The Intel® Core™ i7-900 processor series, in combination with the Intel® X58 ....
Read more at http://www.intel.com/in/irdonline/pdf/Intel-Core-2-Processor-vPro ...
Intel® Roadmap Directions 2009 A Resource Guide for CIOs and IT Professionals www.intel.com/in/irdonline
Volume 4 • 2009
Intel® Core™ i7 Desktop Processor Intel’s Leading-Edge Desktop PC Processors1
The last edition of Intel Roadmap Directions for the year 2009 brings to your business domain the critical and significant message of IT Refresh. This tough year has shown how businesses that have embraced IT Refresh have beaten the slowdown and enhanced their leadership. Importantly they have avoided the hidden costs of keeping old PCs that are shown to erode productivity and lower efficiency levels across organizations. Also you will find more details on the most expected launch of the Intel® Core™ i7 line of processors – giving serious computing power to consumers and businesses alike, while reinforcing Intel's tech leadership. You can also read more on the Ultra-Thin Notebooks category and how this new niche segment is fast becoming mainstream.
The Intel® Core™ i7-900 processor series, in combination with the Intel® X58 Express Chipset, offers best-in-class platform performance with three-channel DDR3 memory support and full 2 x16 PCI Express* 2.0 graphics for the most demanding, computeintensive environments. Features
Benefits
Quad-Core Processing
Provides four complete execution cores in a single processor package. Four dedicated physical cores help operating systems and applications deliver additional performance, so users can experience better multitasking and multithreaded performance across many types of applications and workloads.
Intel® Hyper-Threading Technology (Intel® HT 2 Technology)
Delivers two processing threads per physical core for a total of eight threads for massive computational throughput. With Intel® HT Technology, highly threaded applications can get more work done in parallel, completing tasks sooner. With more threads available to the operating system, multitasking becomes even easier. This amazing processor can handle multiple applications working simultaneously, allowing you to do more with less wait time.
This edition of the roadmap, like the previous, will deliver tangible technology updates, news and resources, and will help you make sound business decisions and take you forward to a year of robust and steady growth . Intel® Turbo Boost Technology
Dynamically increases the processor’s frequency as needed by taking advantage of thermal and power headroom when operating below specified limits. Get more performance automatically, when you need it the most.
8 MB Intel® Smart Cache
This large last-level cache enables dynamic and efficient allocation of shared cache to all four cores to match the needs of various applications for ultra- efficient data storage and manipulation.
Integrated Memory Controller
An integrated memory controller offers stunning memory read/write performance through efficient prefetching algorithms, lower latency, and higher memory bandwidth making the Intel® Core™ i7 processor family ideal for data-intensive applications.
Intel® HD Boost
Includes the full SSE4 instruction set, significantly improving a broad range of multimedia and compute-intensive applications. The 128-bit SSE instructions are issued at a throughput rate of one per clock cycle, allowing a new level of processing efficiency with SSE4-optimized applications.
Intel® QuickPath Interconnect (Intel® QPI)
For the Intel® Core™ i7-900 processor series, Intel® QPI increases bandwidth and lowers latency, while achieving data transfer speeds as high as 25.6 GB/s.
3
Read more at http://www.intel.com/products/processor/corei7/index.htm
Ultra-Thin Notebooks
Improving your Carbon Footprint
Powered by ultra-low-voltage Intel® Core™ processors
The impacts of IT infrastructure refresh and process improvements The long-term prognostics of energy availability and climate change have increased the world’s focus on sustainability. Both government and corporations are taking necessary steps to become more proactive in minimizing impact and maximizing efficiencies. Intel’s Corporate Sustainability group and the IT Sustainability program play the role of key enablers for sustainable operations by addressing the challenges of reducing consumption and emitting less waste. With clear objectives, Intel set forth to define the company’s CO2 baseline looking toward continuous improvement, to assess the critical energy consumption variables, and to understand the impact of IT infrastructure refresh on the existing footprint.
Sleek new ultra-thin notebooks powered by the latest ultra-low voltage Intel® Core™ processors let you travel light and provide the performance you need for music, video, photos, and more. And thanks to optimized energy-efficient technology, they also enable longer battery life. Fast, sleek, smart—make sure your new ultra-thin notebook has Intel Inside®. Characteristics of a typical netbook, ultra-thin notebook & notebook Netbook 0.8”
Thickness
1” & above
4hrs
Battery Life
Up to 5 hours
TDP (heat dissipation)
2.5W
5.5
2.5 lbs 10” Dics
Weight
2 lbs
Screen Size
7” – 10.2”
ODD
No
Ultra-thin Notebook
>1.1” – 1.4”
Up to 7 hours
Up to 4 hours
5.5 – 10W
25 – 35W
2.5 – 4 lbs
5 – 6 lbs
>10” up to 13.3”
13” & above
Optional
Yes
Intel® Pentium® processor SU2700
Convert standard definition videos for upload 4 to your favorite video-sharing site
5 videos in 10 min.
1 video in 10 min.
