Noi Tehnologii Intel Spend Smart, Do More, Be More Secure
Florin Raclariu Market Development Manager Intel Romania 13 Octombrie 2009 1
Spend Smart, Do More, Be More Secure Keep Your Business Efficient in an Economic Downturn
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Avoid Rising Costs, Maintain PC Refresh Rates1 Rising maintenance costs due to: • Software deployment failures (including security patches) • Increase in hardware related help desk calls (“spikes dramatically at 3 ½ years into a PC’s lifecycle and continues to climb. This increase is much higher than previously seen.”)
“My experience has been that older PCs cause more problems than they are worth. We stick to our refresh plan because I know that this saves my staff a lot of time and effort.”
• Cost to maintain a PC goes up each year
— VP of IT, insurance industry
• Optimal refresh for desktop is 3 years
(Wipro, October 2006)
3
• Optimal refresh mobile is 2 years
Why Buy Now?
Spend Smart
•
Average support costs of older PCs rise 30+% in year 41
•
Reduce security patch costs 98% with Intel® vPro™ Technology2
•
Energy costs reduced by 50% by powering down Intel® vPro™ enabled PCs during off hours3 University of Plymouth
Do More
Be More Secure
4
•
200+% performance increase over 3yr old desktops4
•
Over 1hr better battery life over 2yr old notebooks4
•
80% reduction in deskside visits for Intel® vPro™ enabled PC problem resolution allows IT to do more5 Indiana State Office of Technology
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Patching Intel® vPro™ enabled PCs occurs 42% faster reducing security exposures6 Telkomsel
Achieve 98% patch saturation in 4 hours vs 5 days with Intel® vPro™ enabled PCs7 Calgary Health Region
•
Why Buy Mobile?
Spend Smart
Do More
Be More Secure
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• Companies are realizing huge cost savings
from employees tele-working with notebooks1
• >26x energy reduction by going mobile2
• •
51 additional minutes more productive per day3
•
82% of employees required to access enterprise applications while away from office3
•
70+% of IT managers rated security features influencing notebook IT buying decisions as “Very Significant” or “Somewhat Significant”4
•
Intel® Centrino® 2 with vPro™ technology offers proactive security solutions
50% faster and ~1 hour better battery life than a 2yr old notebook2
Refreshing PCs Makes Good Business Sense Spend Smart Up to
50%
REDUCTION OPERATIONAL COSTS TO MAINTAIN PCS1
Up to
3x
FASTER MULTI-TASKING2
Be More Secure On average
53%
INCREASE IN YEARLY SECURITY INCIDENCES WITH A 4 YEAR OLD PC3
Fast ROI
Faster ROI
Intel® Core™2 Duo processorbased PCs
Intel® vPro™ Technology- based PCs
17 Month
10 Month
As low as
Recoup Investment4
6
Do More
As low as
Recoup Investment4
Why Buy Intel速 Servers?
7
Where is Today’s IT Spending?
Innovate
Enhance Maintain
Source: Gartner IT Key Metrics Data 2008.
8
•IT is spending too much on maintenance
•This limits ability to innovate and grow business with new services and capabilities
Server Workloads 2008 MCS Server Lifecycle Question 5.6:
Approximately how many years do you estimate that your XXOS servers will be kept in operation?
Figure 33 Server Deployment Lifecycle 45%
The data was surprisingl y similar by company size and vertical industry 9
Median
40% 35%
Average is ~4yr
30% 25%
Most Typical is 5yr and 3yr
20% 15% 10% 5% 0%
1
2
3
4
5
6 Total (N=1108)
7
8
9
10+
Intelligent Investment Decisions in 09
Refresh with Xeon 5500. Pays for itself in ~8 months. Virtualize with Xeon. IT flexibility & cost advantages. Migrating from RISC to Intel reduces TCO, saving $ Using Intel 4S servers for your most data demanding applications Accelerating research, speed development with Intel HPC/WS solutions Expanding services using Intel technology for Cloud Computing Boosting energy efficiency, save $ and support Green IT with Intel Accelerating ROI upgrading HW with new software Deployments Supporting new buyers in emerging markets & SMB with entry Xeon servers
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Server Refresh Benefits (Single Core)
2005
2009
9x
Performance Refresh
Up to Performance
1:1
184 Intel® Xeon® 5500 Based Servers
18%
Annual Energy Costs Estimated Reduction
– OR – 90%
Efficiency Refresh
Annual Energy Costs Estimated Reduction
9:1
184 Intel® Xeon® Single Core Servers
21 Intel® Xeon® 5500 Based Servers
As Low as
8 Month Payback
Source: Intel estimates as of Nov 2008. Performance comparison using SPECjbb2005 bops (business operations per second). Results have been estimated based on internal Intel analysis and are provided for informational purposes only. Any difference in system hardware or software design or configuration may affect actual performance. For detailed calculations, configurations and assumptions refer to the legal information slide in backup.
