www.intel.com/in/irdonline Volume 3 • 2009

Intel® Roadmap Directions 2009A Resource Guide for CIOs and IT Professionals

Most companies understand the need to purchase high quality devices for their workforce.

However, many organizations are challenged with determining what the optimum lifetime

of a notebook should be. A range of advice is available, with most indicating an optimum

3-4 year lifecycle. A J.Gold Associates Research Report* indicates most organizations fit

into this general timeframe for replacement of their notebook computers, with most

leaning towards the lower end (3 years). However, with the current climate of budget and

manpower reductions, keeping a notebook for 5 years seems like an attractive cost saving

proposition to some businesses. But does a longer notebook lifecycle make economic sense?

Keeping Notebooks Past Their PrimeA Study of Failures and Costs

In this third quarter of 2009, the Intel Roadmap Directions offers

enterprise more reasons to refresh their PC and server fleet than

ever before. With this smarter, improved and more robust roadmap,

you will see how staying committed to a PC and server refresh will cut

down your TCO, while increasing your ROI, in a shorter time than you

had thought possible.

In this edition, the Intel Roadmap Directions focuses on the Intel®

Xeon® processor 5500 series, which promises robust performance for

the enterprise data center, giving up to nine times increase in the

processing power of older single core servers. In addition, learn more

on how keeping notebooks past their prime can have a negative

impact on business, and how your organization can strive toward

lowering its TCO through optimal PC refresh cycles.

This edition of the roadmap, as with the previous, gives you more

technology updates, news and resources, that will help keep your

business ahead of the change curve in an increasingly competitive

environment.

Read more at http://intel.com/in/irdonline/notebooks.htm

Report Recommendations Based on the Research

• Companies should acquire only notebooks they deem to be of highest quality with low failure rates. Obtaining lower quality devices will add substantially to the lifecycle cost of the device. Paying a little more up front can offer substantial savings over the lifetime of the device.

• Organizations should obtain an extended (3 year) warranty on notebooks if the total cost of purchasing such an option does not exceed $150 in addition to the base price of the machine. This is the breakeven point for extended (3 year) vs. standard (1 year) warranties.

• Businesses should not keep machines past the optimum three year lifecycle of the device. The failure costs associated with years 4 and 5 will be equivalent to the cost of a new machine. Further, the end user productivity loss as a result of keeping slower and less reliable technology in service will far offset any potential capital cost savings to the organization.

• Notebooks have a normal lifecycle. Keeping them past their prime is not a good investment and may actually result in a substantial loss for the organization.

Leading Virtualization 2.0How Intel is driving virtualization beyond consolidation into a solution for maximizing business agility within the enterprise

Read more at

To find out more about Intel VT and its features, see:

http://intel.com/in/irdonline/virtualization.htm

www.intel.com/technology/virtualization/

Virtualization is one of the hottest technologies in IT infrastructure today. According to Gartner*, “Virtualization is the highest impact trend changing infrastructure and operations through 2012. It will change how you manage, how and what you buy, how

1you deploy, how you plan, and how you charge.”

Today Intel is helping enable the next generation of virtualization usage efficiently. Virtualization 2.0 focuses on increasing service efficiency through flexible resource management. In the near future, this usage model will become absolutely critical to data centers, allowing IT managers to use virtualization to deliver high availability solutions with the agility to address disaster recovery and real-time workload balancing so they can respond to the expected and the unexpected.

While optimizing refresh cycles, IT organizations should also consider the positive business case associated with deploying Intel vPro technology. The Wipro* research study titled Using Total Cost of Ownership to Determine Optimal PC Refresh Lifecycles has demonstrated that Intel vPro technology reduces overhead IT management costs by reducing the effort of common IT tasks.

With Intel vPro technology, organizations can expect to spend less time conducting patch and application deployments, PC inventory audits, and deskside visits to resolve software and hardware malfunctions. In addition, Intel vPro technology will allow IT departments to respond more rapidly to security incidents and show an increase in user and IT productivity. Finally, shorter PC lifecycles combined with Intel vPro technology will help companies reduce energy consumption and carbon footprints.

As firms take a hard look at energy usage for cost, regulatory, and environmental reasons, reducing PC power consumption becomes an increasingly important consideration. Wipro concludes that an optimized three year PC refresh cycle along with benefits inherent in Intel vPro technology is a winning combination that will contribute to substantial financial, operational and business benefits. Potential savings explored, as well as the magnitude of savings are summarized in the table below.