Prepare photos for upload to share online with friends and family5
32 photos in 1 min.
16 photos in 1 min.
Prepare MP3s for taking your music on 6 the road
32 songs in 3 min.
16 songs in 3 min.
22 min.
68 min.
7
Create a 5-minute HD video
Read more at http://www.intel.com/en_AP/consumer/learn/ultra-thin.htm
The analysis also indicates that the carbon emissions caused by the DC cooling infrastructure showed a decrease of 12% in 2008 when compared to 20078. Cooling efficiencies gained through server refresh and process improvements in the facilities infrastructure; focused on energy efficiency were the main contributors to this reduction.
Notebook
0.8”
Intel® Core™2 Duo processor SU9400
The objectives of the assessment, the methodology, key parameters considered while scoping the exercise, analysis of the results and key inferences are described. The analysis indicates that the carbon emissions caused by the DC compute infrastructure decreased by 5% in 2008 when compared to 20078. Server refresh was a key factor in this footprint reduction. In 2008, the server infrastructure in the DC was refreshed with more energyefficient and higher performing servers based on the newer generation, multi-core processors.
Activities
Lighting
Computing
15.7%
Data centre
5%
5%
Labs and clients
5%
Cooling
Miscellaneous
10.1%
Data centre
12%
5%
Non Data Centre
5%
Percentage comparison of Scope 2 emissions reductions between 2007 and 2008 across various variables.
The paper articulates the study done at one of the Intel facilities in India. Intel expects this paper to be very relevant for other markets as well.
Read more at http://www.intel.com/in/irdonline/pdf/CarbonFootprintManagement_whitepaper.pdf
The 5 hidden costs of Keeping Older PCs.
Intel® Core™2 Processor with vPro™ Technology and Windows® 7: Better for Business
IT managers who are responsible for their companies’ PC strategies must be on the lookout for the formula that will help them maximize the productive use of their PC installed base, while minimizing the cost of purchasing, provisioning, and supporting those PCs. In other words, they need to optimize their hardware refresh cycles. Understanding the cost impact of PC refresh cycles under these circumstances is critical to setting—and working within—a realistic, cost-effective IT budget. Listed here are the 5 hidden costs of keeping older PCs. 1. Older PCs cost 59% more to support9 The longer you keep your PCs, the higher your support costs rise. Refreshing your fleet with new PCs featuring lntel® Core™2 processors with vPro technology can result in huge cost savings. One global financial firm estimates it will save over $1.5 million in IT support costs over three years.10 2. Older PCs make your people less Productive lncreased failures, security issues, and poor responsiveness all add up to more downtime and lower employee morale. Nothing kills productivity like a PC that's not up to speed. Refresh now for a dramatic boost in employee achievement. One global manufacturing company estimates that its deployment of new PCs will reduce user downtime by 50%.11 3. Older PCs experience 53% more security breaches9 An older PC is no match for today's complex viruses, malware, and web-based attacks. lntel® Core™2 Processors with vPro technology feature a number of automatic, hardware-assisted security features to help protect your precious data and keep your employee PCs up and running. 4. Older PCs can consume an average of 50% more energy12 Energy waste can be an expensive challenge for any business. Energy-efficent lntel® Core™2 processors with vPro technology, and advanced power management, can significantly cut energy consumption. This enabled one state government to achieve a projected savings of more than $ 1.2 million on power costs.13 5. Older PCs are seldom under warranty Most companies purchase three-year extended warranties for their PCs. Recent studies estimate that the failure rate in year four is about 24%, twice the rate in year one. The cost if an out-of-warranty repair for a failed machine is approximately $ 1425. That's more than the cost of purchasing a new PC14. A fleet of new PCs featuring Intel® Core™2 processors with vPro technology that are under full warranty can reduce costs, increase business reliability, and boost employee productivity. Read more at http://www.intel.com/go/vPro
Technical decision makers are faced with many challenges in today’s economy. Help users get more work done faster and with fewer difficulties, protect the network and individual systems from attacks or malicious code, and reduce administrative overhead and the associated costs. The underlying hardware platform can provide a foundation for making the best use of new software capabilities. Intel® Core™2 processor with vPro technology complements the new Windows 7 operating system by building effective trusted computing and management mechanisms into the hardware. The release of Windows 7 provides the ideal opportunity to realize the benefits of a PC refresh. By refreshing the PC fleet to new desktops and notebooks with Intel Core 2 processors with vPro technology, IT organizations can benefit up to 50 percent reduction in operational costs, do more with enhanced multi-tasking, and be more secure by avoiding the 53 percent increase in security incidences seen in four-year-old PCs. Intel vPro technology eases management of PCs, and when activated, can save 40 minutes or more of end-user productivity during an operating system upgrade. In addition, new PCs can do even more with shorter boot times and new productivity tools. Planning a migration to Windows 7 is the perfect time to invest in Intel vPro technology: • Save money by bringing down help desk costs and reducing power consumption • Secure your environment and help ensure compliance
“I have never experienced an operating system changeover happen so smoothly as with Intel vPro.”15 Jens Gastrop Head of IT Operations, Union Investment Group*
• Ease your Windows 7 deployment
Read more at http://www.intel.com/in/irdonline/pdf/Intel-Core-2-Processor-vPro-Win7-whitepaper.pdf
Desktop Roadmap Guidance This latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your Desktop deployments. Desktop Segment
Processor
Chipset
Processor No.