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Estimate Your Refresh ROI www.intel.com/go/xeonestimator Enter Current Configurations
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Calculate ROI, TCO, and Other Benefits
Intel platform NEWS
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The All New 2010 Intel® Core™ Processor Family 65nm
45nm
Intel® Core™ Microarchitecture
32nm
Nehalem Microarchitecture
Silicon Process Technology
Sandy Bridge Microarchitecture
The revolutionary and smart Nehalem microarchitecture comes to mainstream consumer platforms
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The All New 2010 Intel® Core™ Processor Family • New levels of smart performance with a revolutionary new architecture • Great media experience with advanced media and graphics capabilities, now integrated in the processor • Thinner and sleeker designs with reduced chipset count, smaller silicon footprint, and ULV skus • Industry leading battery life with great power efficiency
Intel® Core™ processors deliver amazing computing experiences for mainstream and ultra-thin laptops
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Intel® Turbo Boost Technology What is it? • Technology that dynamically uses thermal
Without Intel® Turbo-Boost Technology
and power headroom to boost additional CPU and/or integrated GPU frequencies
•
(previous generations)
Available with new Intel® Core™ i7 and i5 processors
With Intel® Turbo-Boost Technology Single-Threaded Workload < TDP
Highly Threaded Workload < TDP
When thermal headroom allows, Intel® Turbo Boost Technology automatically accelerates performance to applications that need it most.
Benefits for consumers • Intelligently accelerates performance to match your workload, so you can enjoy the maximum possible speed
•
Optimizes processor (CPU and integrated graphics) performance intelligently and automatically, without user intervention
Smart performance for running everyday applications Intel® Turbo Boost Technology requires a PC with a processor with Intel Turbo Boost Technology capability. Intel Turbo Boost Technology performance varies depending on hardware, software and overall system configuration. Check with your PC manufacturer on whether your system delivers Intel Turbo Boost Technology. For more information, see http://www.intel.com/technology/turboboost Illustrations representing processor acceleration are not drawn to scale
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Intel® Hyper-Threading Technology What is it? • Intel® Hyper-Threading Technology
2 Threads
enables each processor core to run two tasks at the same time Without HT
•
Two thread engines per core, enabling 4way processing in dual core systems and 8way processing in quad core systems
•
Available with the new Intel® Core™ family of processors
4 Threads
With HT
Smart multitasking by doubling the number of processor threads per core with Intel® HyperThreading Technology.
Benefits for consumers • More threads and smart multitasking equals better performance
•
Faster response time = less waiting
Get more done while waiting less Hyper-Threading Technology requires a computer system with a processor supporting HT Technology and an HT Technology-enabled chipset, BIOS and operating system. Performance will vary depending on the specific hardware and software you use. For more information including details on which processors support HT Technology, see http://www.intel.com/info/hyperthreading
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Desktop Platform News ww36 2009
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Nehalem Goes Mainstream! November 2008 Intel ® Core™ i7 900 Series and Intel ® X58 Express Chipset
“The World’s Highest
Performing Processor”
• Amazing New Nehalem Microarchitecture • World Record Setting Performance1 • Ultimate Enthusiast Hardware
September 2009
Nehalem Goes Mainstream!
Intel ® Core™ i7- 800 / i5-700 Series and Intel ® P55 Express Chipset
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• Nehalem Microarchitecture at Additional Price Points • Intelligent, Energy-Efficient Performance • Flexible, Cost Optimized Board Design
1. Source: http://www.spec.org/cpu2006/results/ as of November 13, 2008 Any difference in system hardware or software design or configuration may affect actual performance. **SPEC, SPECint, SPECfp, and SPECrate are trademarks of the Standard Performance Evaluation Corporation. For more information about this benchmark go to: www.spec.org System Configurations and Disclaimers: Appendix *Other names and brands may be claimed as the property of others.