Using Total Cost of Ownership to Determine Optimal PC Refresh Lifecycles

Find an online estimator at , which will allow IT, operations, and finance professionals to build a business case tailored to the unique situation at their respective firms.

www.intel.com/business/vpro/roi/demo.htm

Virtualization 1.0IT Goal: Reduce Cost

Virtualization 2.0IT Goal: Increase Service Efficiency

Test and DevelopmentEnables Rapid Deployment

Server ConsolidationReduce CAPEX,Increase Utilization

Virtualization/High Availability/Disaster RecoveryBusiness Continuity

Load BalancingStreamline Resource UtilizationBalance Computing

Demands with Capacity

Read more at http://www.intel.com/in/irdonline/pcrefresh.htm

Impact on Model Company with

11500 Laptop and 19300 Desktop PCs

DescriptionItem

Three Year PC

Refresh Cycle

Intel® vPro™

Technology for Cost

Optimal Maintenance

Intel® vPro

Technology

for Power

™

Newer PCs Use

Less Power

Laptop PCs Use

Less Power

Maintenance and out of warranty support costs

increase sharply in years 4 and 5; for most firms,

three year lifecycles are cost optimal

Enhanced remote PC maintenance decreases

the cost of manual resolution

Remote PC management tool significantly

lowers desktop PC power costs as systems

are remotely powered down

New desktop PCs are almost twice as power

efficient as systems 3 years and older, when

they are in operation

Aside from the productivity benefit, moving

towards power managed laptops can more

than half a typical firms PC power bill

$97 per PC over asset lifetime compared to current state

(20% of the laptop PCs and 19% of the desktop PCs in the

model company are older than three years in current state)

$68 per PC over asset lifetime compared to current state

(20% of the laptop PCs and 19% of the desktop PCs in the

model company are older than three years in current state)

$11 per desktop PC per year

$3 per PC per year

$22 per PC per year

By actively managing Intel’s PC fleet as a strategic asset, Intel IT has consistently

decreased total cost of ownership (TCO) for PCs, achieving a 67 percent reduction since

1995. Because PC acquisition costs typically account for only 20 to 30 percent of TCO, Intel

doesn’t fixate on these costs alone. Instead, PC fleet investments and management

practices are aligned with Intel’s strategic goals.

In addition to TCO considerations, Intel IT evaluated and put an emphasis on the top-line

productivity benefits that new PC technologies bring to employees. This includes adopting

notebook PCs, new wireless technologies, Voice over IP (VoIP), and remote asset

management to help increase productivity while driving down the high cost of

supporting PCs.

PCs as Strategic AssetsIT@Intel Brief, May 2009

Read more at

Learn more about Intel IT’s best practices at

http://www.intel.com/in/irdonline/pc_strategic.htm

www.intel.com/IT

From an IT perspective, Intel vPro technology is best viewed not as a technology, but as a

capability to improve client manageability, reduce costs and increase end user

productivity. However, new organizational competencies and skill sets are required.

Compliant PCs are also necessary, and the value to the IT organization and the business 2will ultimately depend on the total number of Intel vPro technology provisioned clients in

the installed base.

This does not mean organizations need to wait until their installed base is fully

provisioned. Intel IT began deploying Intel vPro technology enabled client systems during

2007 as part of Intel’s standard PC refresh cycle. Intel IT initially considered waiting to

upgrade management tools and processes until a larger pool of provisioned systems was

available. However, after closer analysis, it was realized that significant return on

investment (ROI) could be achieved by deploying earlier rather than later.

Now support teams are gaining experience with the new tools, and returns are expected

to increase dramatically as competency increases, through the rapid adoption of additional

use cases, and continued effort to refresh Intel’s fleet with the latest Intel vPro

technology-enabled platforms.

Implementing Intel® vPro™ Technology to Drive Down Client Management CostsQuick returns and long-term value with Intel® vPro™ technology

Read more at http://www.intel.com/in/irdonline/vPro_technology.htm

Heal, Manage, and ProtectUnderstanding the potential of Intel® vPro™ Technology

Intel vPro technology is designed to address many of the most costly challenges

IT organizations currently face in deploying, maintaining, managing, and securing

their client. It enables support teams to securely access and manage PCs over

networks, even when an operating system is unresponsive, a software agent is

missing or a hard drive has failed.

It also includes a number of other features that can enhance a wide range of

client management functions. A partial list would include persistent and protected

storage for event logs and asset information, configurable hardware-based traffic

filters, and programmable triggers and responses for protecting Internet-

connected PCs.