Clock Speed
Cache
FSB / QPI
1P Gaming / Workstation
Intel® Core™i7 processor
Intel® P55**/ X58 Chipset
Intel® Core™i7 processor 800** /900 sequence~
Upto 3.33 GHz
Upto 8MB L3 Cache
Upto 6.4 GT/sec QPI**
Professional Managed Desktop
Intel® Core™2 Duo processor with vPro™ Technology
Intel® Q45 Express Chipset
Intel® Core™2 Duo processor E8000 sequence
Upto 3.33 GHz
6 MB L2 Cache
1333 MHz
Advanced Desktop
Intel® Core™2 Duo processor
Intel® 4 series Express Chipset
Intel® Core™2 Duo processor E7000 sequence
Upto 3.06 GHz
3 MB L2 Cache
1066 MHz
Basic Desktop
Intel® Pentium® processor
Intel® G31/G41 Express Chipset
Intel® Pentium® processor E5000/E6000 sequence
Upto 2.93 GHz
2 MB L2 Cache
800/1066 MHz
Evolving /Value Desktop
Intel® Celeron® processor
Intel® G31 Express Chipset
Intel® Celeron® processor E1000/E3000 Sequence
Upto 2.50 GHz
1MB / 512 KB L2 Cache
800 MHz
Entry-Level Desktop
Intel® Atom™ processor
Intel® 945GC Express Chipset
Intel® Atom™ processor 230/330
1.60 GHz
512KB /1 MB
533 MHz
** Compatible with P55 & doesnot have QPI
Mobile Roadmap Guidance This latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your Mobile deployments. Mobile Segment
Processor
Chipset
Processor No.
Clock Speed
Cache
FSB
Wireless Solution
Portable Workstation
Intel® Core™2 Quad processor
Mobile Intel® PM 45 Express Chipsets
Q9000 Sequence~
Upto 2.26 GHz
Upto 12 MB L2 Cache
1066 MHz
Intel Wifi Link 5000 series (802.11 a/g/n)
Performance Notebook
Intel® Core™2 Duo processor
Mobile Intel® GM/PM 45 Express Chipsets
P9000 or T9000 sequence
Upto 2.80 GHz or 3.06 GHz
6 MB L2 Cache
1066 MHz
Intel Wifi Link 5000 series (802.11 a/g/n)
Mainstream Notebook
Intel® Core™2 Duo processor
Mobile Intel® GM 45 Express Chipsets
P8000 sequence
Upto 2.66 GHz
3 MB L2 Cache
1066 MHz
Intel Wifi Link 5000 series (802.11 a/g/n)
Mainstream Small form factor (upto 1.5KG)
Intel® Core™2 Duo processor
Mobile Intel® GS 45 Express Chipsets
SP9000 /SL9000/ SU9000 sequence
Upto 2.53 / 2.13 / 1.60 GHz
upto 6 MB L2 Cache
Upto 1066 MHz
Intel Wifi Link 5000 series (802.11 a/g/n)
Value Notebook
Intel® Celeron® processor
Intel® GL40 Chipset
T3xxx Dual core or 900 Single core
Upto 1.90 GHz or 2.20 GHz
1 MB L2 Cache
800 MHz
Intel Wifi Link (802.11 b/g)
Netbook
Intel® Atom™ processor
945GSE
N270
1.60 GHz
512 KB L2
533 MHz
Intel Wifi Link (802.11 b/g)
Server Roadmap Guidance This latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your Server deployment. Server Segment
Processor
Clock Speed
Cache
FSB / QPI
Mission Critical
Intel® Itanium® processor 9150N
1.60 GHz
24 MB L3 Cache
667 MHz
Enterprise MP
Intel® Xeon® processor X7460
2.67 GHz
16 MB L3 Cache
1066 MHz
Performance DP
Intel® Xeon® processor X5550
2.66 GHz
8 MB L3 Cache
6.4GT/sec QPI
Mainstream DP
Intel® Xeon® processor E5520
2.26 GHz
8 MB L3 Cache
5.86GT/sec QPI
Performance UP
Intel® Xeon® processor X3470
2.93 GHz
8 MB L3 Cache
NA
Entry-level UP
Intel® Xeon® processor X3330
2.66 GHz
6 MB L2 Cache
1333 MHz
~
Intel processor numbers are not a measure of performance. Processor numbers differentiate features within each processor series, not across different processor sequences. See www.intel.com/products/processor_number for details.
Ö
Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitectures.
1
Based on the overall features and Intel technologies in the Intel® Core™ i7 processor family. Performance will vary depending on specific hardware and software used. See www.intel.com/performance/desktop/index.htm for additional information.