New Intel® Core™ i7 and i5 Processor Lineup Brand Name & Base Clock 1 Processor Number Speed (GHz)
Turbo Frequency2 (Ghz)
Cores/Threads
Cache
Memory Speed Support
TDP
Intel® Core™ i7870
2.93
Up To 3.6 Ghz
4/8
8 MB
DDR3-1333
95 W
Intel® Core™ i7860
2.80
Up To 3.46 Ghz
4/8
8 MB
DDR3-1333
95 W
Intel® Core™ i5-750
2.66
Up To 3.2 Ghz
4/4
8 MB
DDR3-1333
95 W
Boxed Pricing
Intel® Core™ i7 – 870
-
$555 USD
Intel® Core™ i7 – 860
-
$285 USD
(1ku)
Intel® Core™ i5 – 750
20
-
$199 USD
1 - NOTE: Intel processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number for details. 2 - Refers to the maximum single-core frequency that can be achieved with Intel® Turbo Boost Technology
Mobile Platform News ww36 2009
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IntelÂŽ Coreâ&#x201E;˘ i7 Mobile Processors Consumer Value Proposition
What Is It?
How So?
What You Get?
Who Cares?
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Revolutionary The biggest thing to happen to mobile computing since Centrino
Intelligent The architecture that shapes itself to everything you do.
Performance Incredible mobile performance The choice for multimedia enthusiasts and gamers
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Intel’s Fastest Mobile Processors Just Got Faster Extreme Intel® Core™ i7-920XM processor 2.0 GHz (Turbo up to 3.2 GHz**) 8M/8 threads***
Quad Core Performance
Intel® Core™ i7-820QM Processor 1.73 GHz (Turbo up to 3.06 GHz**) 8M/8 threads*** Intel® Core™ i7-720QM Processor 1.6 GHz (Turbo up to 2.8 GHz**) 6M/8 threads***
The fastest notebook processor on the planet5. (Overclocking enabled for incredible performance16)
The world's best family of laptop processors6
**: Refers to the maximum single-core frequency that can be achieved with Intel® Turbo Boost Technology ***: Refers to the total number of threads that can be supported with Intel® Hyper-threading Technology
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The Aging Installed Base of Laptops May be Unfit for Today’s Usages “Is it painful, or even possible to…” • Watch HD Internet TV and video with smooth playback? • Easily upload, edit, share your family photos and videos? • Watch a DVD or Blu-ray* movie? • Run multiple programs at the same time? Time To Create a 30 Minute HD Video from Recent Vacation3 2006 Intel® Core™ Duo Processor T2700 2010 Intel® Core™i7 Processor 720QM
2 Hours, 17 minutes
38 Min
You Deserve a New Laptop! 24
2010 PC is >3.5x Faster!
A Full Range of Platforms for Different User Needs A choice of laptop form factors Sell-up opportunity Ultra-Thin Laptops The Perfect Balance of Style, Performance, and Long Battery Life
Standard Laptop Highest Performance / Full Size Mobile Computer Experience
Netbooks Companion Device: Internet Usage & Content Consumption
Intel provides a full range of platforms to meet the usage models of todayâ&#x20AC;&#x2122;s consumers 25
Ultra-thin Laptops: The Perfect Balance of Style, Performance, and Long Battery Life
Ultra-thin and Light Laptops at Mainstream Price Points Great Media Experience, Rich Internet, Content Creation Functionality of a Traditional Laptop in a Thin and Light Design Outstanding Component Average Power for Industry-Leading Battery Life 26
Netbooks & Laptop Product Offerings Screen Size
Mobile Platform
SPP Range $250
≥14”
$399
Traditional Mainstream Laptops
$499
$699
$899
Pentium Centrino Celeron $400-600 $600-700 $750-1K
$1099
Centrino 2 $1000+
≤13.3” The New Ultra-thin laptop
$1099+ $849-949 $699-799
>10.2”
$499-599 10.2” Netbooks (7”-10.2”)
7”
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Intel offers a comprehensive mobile roadmap to meet netbook and laptop needs $249-349
Netbook vs. Consumer ULV Performance Convert Videos DVR-ms format to MPEG-4 Windows* MovieMaker*
Audio Encoding
1.6x
1.0
Compress to share Windows* Photo Gallery*
2.5x
4.7x
3.2x 1.7x
Photo Editing
