ServerExchange ServerWeb Server
Data Source: Published/Submitted Results as of Feb 14, 2005. See backup for details
The Platform of choice keeps getting betterThe Platform of choice keeps getting better
Copyright © Intel Corporation 2005
Customer Challenge Solution The Intel Advantage
• The 64–bit Intel® Xeon™ processor based systems allow GM to integrate multiple processes on to one machine; providing GM a reduction in hardware costs as well as integration of software products onto a single platform.
• The 64-bit Intel® Xeon™ processor provides outstanding price/performance and broad software support
• General Motors (GM) business requires the use of people, process, and technology to reduce the time to market for exciting vehicles like the 2006 Chevy Corvette Z06
• GM uses UGS NX MCAD to create large, detailed data models that have reached the limits of the current 32-bit address space
• Upgrade workstation infrastructure with the latest 64-bit Intel® Xeon™ processor based systems.
• Take advantage of the cutting edge technologies on the platform such as improved power management and PCI Express* interconnects
"64-bit Intel Xeon processor-based platforms provide us with greatly increased computing power and new capabilities over existing Intel-based machines. Coupling the Intel platform to GM’s business process innovation, we’ve been able to accelerate the design phase of automobile development, increase the level of innovation and decrease overall cost for our customers.”
Roy RichterGlobal Director, Product Development,
Technology, Architecture and Infrastructure
Customer Solution: General Customer Solution: General MotorsMotors
Copyright © Intel Corporation 2005
Power Management UpdatePower Management Update1U Intel® Xeon™
processor platform45% CPU utilization running WebBench
Up to Up to $100K $100K
Savings Savings annually for annually for every 500 every 500
serversservers
PDUPDU
PDUPDU
PDUPDU
PDUPDU
PDUPDU
PDUPDU
Measurements based on Intel testing.Cost assumptions made for systems tested: a. “Power in” costs assumed at $0.10 / KWhb. “Cooling costs” assumed to be roughly 2X the power-in costs
Any difference in systems tested, configurations or assumptions made may affect actual results or performance.See backup for system configuration and test information
Power Meter
100 200 300
DBS OFF
100 200 300
DBS ON
316316WW
240W240W
Copyright © Intel Corporation 2005
Up to 50% Improvement in CPU Up to 50% Improvement in CPU EfficiencyEfficiency
Windows Server 2003 - Ntttcp Test - 6 streams - 3.2 HT Disabled; Source:IntelWindows Server 2003 - Ntttcp Test - 6 streams - 3.2 HT Disabled; Source:Intel
00
200200
400400
600600
800800
10001000
4K4K 8K8K 16K16K 32K32K 64K64KApplication I/O SizeApplication I/O Size
Th
rou
gh
pu
t (M
bp
s)T
hro
ug
hp
ut
(Mb
ps)
0%0%
20%20%
40%40%
60%60%
80%80%
100%100%
CP
U U
tili
zati
on
(%
)C
PU
Uti
liza
tio
n (
%)
ThroughputThroughputI/OAT CPU %I/OAT CPU % GbE CPU %GbE CPU %
Introducing Introducing IntelIntel®® I/O Acceleration Technology I/O Acceleration Technology
Copyright © Intel Corporation 2005
Manageability and VirtualizationManageability and Virtualization
Intel PlatformIntel PlatformIntel PlatformIntel Platform
TodayToday
OperatingOperatingSystemSystem
OperatingOperatingSystemSystem
Copyright © Intel Corporation 2005
Manageability and Manageability and VirtualizationVirtualization
Intel AMTIntel AMTIntel AMTIntel AMT
DiscoverDiscover
HealHeal
ProtectProtect
IntelIntel®® Active Management Active Management TechnologyTechnology
Intel PlatformIntel PlatformIntel PlatformIntel Platform
OperatingOperatingSystemSystem
OperatingOperatingSystemSystem
Copyright © Intel Corporation 2005
Safer Safer Computing Computing
ManageabiliManageabilityty
EnhancedEnhancedStabilityStability
VT Enabled VMMVT Enabled VMMVT Enabled VMMVT Enabled VMM
VT-Enabled VT-Enabled OS PartitionOS PartitionVT-Enabled VT-Enabled OS PartitionOS Partition
Intel® Virtualization TechnologyIntel® Virtualization Technology
OperatingOperatingSystemSystem
OperatingOperatingSystemSystem
IntelIntelAMTAMTIntelIntelAMTAMT
Intel VTIntel VTPlatform Platform Intel VTIntel VT
Platform Platform
Manageability, Virtualization & Manageability, Virtualization & SecuritySecurity
Copyright © Intel Corporation 2005
PCI Express UpdatePCI Express Update
Strong PCI Express* momentum across industry
Now: More than 25 PCI Express controllers in production 50% workstation graphics50% enterprise LAN, FibreChannel, SCSI/RAID, InfiniBand, and bridges
2H ’05: More than 50 PCI Express* enterprise controllers
PCI Express* for future technologies: SAS, DDR InfiniBand, 4Gbps FibreChannel, etc.