2
Intel® Hyper-Threading technology (Intel® HT technology) requires a computer system with a processor supporting Intel HT Technology and an Intel 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 Intel HT technology, see www.intel.com/info/hyperthreading.
3
Intel® Turbo Boost technology requires a PC with a processor with Intel Turbo Boost capability. Intel Turbo Boost performance varies depending on hardware, software and overall system configuration. Check with your PC manufacturer on whether your system delivers Intel Turbo Boost technology. See www.intel.com/technology/turboboost for more information.
4
VirtualDub* 1.8.8 is a video capture/processing utility. It is streamlined for fast, linear operations over video and allows users to batch-process multiple tasks on multiple video files. DivX* 6.8.5 is a format for digital video. The workload for VirtualDub is a 66.2MB 110second MPEG2 video file in 720x480 resolution at 5Mbps. It is converted to DivX format with 720x480 resolution with a total size of ~10.3MB. Extrapolation is used to calculate the number of 5-minute videos you can prepare in 10 minutes.
5
Adobe Photoshop Lightroom* 2.3 is a photography application that lets you manage, adjust, and present a large amount of photographs. For this scenario Lightroom 2.3 is used to resize 125 ten-megapixel and 75 six-megapixel JPEG photos at 480x360 resolution for posting to Facebook* or viewing on portable devices such as an iPhone*. The photos are also used to create a personal HTML web gallery that can be published online. Extrapolation used to calculate the number of images you can prepare in 3 minutes for upload to Facebook.
6
Apple iTunes* 8.1 is a digital media application that can be used to manage digital music such as converting from one digital audio format to another. In this case, Apple iTunes is used to convert 61 minutes, 24 seconds of music from WAV to MP3 format with a bit rate of 160Kbps for listening on your Apple iPod*. Extrapolation used to calculate the number of 3-minute songs you can convert in 3 minutes.
7
Pegasys TMPGEnc* 4.6 allows you to take almost any video file and encode it to your desired file format including DivX*, AVI, QuickTime*, MPEG 4-ISO, H.264, DVD-Video, DVD-VR, HDV camcorder, Blu-ray* disc, and much more. The input file for this workload is a 1-minute, 16second, 29.97fps, 1920x1080 video clip with VBR encoding and a total size of about 1.12GB. The output is an HDV format MPEG file with 1920x1080 resolution, 29.97fps and 25000Kb/s CBR encoding. The extrapolation used calculates how long to create a 5-minute video.
8
Intel internal measurements, Q1 2009
9
"Using Total Cost of Ownership to Determine Optimal PC Refresh Lifecycles", Wipro Technologies, March 2009 (www.wipro.com/industryresearch). Based on a survey of 106 firms in North America and Europe representing 15 different industries and projections based on a Model Company developed by Wipro technologies. Actual results may vary based on the number of use-cases implemented and may not be representative of results that individual businesses may realize. For additional implementation exaples refer to Intel Case Studies available at http://communities.intel.com/docs/DOC-1494
10 HSBC Holdings ROI Analysis. http://communities.intel.com/docs/DOC-2730 11 Molson Coors ROI Analysis. http://communities.intel.com/docs/DOC-2526 12 Energy Efficient Performance measures CPU performance and the total system-level energy use, measured at the AC outlet in watts, while running SYSMARK* 2007 Preview. the desktop data compares the Intel Core 2 Duo E8500 processor based desktops to theoretical installed base of Intel Pentium 4 Processor 630- based desktop with comparable frequency. Visit http://intelcapabilitiesforum.net/eep for EEP. System configurations - Intel Core 2 Duo Processor E8500 (6M Cache, 3.16 GHz, 1333MHz FSB) on a DQ45CB Intel Q45 Express Chipset, Dual channel DS Micron 1GB pentium 4 Processor 630 supporting HT Technology (2M Cache, 3.00 GHz, 800 MHz FSB) on Intel Desktop Board D945GCL, Dual channel DS Micron 1GB (2 x 512MB) 13 Indiana Office of technology ROI Analysis. http://communities.intel.com/docs/DOC-1703. Molson Coors ROI Analysis. http://communities.intel.com/docs/DOC-2526 14 J. Gold Associates Research Report. http://ipip.intel.com/gp/7409/jgold-keeping-notebooks-past-prime/ 15 http://www.intel.com/references/pdfs/Union_Investment.pdf 16 Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information. 17 Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information. 18 Enabling Execute Disable Bit functionality requires a PC with a processor with Execute Disable Bit capability and a supporting operating system. Check with your PC manufacturer on whether your system delivers Execute Disable Bit functionality.