Prepare songs for MP3 player Apple iTunes* 7.4.3
2.1x
1.8x
1.9x
1.7x
1.0
1.0
Ultra-thin laptops provide performance for full mobile computing in sleek and slim form factors Performance tests and ratings are measured using specific systems and/or components and reflect approximate performance of Intel products as measured by those tests. Any difference in system hardware, software, or configuration may affect actual performance. Buyers should consult other sources of information to evaluate performance of systems or components they are considering purchasing. For more information on performance tests and performance of Intel products, visit 28 //www.intel.com/performance
Netbook vs. Mainstream Notebook Performance Stock Option Analysis Office* Excel 2007
Audio Encoding
Prepare songs for MP3 player Apple iTunes* 7.4.3
3.4x
1.0
MPEG2 video file to DivX format DivX* 6.7 w/VirtualDub* 1.7.2
5.8x
6.4x
4.1x 2.0x
Video Conversion
3.5x
5.6x 3.4x
1.0
2.0x
1.0
Mobile Intel速 processors for the notebook segment provide the performance needed for content creation 29
Performance tests and ratings are measured using specific systems and/or components and reflect approximate performance of Intel products as measured by those tests. Any difference in system hardware, software, or configuration may affect actual performance. Buyers should consult other sources of information to evaluate performance of systems or components they are considering purchasing. For more information on performance tests and performance of Intel products, visit //www.intel.com/performance
Server Platform News ww36 2009
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Introducing the Intel速 Xeon速 5500 Series Processor
Based on the Next Generation Intel速 Microarchitecture
A New Generation of Intelligent Servers
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Intel® Xeon® Processor 5500 Series (Codename Nehalem-EP)
A tremendous step forward in technology – – – – –
New New New New New
processor architecture platform architecture memory subsystem I/O subsystem options with SSDs
An even bigger step forward for IT capability
Performance
32
Energy Efficiency
Virtualization
Processor Transition Matrix
Which Nehalem Product is Right for Me? Series, SKU Price 1 Brand
Current Products
Future
5100
5300
5400
5500
(Dual-core Xeon)
(1st Gen 65nm Quad-core Xeon)
(2nd Gen 45nm Quad-core Xeon)
Nehalem Microarchitecture
X5570 (2.93GHz) X5560 (2.80GHz) X5550 (2.66GHz)
>$800
5160 (3.00GHz)
X5365 (3.00GHz)
X5470 (3.33GHz) X5460 (3.16GHz) E5450 (3.00GHz) X5450 (3.00GHz)
$301-$799
5150 (2.66GHz) 5140 (2.33GHz) 5130 (2.00GHz)
X5355 (2.66GHz) E5345 (2.33GHz) E5335 (2.00GHz)
E5440 (2.83GHz) E5430 (2.66GHz) E5420 (2.50GHz)
E5540 (2.53GHz) E5530 (2.40GHz) E5520 (2.26GHz)
<$300
5120 (1.86GHz) 5110 (1.60GHz)
E5320 (1.86GHz) E5310 (1.60GHz)
E5410 (2.33GHz) E5405 (2.00GHz)
E5506 (2.13GHz) E5504 (2.00GHz) E5502 (1.86GHz)
5148 (2.33GHz)
L5335 (2.00GHz) L5320 (1.86GHz) L5310 (1.60GHz)
L5530 (2.66GHz) L5420 (2.50GHz) L5410 (2.33GHz)
Low Power
1 Source: Intel. Pricing reflects 1k unit price to OEMs at time of introduction. Subject to change without notice.
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L5520 (2.26GHz) L5506 (2.13GHz)
Advanced Performance oriented customers seeking highest functionality and optimal server ROI
Standard Customers seeking a mix of performance, value, and advanced features
Basic Cost-sensitive customers seeking basic features
Low Power Customer seeking lowest power or use in constrained form factors (blades)
Summary
Spend Smart, Do More, Be More Secure 34
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Intel® Xeon® Processor 5500 series based Server platforms Integer Throughput performance on SPECint*_rate_base2006 •
Integer Throughput Performance on SPECint*_rate_base2006 benchmark
•
Comparison based on published/submitted results to www.spec.org as of June 9, 2009.