Flexibility: Intel 2005 server platforms support both PCIe* and PCI-X
* Other names and brands may be claimed as the property of others
PCI Express needed for expandability PCI Express needed for expandability through 3-4 years of server life-cyclethrough 3-4 years of server life-cycle
Copyright © Intel Corporation 2005
Technologies Enhance All Technologies Enhance All PlatformsPlatforms
20052005 20062006 20072007
MPMP
Key
Power Calculator / MonitorDBS + Power Calculator / Monitor
DBS Power Calculator / Monitor
DBS Power Calculator / Monitor
Power & Thermal Tools
VT-iVT-i VT-2VT-2
VT-xVT-x VT-2VT-2
VT-xVT-x VT-2VT-2
VirtualizationVirtualization TechnologyTechnology
Performance Performance EnhancingEnhancing
2C / 4T; Foxton2C / 4T; Foxton >> 4C 4C / >/ > 4T 4T
Intel® EM64T, HT TechnologyIntel® EM64T, HT Technology 2C / 4T2C / 4T 4C / 4T, APT4C / 4T, APT
2C / 4T, I/OAT2C / 4T, I/OATIntel® EM64T, HT TechnologyIntel® EM64T, HT Technology
MCA, Pellston Next gen.
Truland RAS Next gen., CSI
LH RAS Next gen.
Reliabilityfeatures
Bensley RAS
Copyright © Intel Corporation 2005
SummarySummary
Intel is bringing innovative platform
technologies to market beyond
Gigahertz
Helping customers grow their
businesses, reduce costs, and mitigate
risk
Intel with proven track record is
helping with innovative platforms and
optimized solutions
All products and dates are preliminary and subject to change without notice.
Copyright © Intel Corporation 2005
Thank you!
Please stop by our booths
Copyright © Intel Corporation 2005
Configuration DetailsConfiguration DetailsServer Platform Performance (Slide 10)• SPECWeb99
• Baseline platform Configuration: Dell PowerEdge 2650: Two Intel® Xeon™ processors 3.20 GHz with 1MB L2 Cache and 533 MHz system bus, 12 GB memory, Red Hat Linux AS3. Published result at 7219. For more information see http://www.spec.org/web99/results/res2003q4/web99-20031027-00254.html
• Platform1 configuration: Fujitsu Siemens PRIMERGY TX300 S2 server platform: Two 64-bit Intel® Xeon™ processors 3.60 GHz with 1MB L2 Cache and 800 MHz system bus, 16 GB memory, Red Hat Linux AS3(2.4.21-4). Published result at http://www.spec.org/web99/results/res2004q3/web99-20040802-00267.html at 8220
• New platform Configuration: Fujitsu Siemens PRIMERGY TX300 S2 server platform: Two 64-bit Intel® Xeon™ processors 3.60 GHz with 2MB L2 Cache and 800 MHz system bus, 16 GB memory, Red Hat Linux EL3 (2.4.21-27). Result submitted to www.spec.org at 9540
• WebBench: VeriTest Labs Measurement: For more information see: http://www.veritest.com/clients/reports/intel All systems use Microsoft® Windows Server 2003 Enterprise Edition• VeriTest labs: Intel® Server Board SE7501WV2 with two Intel® Xeon™ 3.2 GHz processor with 1 MB cache 533 MHz system bus, 4GB DDR 266 memory• VeriTest labs: Intel® Server Board SE7520JR2 with two 64-bit Intel® Xeon™ 3.6 GHz processors with 1 MB cache 800 MHz system bus, 4GB DDR2 memory• VeriTest labs: Intel® Server Board SE7520JR2 with two 64-bit Intel® Xeon™ 3.6 GHz processors with 2 MB cache 800 MHz system bus, 4GB DDR2 memory
• SPECjbb2000: VeriTest Labs Measurement: For more information see: http://www.veritest.com/clients/reports/intel All configurations use Windows 2000 Advanced Server with Service Pack 4 and BEA WebLogic JRockit™ 8.1 Service Pack 2 Java Virtual Machine (JVM) • VeriTest labs: Intel® Server Board SE7501WV2 with two Intel® Xeon™ 3.2 GHz processor with 1 MB cache 533 MHz system bus, 4GB DDR 266 memory• VeriTest labs: Intel® Server Board SE7520JR2 with two 64-bit Intel® Xeon™ 3.6 GHz processors with 1 MB cache 800 MHz system bus, 4GB DDR2 memory • VeriTest labs: Intel® Server Board SE7520JR2 with two 64-bit Intel® Xeon™ 3.6 GHz processors with 2 MB cache 800 MHz system bus, 4GB DDR2 memory
• MMB3: Results published at http://www.microsoft.com/exchange/evaluation/performance/default.mspx
• Baseline Platform Configuration: FSC PRIMERGY TX300S2 platform: Two Intel® Xeon™ processors 3.20 GHz with 1MB L2 Cache 533 MHz system bus, 4 GB DDR, Microsoft Windows* Server 2003 Enterprise Edition, Microsoft Exchange* Server 2003, MAPI Messaging Benchmark 3. Published result at 5600.