Client table - OEMs and other brands
OEM
Intel® Core™2 Duo processor based Desktop PCs
Intel® Pentium® processor E2000 sequence based Desktop PCs
Intel® Centrino® 2 processor technology based Mobile PCs
Intel® Centrino® Pro processor technology based Mobile PCs
Veriton* Series, Acer* Power Series, Extensa Series, Aspire IE-3470, Aspire IE4730
Veriton* Series, Acer* Power Series, Aspire Series, Extensa Series, Aspire IE-3218, Aspire IE-3220, Aspire L3600 Series uSFF
Travelmate* 6292 Series, 6293 Series, 4730 Series, 4720, 5720, 5730 Series, Aspire* 5920 Series, 6930 Series, 6920, 5730z, 4930 series, 4720z, 4720, 4730z, 2930 series, 8920g, 2920, Extensa* 4620 Series, 4630 Series, 4630z, 5630z, 4620z, 5620z, TM 4335 Series, EX 4200 Series
Travelmate* 6492, 6592, 6493, 6593
Optiplex* 360, 760, 960; Vostro 220, Vostro 320 AIO
Optiplex* 360, 760; Vostro 220
Latitude* E6500, E6400, E5400, E5400D, E5500, E4300, E4200, E6400 ATG, Latitude XT2 Tablet, Precision* M2400, M4400, M6400
Latitude* E6400, E6500, E4300, E4200
Infiniti* Tru* BL 1235, BL 1230, BL1240, BL 1260, BL 1265, BL 4135
Infiniti* Pro* / Tru* BL 1235, BL 1230, BL 1240, BL 1260, BL 1265, BL 4135
HCL Leaptop 24, HCL Leaptop 29, HCL Leaptop 39, HCL Leaptop 40
HCL Leaptop 39, HCL Leaptop 40
HP Compaq* Business Desktop dc7900, dc5800, dx2480, dx2480, dc5800 and dc7900
HP Compaq* Business Desktopdc7900, dc5800, dx2480
6720s, 6520s, 6710b, 6510b, 6530S, 6730S, 6830S, 6530B, 6730B, 2230S
6910p, 2710p, 2510p, 8510p, 8510w, 8710w, 6930P, 8730W, 8530P, 2530P, 2730P
ThinkCenter A57, M57e -Tower, Desktop, SFF, M57 - Tower, Desktop, SFF, USFF, eco USFF, M57p - Tower, Desktop, SFF, USFF, eco USFF
ThinkCenter* M55E and A55, E50 series, Lenovo* 3000 series
ThinkPad* R series, SL and L series
ThinkPad* X series, T series and W series
Satellite* A300, L310 & M300 series, Tecra* M series, Portege* M700, M800 & R500 series
Tecra M Series, Portege M700
Wipro* SuperGenius* / Wipro I-Value 37455, 37255, 38105, 52105, 52255
Wipro* SuperGenius* / Wipro I-Value 37455, 37255, 38105, 52105, 52255
Zenith Business PC Models G-31, G31 SFF, Q-45
Zenith Business PC Models G-31, Q-45, G31 SFF
Model numbers and configurations of OEMs are subject to change without notice and may be available at their sole discretion
Wipro* Notebook WLG7E1100, WLG7E1100V, WLG7B1100, WLG7B1100V, WNBMEM4712-EB, WNBMEM4712-ER, WNBMEM4702-ER, WNBMBM2710-ER Zenith Business Admirale Plus, Zenith Business Director Plus Ultra, Zenith Business Director Plus
Wipro* Notebook 7E1102CP series (Centrino Pro). Wipro* Notebook WNBMEM4710-ER, WNBMEM4710-EB, WNBMEM4700-ER, WNBMBM2710-ER Series (Centrino 2) Zenith Business Admirale Plus, Zenith Business Director Plus Ultra, Zenith Business Director Plus
Server table - OEMs and other brands
OEM
Intel® Xeon® processor 3000 sequence based Servers (UP)
Intel® Xeon® processor 5000 sequence based Servers (DP)
Intel® Xeon® processor 5500 series (Nehalam) based Servers (DP)
Intel® Xeon® processor 7000 sequence based Servers (MP)
Acer* Altos* G330Mk2 (Tower)
Altos* G540 (Tower), R720 Rack 2U, R520 Rack 1U
Acer Altos G540 M2 (Tower), R520M2 (1U Rack), R720 M2 (2U Rack)
Altos* R920
T100 (Tower), T300 (Tower), R200 (Rack), R300 (Rack)
PowerEdge* 2900 (Tower), 2950 (Rack), 1950 (Rack), 1900 (Tower), M600 Blades, Precision T3500, T5500 and T7500