•
Intel® Xeon® processor 3.80 with 2M L2 cache based platform details
•
HP* ProLiant* DL380 G4 server platform with two 64-bit Intel Xeon processor 3.80GHz with 2M L2 cache, 800 FSB, 8GB memory, Microsoft Windows Server 2003* Ent. SP1, Intel® C++ Compiler 9.1 for 32-bit apps, Build 20060323Z Package ID: W_CC_P_9.1.020. Referenced as published at 20.9. For more information see http://www.spec.org/cpu2006/results/res2006q3/cpu2006-20060513-00027.html.
•
Intel® Xeon® processor 5160 based platform details
•
IBM System X* 3550 platform with two Intel Xeon processors 5160 3.00GHz, 4Mb L2 cache, 16GB memory (8 x 2GB DDR2-5300F ECC), SUSE* Linux* Enterprise Server 10 (x86_64) 2.6.16.21-0.8-smp, Intel C++ Compiler for Linux* version 10.0. Published in August 2007. Referenced as published at 60.8. For more information see http://www.spec.org/cpu2006/results/res2007q3/cpu2006-20070803-01638.html.
•
Intel® Xeon® processor X5470 based platform details
•
Fujitsu Siemens PRIMERGY* RX200 S4 server platform with two Intel Xeon processors X5470 3.33GHz, 12MB L2 cache, 1333MHz FSB, 16GB memory (8x2GB DDR2 PC25300F, 2 rank, CAS 5-5-5, with ECC), SUSE Linux Enterprise Server 10 SP2 x86_64 Kernel 2.6.16.60-0.21-smp*, Intel C++ Compiler for Linux32* and Linux64* version 11.0 build 20080730. Referenced as published at 140. For more information see http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080901-05156.html.
•
Intel® Xeon® processor X5570 based platform details
•
ASUS Z8PE-D12X based server platform with two Intel Xeon processors X5570 2.93GHz, 8MB L3 cache, 6.4GT/s QPI, 24 GB memory (6x4GB PC3-10600R, CL9-9-9, ECC), SUSE Linux Enterprise Server 10 SP2 x86_64 Kernel 2.6.16.60-0.34-smp, Intel C++ Compiler for Linux32 and Linux64 version 11.0 build 20090131. Referenced as published at 241. For more information see http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090316-06703.html
•
Quad-Core AMD Opteron* processor model 2360 based platform details:
•
Acer Altos G5450 Server platform with two Dual-Core AMD Opteron processors 2360SE 2.50GHz, 2MB L3 cache, memory 32GB (8x4GB, DDR2-667, Reg, 2-rank CL5), SUSE Linux Enterprise Server 10 64-bit, PGI Server Complete Version 7.2 PathScale Compiler Suite 3.2, . Referenced as published at 94.1 For more information see http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090309-06627.html
•
Quad-Core AMD Opteron* processor model 2386SE based platform details
•
Supermicro A+ Server 1021M-UR+B* Server platform with two Quad-Core AMD Opteron processors 2386SE 2.80GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, Reg, dual-rank CL5), SUSE Linux Enterprise Server 10 64-bit*, PGI Server Complete Version 7.2 PathScale Compiler Suite*, Release 3.2. Referenced as published at 116. For more information see http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20081218-06302.html.
•
Quad-Core AMD Opteron* processor model 2389 based platform details
•
Supermicro A+ Server 1021M-UR+B* Server platform with two Quad-Core AMD Opteron processors 2389 2.90GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, Reg, dual-rank CL5), SUSE Linux Enterprise Server 10 64-bit*, PGI Server Complete Version 7.2 PathScale Compiler Suite*, Release 3.2. Referenced as published at 117. For more information see http://www.spec.org/cpu2006/results/res2009q2/cpu2006-20090216-06529.html
•
Quad-Core AMD Opteron* processor model 2393 based platform details
•
Dell Inc. PowerEdge SC1435 (AMD Opteron 2393 SE, 3.10 GHz) 148 124 8 2 4 with two Quad-Core AMD Opteron processors 2393SE 3.10GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, Reg, dual-rank CL5), SUSE Linux Enterprise Server 10 64-bit*, PGI Server Complete Version 7.2 PathScale Compiler Suite*, Release 3.2. Referenced as published at 124 For more information see http://www.spec.org/cpu2006/results/res2009q2/cpu2006-20090511-07450.html
•
Six-Core Opteron 2434 based platform details
• Supermicro A+ Server 1021M-UR+B* Server platform with two six-core AMD Opteron processors 2434 2.6GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, Source: Published/submitted/approved results March 30,Server 2009. release 5.3, PGI Server Complete Version 8.0 x86 Open64 4.2.2 Compiler Suite (from AMD) publishes at 161 Reg, dual-rank CL5), Red Hat Enterprise Linux http://www.spec.org/cpu2006/results/res2009q2/cpu2006-20090511-07357.html 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. Buyers should consult other sources of information to evaluate the performance of systems or components they are considering purchasing. For more information on • 36performance tests and on the performance of Intel products, visit http://www.intel.com/performance/resources/limits.htm Copyright © 2009, Intel Corporation. * Other names and brands may be claimed as the property of others.