• Platform1 configuration: FSC PRIMERGY TX300S2 platform: Two 64-bit Intel® Xeon™ processors 3.60 GHz with 1MB L2 Cache 800 MHz system bus, 4 GB DDR2, Microsoft Windows* Server 2003 Enterprise Edition, Microsoft Exchange* Server 2003, MAPI Messaging Benchmark 3. Published result at 7500.
• New platform Configuration: FSC PRIMERGY TX300S2 platform: Two 64-bit Intel® Xeon™ processors 3.60 GHz with 2MB L2 Cache 800 MHz system bus, 4 GB DDR2, Microsoft Windows* Server 2003 Enterprise Edition, Microsoft Exchange* Server 2003, MAPI Messaging Benchmark 3. Published result at 8208.
• TPC-C• Baseline platformConfiguration: HP ProLiant ML370-G3 server platform: Two Intel® Xeon™ processors 3.20 GHz with 1MB L2 cache 533 MHz system bus,
12 GB DDR, Microsoft Windows* Server 2003 Enterprise Edition, Microsoft SQL* Server 2000 Enterprise Edition SP3. Referenced as published: 54,096 tpmC; $3.77/tpmC; Availability Date Oct 13, 2003. For more information see http://www.tpc.org/tpcc/results/tpcc_result_detail.asp?id=103101301
• Platform1 Configuration: HP ProLiant ML370-G4 server platform: Two 64-bit Intel® Xeon™ processors 3.60 GHz with 1MB L2 cache 800 MHz system bus, 16 GB DDR2, Microsoft Windows* Server 2003 Enterprise Edition, Microsoft SQL* Server 2000 Enterprise Edition SP3. Referenced as published: 68,010 tpmC; $1.80/tpmC; Availability Date Nov 1, 2004. For more information see http://www.tpc.org/tpcc/results/tpcc_result_detail.asp?id=104110101
• New platform Configuration: HP ProLiant ML370-G4 server platform: Two 64-bit Intel® Xeon™ processors 3.60 GHz with 2MB L2 cache 800 MHz system bus, 16 GB DDR2, Microsoft Windows* Server 2003 Enterprise Edition, Microsoft SQL* Server 2000 Enterprise Edition SP3. Referenced as published: 74,296 tpmC; $2.41/tpmC; Availability Date Feb 14, 2005. Submitted for review. For more information see http://www.tpc.org/
Relative performance for each benchmark is calculated by talking the actual benchmark result for the first platform tested and assigning it a value of 1.0 as a baseline. Relative performance for the remaining platforms tested was calculated by dividing the actual benchmark result for the baseline platform into each of the specific benchmark results of each of the other platforms and assigning them a relative performance number that correlates with the performance improvements reported.
Copyright © Intel Corporation 2005
This digital enterprise briefing contains forward-looking statements including statements about upcoming 64-bit product development, availability and functionality. These particular forward-looking statements AND all other statements that may be made on this call that are not historical facts are subject to a number of risks and uncertainties, and actual results may differ materially. These risks include the availability of the products on a timely basis and the availability of related software and hardware to support 64-bit platforms and functionality. Please refer to Intel's Q3’ 2004 Form 10-Q for further information about the risk factors which might cause actual results and events to differ from the forward-looking statements in this presentation.
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