PowerEdge T610 (Tower), R710 (Rack), R610 (Rack), M610 (Blades), M710 (Blades) Precision T3500, T5500 and T7500
HCL Infiniti* Global line* 1700 SH
HCL Infiniti* Global line* 2700 ST, 2700SO, 2700 AO, 2700 CA, 2700SF, 2700JA, 2700VN, DCIB-IGL 2700MF (Blade Server)
IGL 2700BC (24D Chipset), IGL 2700 HC (36D Chipset), IGL 2700UR (36D Chipset), IGL2700 SC (36D Chipset) - WS, IGL 2700MF with Victor Island blade (36D Chipset)
HCL Infiniti* Global line* 4700FC
HP ProLiant* Servers - ML110G5, DL120, DL320G5p, ML310G5
HP ProLiant* Servers -ML150G5, ML350G5, Ml370G5, DL180G5, DL160G5, DL360G5, L380G5, BL460c, BL480c, BL260c, BL220c
ML150G6, ML350G6, Ml370G6, DL370G6, DL180G6, DL160G6, DL360G6, DL380G6, BL460c G6, BL490c, BL260 G6
HP ProLiant* Servers DL580G5, BL680G5
x3100, x3200 M2, x3250 M2, x3350, HS12, x3250M3, x3200M3
System x3400, x3500, x3450, x3550, x3610, x3650, HS21, HS21XM, dx 360
HS22 (Blades 2 Socket), x3650M2 (2U 2Socket), x3550M2 (1U 2 Socket), x3400M2 x3850M2, x3950 M2 (Tower 2 Socket), x3500M2 (Tower 2 Socket), iDataplex dx360M2 (2 Socket)
Intel® Itanium® processor based Servers
PowerEdge* R900
HP Integrity* Bl860c, Bl870c, rx2660, rx3600, rx6600, rx7640, rx8640, Superdome*, NS1200, NS14200, NS16200
RD210, RD220 (1 U & 2 U Rack), TD200, TD200X (Tower)
Wipro* NetPower* Z1502, Z1505, Z1107, Z1105
Sun Blade* X6250, Sun Fire* X4150, X2250, X4250, Netra X4250
Sun Blade* X6270, Sun Blade X6275, Sun Fire* X4170, X4270, X2270
Sun Fire* X4450, SunBlade* X8450, X6450
Wipro* NetPower* Z2501R, Z2502, Z2503R, Z2204, Z2504, Z2105, Z2205, Z2108, Z2109, Z2511, Z2514, Z2216, Z2517, Z2118, Z2218, Z2518, Wipro* NetBlade* 1600 with Wipro* NetPower* Z2601, Wipro NetBlade 1000 with Z2701, Z2215, Z2301, Netpower Sigma Blade M & H, Netpower SMP Xeon Kona 5800 series
Wipro* NetPower* Z2531, Z2533, Z2534, Z2131, Z2135, Z2235, Z2541, Z2542, Z2543, Z2544, Z2243, Z2244, Z2141, Z2142, Z2241, Z2242, Wipro* NetBlade* 1600N with Wipro* NetPower* Z2601N
Wipro* Netpower* SMP Xeon Kona 5800 series (8-16 sockets), Z4402 (4 socket)
Model numbers and configurations of OEMs are subject to change without notice and may be available at their sole discretion
Wipro* Netpower* X 5800 Xpress
Intel® processor reference chart - Desktop PCs Intel® Brand or Processor Family
Intel® Brand or Processor Family
Processor Number
Clock Speed (GHz)
Memory Speed (DDR3 only)
Intel® Technologies Cache
Cores Intel® VT16
Enhanced Intel SpeedStep® Technology
Intel® 6417
Intel® Turbo Boost 3 Technology
Intel® Core™ i7 processors i7-975 3.33 i7-965 3.20 i7-960 3.20 i7-950 3.06 i7-940 2.93 i7-920 2.66 i7-870 2.93 i7-860 2.80 i7-860s 2.53
1066 / 800 1066 / 800 1066 / 800 1066 / 800 1066 / 800 1066 / 800 1333 / 1066 1333 / 1066 1333 / 1066
8 MB L3 8 MB L3 8 MB L3 8 MB L3 8 MB L3 8 MB L3 8 MB L3 8 MB L3 8 MB L3
4 4 4 4 4 4 4 4 4
P P P P P P P P P
P P P P P P P P P
P P P P P P P P P
P P P P P P P P P
Intel® Core™ i5 processors i5-750 2.66 i5-750s 2.40
1333 / 1066 1333 / 1066
8 MB L3 8 MB L3
4 4
P P
P P
P P
P P
Processor Number
Clock Speed (GHz)
Front Side Bus (MHz)
Intel® Core™2 Extreme processors QX9775 3.20 1600 QX9770 3.20 1600 QX9650 3.00 1333
Intel® Technologies Cache
Cores Intel® VT
12 MB L2 12 MB L2 12 MB L2
Intel® Core™2 Quad processors Q9000 and Q8000 sequence~ 12 MB L2 Q9650 3.00 1333 12 MB L2 Q9550 2.83 1333 6 MB L2 Q9505 2.83 1333 6 MB L2 Q9400 2.66 1333 6 MB L2 Q9300 2.50 1333 4MB L2 Q8400 2.66 1333 4 MB L2 Q8300 2.50 1333 4 MB L2 Q8200 2.33 1333