Intel® Xeon® Processor 5500 series based Server platforms Floating Point Throughput performance on SPECfp*_rate_base2006 •
Floating Point Throughput Performance on SPECfp*_rate_base2006 benchmark
•
Comparison based on published/submitted results to www.spec.org as of June 9, 2009
•
Intel® Xeon® processor 3.80 with 2M L2 cache based platform details
•
HP* ProLiant* DL380 G4 server platform with two 64-bit Intel Xeon processor 3.80GHz with 2M L2 cache, 800 FSB, 8GB memory, Microsoft Windows Server 2003* Ent. SP1, Intel® C++ Compiler 9.1 for 32-bit apps, Build 20060323Z Package ID: W_CC_P_9.1.020. Referenced as published at 18.8 (SPECfp*_rate_base2006). For more information see http://www.spec.org/cpu2006/results/res2006q3/cpu2006-20060513-00025.html.
•
Intel® Xeon® processor 5160 based platform details
•
HP Proliant DL380 G5 server platform* with two Intel Xeon processor 5160, 3.0 GHz, 4MB L2 cache, 1333MHz system bus, 8GB memory (8x1GB FB DDR2-667), SUSE Linux Enterprise Server 10.1 OS*. Intel C++ Compiler for Linux32* and Linux64* version 10.1. Referenced as published at 45.1. Posted at http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20070916-02036.html.
•
Intel® Xeon® processor X5482 based platform details
•
Hewlett-Packard ProLiant DL160 G5p server platform* with two Intel Xeon processors X5482 3.20GHz, 12MB L2 cache, 1600MHz FSB, 16GB memory (8x2GB 800MHz CL5 FB-DIMM), 64-Bit SUSE Linux Enterprise Server 10 SP1, Intel C++ Compiler for Linux32 and Linux64 version 10.1 build 20080730. Referenced as published at 86.4. For more information see http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081013-05587.html.
•
Intel® Xeon® processor X5570 based platform details
•
ASUS Z8PE-D12X based server platform with two Intel Xeon processors X5570 2.93GHz, 8MB L3 cache, 6.4GT/s QPI, 72 GB (18 X 4 GB PC3-10600R, CL=9, SUSE Linux Enterprise Server 10 SP2 x86_64 Kernel 2.6.16.60-0.21-smp, Intel C++ Compiler for Linux32 and Linux64 version 11.0 build 20010131. References at 197 For more information see: http://www.spec.org/cpu2006/results/res2009q2/cpu2006-20090511-07354.html
•
Quad-Core AMD Opteron* processor model 2360 based platform details:
•
Acer Altos G5450 Server platform with two Dual-Core AMD Opteron processors 2360SE 2.50GHz, 2MB L3 cache, memory 32GB (8x4GB, DDR2-667, Reg, 2-rank CL5), SUSE Linux Enterprise Server 10 64-bit, PGI Server Complete Version 7.2 PathScale Compiler Suite 3.2, . Referenced as published at 85.4. For more information see http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090309-06628.html
•
Quad-Core AMD Opteron* processor 2386SE based platform details
•
SuperMicro A+ Server 1021M-UR+B Server platform* with two Quad-Core AMD Opteron processors 2386SE 2.80GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, Reg, dual-rank CL5), SUSE Linux Enterprise Server 10 64-bit*, PGI Server* Complete Version 7.2 PathScale Compiler Suite*, Release 3.2. Referenced as published at 107. For more information http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20081218-06303.html.