Profile: PC Strategies

• TCO reduction of 67% since 1995

• Notebook PCs provide greater than 5% time savings per employee per week

• More capable PCs improve productivity and security, and increase fleet manageability, while reducing TCO

Thus, by managing PCs as strategic assets, streamlining processes, and buying more-

capable PCs with built-in manageability that improve productivity and security, Intel IT not

only reduced TCO but also delivered measurable top-line benefits year after year. Intel IT estimates cost savings of $0.5M in 2009 and expect this figure to reach $1M in 2011, due to planned increases in the number of Intel vPro technology-provisioned systems in the fleet. These savings are mainly driven by the improved efficiency of configuration, diagnostics and repair and represent just the tip of the iceberg.

Mobile Roadmap GuidanceThis latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your Mobile deployments.

Desktop Roadmap GuidanceThis latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your Desktop deployments.

1P Gaming / Intel® Core™i7 processor Intel® X58 Chipset Intel® Core™i7 processor 900 sequence Upto 3.06 GHz Upto 8MB 4.8GT/sec Workstation L3 Cache QPI

Professional / Intel® Core™2 Duo processor Intel® Q45 Express Chipset Intel® Core™2 Duo processor E8000 sequence Upto 3.33 GHz 6 MB L2 Cache 1333 MHzManaged Desktop with vPro™ Technology

Evolving / Intel® Core™2 Duo processor Intel® 3 series / 4 series Intel® Core™2 Duo processor E7000 sequence Upto 3.06 GHz 3 MB L2 Cache 1066 MHzAdvanced Express Chipset

Basic Intel® Pentium® processor Intel® 3 series / 4 series Intel® Pentium® processor E2000/E5000 sequence Upto 2.70 GHz 1MB / 2 MB 800 MHzExpress Chipset L2 Cache

Entry-Level Intel® Celeron® processor Intel® G31 Express Chipset Intel® Celeron® processor E1000 Sequence Upto 2.40 GHz 512 KB L2 Cache 800 MHz

Nettop Intel® Atom™ processor Intel® 945GC Express Chipset Intel® Atom™ processor 230/330 1.60 GHz 512KB /1 MB 533 MHz

Desktop Segment Processor Chipset Processor Clock Speed Cache FSB / QPI

Mobile Segment Processor Chipset Wireless Solution Processor Clock Speed Cache FSB

Portable Intel® Centrino® 2 processor technology Mobile Intel® PM 45 Intel Wifi Link 5000 Q9000 Sequence Upto 2.26 GHz Upto 12 MB 1066 MHzWorkstation with Intel® Core™2 Quad processor Express Chipset series (802.11 a/g/n) L2 Cache

Performance Intel® Centrino® 2 processor technology Mobile Intel® GM/PM 45 Intel Wifi Link 5000 P9000 or Upto 2.80 GHz 6 MB L2 Cache 1066 MHzNotebook with Intel® Core™2 Duo processor Express Chipset series (802.11 a/g/n) T9000 sequence or 3.06 GHz

Mainstream Intel® Centrino® 2 processor technology Mobile Intel® GM 45 Intel Wifi Link 5000 P8000 sequence Upto 2.66 GHz 3 MB L2 Cache 1066 MHzNotebook with Intel® Core™2 Duo processor Express Chipset series (802.11 a/g/n)

Mainstream Intel® Centrino® 2 processor technology Mobile Intel® GS 45 Intel Wifi Link 5000 SP9000 /SL9000 Upto 2.53 / 6 MB L2 Cache 1066 MHz Small form factor with Intel® Core™2 Duo processor Express Chipset series (802.11 a/g/n) sequence 2.13 GHz

Ultra Small form Intel® Centrino® 2 processor technology Mobile Intel® GS 45 Intel Wifi Link 5000 SU9000 sequence Upto 1.60 GHz 3 MB L2 Cache 800 MHz factor (<1.5kg) with Intel® Core™2 Duo processor Express Chipset series (802.11 a/g/n)

Value Notebook Intel® Celeron® processor Intel® GL40 Chipset Intel Wifi Link (802.11 b/g) T3xxx Dual core or Upto 1.90 GHz 1 MB L2 Cache 800 MHz900 Single core or 2.20 GHz

Netbook Intel® Atom™ processor 945GSE Intel Wifi Link (802.11 b/g) N270 1.60 GHz 512 KB L2 533 MHz

Server Roadmap GuidanceThis 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 X3370 3.00 GHz 12 MB L2 Cache 1333 MHz

Entry-level UP Intel® Xeon® processor E3110 3.00 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.

1 “Virtualization Changes Virtually Everything,” Gartner Special Report, March 28, 2008.