16
Enhanced Intel SpeedStep® Technology
Intel® 64
17
Execute Disable Bit18
4 4 4
P P P
P P P
P P P
P P P
4 4 4 4 4 4 4 4
P P P P P
P P P P P P P P
P P P P P P P P
P P P P P P P P
Intel® processor reference chart - Desktop PCs Intel® Brand or Processor Family
Processor Number
Clock Speed (GHz)
Front Side Bus (MHz)
Intel® Core™2 Quad processors (Low Power) Q9550S 2.83 1333 Q9505S 2.83 1333 Q9400S 2.66 1333 Q8400S 2.66 1333 Q8200S 2.33 1333
Intel® Technologies Cache
Cores Intel® VT16
Enhanced Intel SpeedStep® Technology
Intel® 6417
Execute Disable Bit18
4 4 4 4 4
P P P
P P P P P
P P P P P
P P P P P
Intel® Core™2 Duo processors E8000 and E7000 sequence~ 6 MB L2 E8600 3.33 1333 6 MB L2 E8500 3.16 1333 6 MB L2 E8400 3.00 1333 3 MB L2 E7600 3.06 1066 3 MB L2 E7500 2.93 1066 3 MB L2 E7400 2.80 1066
2 2 2 2 2 2
P P P P
P P P P P P
P P P P P P
P P P P P P
Intel® Pentium® processors E6000 and E5000 sequence~ 2 MB L2 E6500 2.93 1066 2 MB L2 E6300 2.80 1066 2 MB L2 E5400 2.70 800 2 MB L2 E5300 2.60 800
2 2 2 2
P
P P P P
P P P P
P P P P
Intel® Celeron® processors E3000 and E1000 sequence~ 1 MB L2 E3300 2.50 800 1 MB L2 E3200 2.40 800 512 K L2 E1600 2.40 800 512 K L2 E1500 2.20 800 512 K L2 E1400 2.00 800
2 2 2 2 2
P P P P P
P P P P P
P P P P P
Intel® Celeron® processors 400 sequence~ 450 2.20 800 440 2.00 800 430 1.80 800 420 1.60 800
512 K L2 512 K L2 512 K L2 512 K L2
1 1 1 1
P P P P
P P P P
Intel® Atom™ processors 330 1.60 230 1.60
1 MB L2 512 K L2
2 1
P P
P P
533 533
12 MB L2 6 MB L2 6 MB L2 4 MB L2 4 MB L2
Intel® processor reference chart - Mobile PCs Intel® Brand or Processor Family
Processor Number
Clock Speed (GHz)
Intel® Core™ i7 processors i7-820QM 1.73 i7-720QM 1.60
Intel® Brand or Processor Family
Processor Number
Clock Speed (GHz)
Intel® Technologies
Memory Speed (DDR3 only)
Cache
1333 1333
8 MB L3 6 MB L3
Front Side Bus (MHz)
Intel® Core™2 Extreme processors QX9300 2.53 1066 X9100 3.06 1066
Cores Intel® VT
4 4
16
Enhanced Intel SpeedStep® Technology
P P
P P
Intel® 64
17
Execute Disable Bit18
P P
P P
Intel® Technologies Cache
Cores Intel® VT16
4 2
Enhanced Intel SpeedStep® Technology
Intel® 6417
Execute 18 Disable Bit
P P
P P
P P
P P
Intel® Core™2 Quad processors based on Centrino® 2 processor technology 4 12 MB L2 Q9100 2.26 1066 4 6 MB L2 Q9000 2.00 1066
P P
P P
P P
P P
Intel® Core™2 Duo processors based on Centrino® 2 processor technology 2 6 MB L2 T9900 3.06 1066 2 6 MB L2 T9800 2.93 1066 2 6 MB L2 T9600 2.80 1066 2 6 MB L2 T9550 2.66 1066 2 6 MB L2 T9400 2.53 1066 2 6 MB L2 P9700 2.80 1066 2 6 MB L2 P9600 2.66 1066 2 6 MB L2 P9500 2.53 1066 2 3 MB L2 P8800 2.66 1066 2 3 MB L2 P8700 2.53 1066 2 3 MB L2 P8600 2.40 1066 2 3 MB L2 P8400 2.26 1066
P P P P P P P P P P P P
P P P P P P P P P P P P
P P P P P P P P P P P P
P P P P P P P P P P P P
12 MB L2 6 MB L2
Intel® processor reference chart - Mobile PCs Intel® Brand or Processor Family
Processor Number
Clock Speed (GHz)
Front Side Bus (MHz)
Intel® Technologies L2 Cache
Cores Intel® VT
16
Enhanced Intel SpeedStep® Technology
Intel® 64
17
Execute Disable Bit18
Intel® Core™2 Duo processors (Small Form Factor) based on Centrino® 2 processor technology 2 6 MB L2 SP9600 2.53 1066 P 2 6 MB L2 SP9400 2.40 1066 P 2 6 MB L2 SP9300 2.26 1066 P 2 6 MB L2 SL9600 2.13 1066 P 2 6 MB L2 SL9400 1.86 1066 P 2 6 MB L2 SL9300 1.60 1066 P 2 3 MB L2 SU9600 1.60 800 P 2 3 MB L2 SU9400 1.40 800 P 2 3 MB L2 SU9300 1.20 800 P