•
Quad-Core AMD Opteron* processor model 2389 based platform details
•
Supermicro A+ Server 1021M-UR+B* Server platform with two Quad-Core AMD Opteron processors 2389 2.90GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, Reg, dual-rank CL5), SUSE Linux Enterprise Server 10 64-bit*, PGI Server Complete Version 7.2 PathScale Compiler Suite*, Release 3.2. Referenced as published at 108. For more information see http://www.spec.org/cpu2006/results/res2009q2/cpu2006-20090216-06530.html
•
Quad-Core AMD Opteron* processor model 2393based platform details
•
Supermicro A+ Server 1021M-UR+B* Server platform with two Quad-Core AMD Opteron processors AMD Opteron 2393 SE, 3.1 GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, Reg, dual-rank CL5), SUSE Linux Enterprise Server 10 64-bit*, PGI Server Complete Version 7.2 PathScale Compiler Suite*, Release 3.2. Referenced as published at 112 For more information see http://www.spec.org/cpu2006/results/res2009q2/cpu2006-20090406-06932.html
Source: Published/submitted/approved results March 30,platform 2009. details • Six-Core AMD Opteron* processor 2384 based Performance tests and ratings are measured using specific computer systems with and/ortwo components andAMD reflect Opteron the approximate performance of Intel products as measured by those tests. Any difference in system hardware or • Supermicro A+ Server 1021M-UR+B* Server platform six-core processors 2434 2.6GHz, 6MB L3 cache, 32GB memory (8x4GB, DDR2-800, softwareReg, designdual-rank or configuration mayRed affectHat actual performance. Buyers should release consult other of information to evaluate the performance of systems4.2.2 or components theySuite are considering purchasing. For more CL5), Enterprise Linux Server 5.3,sources PGI Server Complete Version 8.0 x86 Open64 Compiler (from AMD) publishes at information 129 for on 37performance tests and on the performance of Intel products, visit http://www.intel.com/performance/resources/limits.htm Copyright © 2009, Intel Corporation. * Other names and brands may be claimed as the property of others. more information see http://www.spec.org/cpu2006/results/res2009q2/cpu2006-20090511-07358.html
Intel® Xeon® Processor 5500 series based Server platforms Integer Throughput performance on SPECint*_rate_base2006 •
Irwindale 3.8 http://www.spec.org/cpu2006/results/res2006q3/cpu2006-20060513-00027.html
•
Xeon 5110 (WDC 1.60) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20071015-02272.html
•
Xeon 5120 (WDC 1.86) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20071015-02276.html
•
Xeon 5130 (WDC 2.0) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20071112-02568.html
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Xeon 5140 (WDC 2.33) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20071001-02185.html
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Xeon 5150 (WDC 2.66) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20071112-02565.html
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Xeon 5160 (WDC 3.0) - http://www.spec.org/cpu2006/results/res2007q3/cpu2006-20070803-01638.html
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Xeon 5405 (HTN 2.0) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081208-06236.html
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Xeon 5410 (HTN 2.33) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081124-06135.html
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Xeon 5420 (HTN 2.50) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081027-05755.html
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Xeon 5430 (HTN 2.66) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081031-05828.html
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Xeon 5440 (HTN 2.83) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081013-05610.html
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Xeon 5450 (HTN 3.0) -http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081109-05863.html
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Xeon 5460 (HTN 3.16) -http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081027-05750.html
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Xeon 5470 (HTN 3.33) -http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080901-05156.html
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Xeon 5462 (HTN 2.8/1600) – Estimate based on Intel internal measurement – March 2009
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Xeon 5472 (HTN 3.0/1600) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081030-05826.html
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Xeon 5482 (HTN 3.2/1600) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081013-05590.html
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Opteron 2347 (Bar 1.9) - http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080811-05001.html
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Opteron 2350 (Bar 2.0) - http://www.spec.org/cpu2006/results/res2008q2/cpu2006-20080414-04112.html
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Opteron 2352 (Bar 2.1) - http://www.spec.org/cpu2006/results/res2008q2/cpu2006-20080414-04114.html
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Opteron 2354 (Bar 2.2) - http://www.spec.org/cpu2006/results/res2008q2/cpu2006-20080331-04011.html
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Opteron 2356 (Bar 2.3) - http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080623-04661.html
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Opteron 2358 (Bar 2.4) - http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080801-04849.html
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Opteron 2360 (Bar 2.5) - http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080801-04850.html
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Opteron 2376 (Sh 2.3) - http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20081218-06300.html
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Opteron 2378 (Sh 2.4) - http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090105-06386.html
Source: Published/submitted/approved results March 30, 2009.
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Opteron 2380 (Sh 2.5) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081208-06244.html
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Opteron 2384 (Sh 2.7) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081024-05683.html
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 performance. Buyers should consult other sources of information to evaluate the performance of systems or components they are considering purchasing. For more information on Opteron 2382may (Shaffect 2.6)actual - http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20081222-06321.html 38performance tests and on the performance of Intel products, visit http://www.intel.com/performance/resources/limits.htm Copyright © 2009, Intel Corporation. * Other names and brands may be claimed as the property of others.
Intel® Xeon® Processor 5500 series based Server platforms
Floating-Point Throughput performance on SPECfp*_rate_base2006 •
Irwindale 3.8 http://www.spec.org/cpu2006/results/res2006q3/cpu2006-20060513-00025.html
•
Xeon 5110 (WDC 1.60) - http://www.spec.org/cpu2006/results/res2007q2/cpu2006-20070403-00762.html
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Xeon 5120 (WDC 1.86) - http://www.spec.org/cpu2006/results/res2007q2/cpu2006-20070403-00770.html
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Xeon 5130 (WDC 2.0) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20071001-02205.html
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Xeon 5140 (WDC 2.33) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20071001-02188.html
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Xeon 5150 (WDC 2.66) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20070916-02035.html
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Xeon 5160 (WDC 3.0) - http://www.spec.org/cpu2006/results/res2007q4/cpu2006-20070916-02036.html
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Xeon 5405 (HTN 2.0) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081027-05770.html
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Xeon 5410 (HTN 2.33) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081124-06029.html
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Xeon 5420 (HTN 2.50) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20080929-05462.html
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Xeon 5430 (HTN 2.66) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081110-05913.html
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Xeon 5440 (HTN 2.83) - http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090202-06483.html
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Xeon 5450 (HTN 3.0) -http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20081216-06289.html
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Xeon 5460 (HTN 3.16) -http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081027-05748.html
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Xeon 5470 (HTN 3.33) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20080908-05235.html
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Xeon 5462 (HTN 2.8/1600) - Estimate based on Intel internal measurement – March 2009
•
Xeon 5472 (HTN 3.0/1600) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081022-05675.html
•
Xeon 5482 (HTN 3.2/1600) - http://www.spec.org/cpu2006/results/res2008q4/cpu2006-20081013-05587.html
•
Opteron 2347 (Bar 1.9) - http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080811-05002.html
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Opteron 2350 (Bar 2.0) - http://www.spec.org/cpu2006/results/res2008q2/cpu2006-20080414-04111.html
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Opteron 2352 (Bar 2.1) - http://www.spec.org/cpu2006/results/res2008q2/cpu2006-20080414-04113.html
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Opteron 2354 (Bar 2.2) - http://www.spec.org/cpu2006/results/res2008q2/cpu2006-20080414-04115.html
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Opteron 2356 (Bar 2.3) - http://www.spec.org/cpu2006/results/res2008q2/cpu2006-20080317-03774.html
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Opteron 2358 (Bar 2.4) - http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080801-04843.html
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Opteron 2360 (Bar 2.5) - http://www.spec.org/cpu2006/results/res2008q3/cpu2006-20080801-04851.html
•
Opteron 2376 (Sh 2.3) - http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090119-06451.html
• Published/submitted/approved Opteron 2378 (Sh 2.4) - http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090105-06385.html Source: results March 30, 2009. Performance tests and ratings measured 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 • Opteron 2380are (Sh 2.5) - using http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20081222-06317.html software design or configuration may affect actual performance. Buyers should consult other sources of information to evaluate the performance of systems or components they are considering purchasing. For more information on • Opteron (Sh 2.6) of- Intel http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20081222-06320.html tests and on2382 the performance products, visit http://www.intel.com/performance/resources/limits.htm Copyright © 2009, Intel Corporation. * Other names and brands may be claimed as the property of others. 39performance
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Opteron 2384 (Sh 2.7) - http://www.spec.org/cpu2006/results/res2009q1/cpu2006-20090116-06418.html
40