P P P P P P P P P
P P P P P P P P P
P P P P P P P P P
Intel® Core™2 Solo processors (Small Form Factor) based on Centrino® processor technology 1 3 MB SU3500 1.40 800 P 1 3 MB SU3300 1.20 800 P
P P
P P
P
P
P
Intel® Celeron® processors (Small Form Factor) SU2300 743 723
1.20 1.30 1.20
Intel® Celeron® processors T3300 2.00 T3100 1.90 T3000 1.80 900 2.20
800 800 800
1 MB 1 MB 1 MB
2 1 1
800 800 800 800
1 MB 1 MB 1 MB 1 MB
2 2 2 1
P
P P P P
P P P P
Front Side Bus (MHz)
Cache
System Type
Intel® QPIÖ
Intel® Itanium® processors 9000 sequence~ 9150M 9150N 9140M 9140N 9130M 9120N 9110N
1.66 1.60 1.66 1.60 1.66 1.42 1.60
667 533/400 667 533/400 667 533/400 533/400
24 MB L3 24 MB L3 18 MB L3 18 MB L3 8 MB L3 12 MB L3 12 MB L3
2 2 2 2 2 2 1
104W 104W 104W 104W 104W 104W 75W
MP MP MP MP MP MP MP
1066 1066 1066 1066 1066 1066 1066 1066 1066
16 MB L3 12 MB L3 12 MB L3 12 MB L3 16 MB L3 12 MB L3 8 MB L3 8 MB L2 8 MB L2
6 6 6 4 4 4 4 2 2
130W 65W 90W 50W 90W 90W 90W 80W 80W
MP MP MP MP MP MP MP MP MP
12 MB L2 12 MB L2 12 MB L2 12 MB L2 12 MB L2 6 MB L2 6 MB L2 6 MB L2 6 MB L2 6 MB L2
4 4 4 4 4 4 4 2 2 2
95W 95W 95W 65W 95W 95W 95W 65W 65W 45W
UP UP UP UP UP UP UP UP UP UP
Intel® Xeon® processors 7000 sequence~ X7460 L7455 E7450 L7445 E7440 E7430 E7420 E7220 E7210
2.66 2.13 2.40 2.13 2.40 2.13 2.13 2.93 2.40
Intel® Xeon® processors 3000 sequence~ X3380 X3370 X3360 L3360 X3350 X3330 X3320 E3120 E3110 L3110
3.16 3.00 2.83 2.83 2.66 2.66 2.50 3.16 3.00 3.00
1333 1333 1333 1333 1333 1333 1333 1333 1333 1333
Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitectures.
Memory Speed (DDR3 only)
System Type
Cache
Intel® QPIÖ
8MB L3 8MB L3 8MB L3 8MB L3 8MB L3 8MB L3 8MB L3 8MB L3 8MB L3 8MB L3 4MB L3 4MB L3 4MB L3 4MB L3
6.40 GT/s 6.40 GT/s 6.40 GT/s 6.40 GT/s 6.40 GT/s 5.86 GT/s 5.86 GT/s 5.86 GT/s 5.86 GT/s 5.86 GT/s 4.80 GT/s 4.80 GT/s 4.80 GT/s 4.80 GT/s
4 4 4 4 4 4 4 4 4 4 4 4 4 2
130W 130W 95W 95W 95W 80W 80W 60W 80W 60W 80W 60W 80W 80W
DP DP DP DP DP DP DP DP DP DP DP DP DP DP
8 MB? L3 ? 8 MB L3 8 MB? L3 8 MB? L3 8 MB? L3 8 MB? L3 ? 8 MB L3 ? 8 MB L3 8 MB? L3 8 MB? L3
6.4 GT/s 4.8 GT/s 4.8 GT/s 4.8 GT/s
4 4 4 4 4 4 4 4 4 4
130W 130W 130W 130W 95W 95W 95W 95W 95W 45W
UP UP UP UP UP UP UP UP UP UP
Intel® Xeon® processors 5000 sequence~ W5590 W5580 X5570 X5560 X5550 E5540 E5530 L5530 E5520 L5520 E5506 L5506 E5504 E5502
3.33 3.20 2.93 2.80 2.66 2.53 2.40 2.40 2.26 2.26 2.13 2.13 2.00 1.86
1333/1066/800 1333/1066/800 1333/1066/800 1333/1066/800 1333/1066/800 1066/800 1066/800 1066/800 1066/800 1066/800 800 800 800 800
Intel® Xeon® processors 3500 and 3400 sequence~ W3580 W3565 W3550 W3520 X3470 X3460 X3450 X3440 X3430 L3426
3.33 3.20 3.06 2.66 2.93 2.80 2.66 2.53 2.40 1.86
1333/1066/800 1066/800 1066/800 1066/800 1333/1066/800 1333/1066/800 1333/1066/800 1333/1066/800 1333/1066/800 1333/1066/800
Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitectures. Intel® Smart Cache provides a higher-performance, more-efficient cache subsystem. Optimized for industry-leading multi-threaded applications.
For regular updates, log onto http://www.intel.com/in/irdonline
www.intel.com/in/irdonline
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