2 We consider a system to be in a "provisioned state" when it is able to communicate with the Intel Set up & Configuration Service (Intel SCS); is successfully integrated into our management system; and can be remotely managed by the management application.

3 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.

4 Enabling Intel® Turbo Boost Technology (Intel® TBT) requires a PC with a processor with Intel TBT capability. Intel TBT performance varies depending on hardware, software and overall system configuration. Check with your PC manufacturer on whether your system delivers Intel TBT. For more information, see: www.intel.com/technology/turboboost.

5 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.

Ö Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitectures.

Client table - OEMs and other brands

Intel® Core™2 Duo processor

based Desktop PCsOEMIntel® Pentium® processor

E2000 sequence based Desktop PCs

Optiplex* 360, 760, 960; Vostro 220 Optiplex* 360, 760; Vostro 220 Latitude* E6400, E6500, E4300, E4200Latitude* E6500, E6400, E5400, E5400D,

E5500, E4300, E4200, E6400 ATG, Latitude XT2

Tablet, Precision* M2400, M4400, M6400

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

Intel® Centrino® 2 processor

technology based Mobile PCs

Intel® Centrino® Pro processor

technology based Mobile PCs

Wipro* SuperGenius* / Wipro I-Value

37455, 37255, 38105, 52105, 52255

Wipro* SuperGenius* / Wipro I-Value 37455,

37255, 38105, 52105, 52255

Wipro* Notebook WLG7E1100, WLG7E1100V,

WLG7B1100, WLG7B1100V, WNBMEM4712-EB,

WNBMEM4712-ER, WNBMEM4702-ER,

WNBMBM2710-ER

Wipro* Notebook 7E1102CP series (Centrino

Pro). Wipro* Notebook WNBMEM4710-ER,

WNBMEM4710-EB, WNBMEM4700-ER,

WNBMBM2710-ER Series (Centrino 2)

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

Satellite* A300, L310 & M300 series, Tecra* M series,

Portege* M700, M800 & R500 series

Tecra M Series, Portege M700

Model numbers and configurations of OEMs are subject to change without notice and may be available at their sole discretion

ThinkPad* R series and SL series ThinkPad* X series, T series and W seriesThinkCenter 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

Veriton* Series, Acer* Power Series, Aspire Series, Extensa Series, Aspire IE-3218, Aspire IE-3220, Aspire L3600 Series uSFF

Veriton* Series, Acer* Power Series, Extensa Series, Aspire IE-3470, Aspire IE4730

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

Zenith Business PC Models G-31,

Q-35, Q-45

Zenith Business PC Models G-31, Q-35Zenith Business Admirale Plus, Director Plus Ultra,

Director Plus

Zenith Business Admirale Plus, Director Plus

Ultra, Director Plus

Server table - OEMs and other brands

OEM

Intel® Xeon®

processor 3000 sequence

based Servers (UP)

Intel® Xeon® processor

5500 series (Nehalam)

based Servers (DP)

Intel® Itanium® processor

based Servers

Intel® Xeon® processor 5000

sequence based Servers (DP)

Intel® Xeon® processor

7000 sequence based

Servers (MP)

Acer* Altos* G330Mk2 (Tower) Altos* R920Altos* G540 (Tower), R720 Rack 2U,

R520 Rack 1U

PowerEdge* R900PowerEdge* 2900 (Tower), 2950 (Rack),

1950 (Rack), 1900 (Tower), M600 Blades,

Precision T3500, T5500 and T7500

T100 (Tower), T300 (Tower),

R200 (Rack), R300 (Rack)

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)

HCL Infiniti* Global line*

4700FC

x3100, x3200 M2, x3250

M2,x3350, HS12

System x3400, x3400M2, x3500,

x3500M2 x3450, x3550, x3610, x3650,

x3650M2, HS21, HS21XM, HS22

HS22 (Blades 2 Socket), x3650M2 (2U

2Socket), x3550M2 (1U 2 Socket),

x3400M2 (Tower 2 Socket), x3500M3

(Tower 2 Socket), iDataplex (2 Socket)

x3850M2, x3950 M2

HP ProLiant* Servers -ML150G5,

ML350G5, Ml370G5, DL180G5,

DL160G5, DL360G5, DL380G5,

BL460c, BL480c, BL260c, BL220c

HP ProLiant* Servers - ML110G5,

DL120, DL320G5p, ML310G5

HP Integrity* Bl860c, Bl870c,

rx2660, rx3600, rx6600, rx7640,

rx8640, Superdome*, NS1200,

NS14200, NS16200

HP ProLiant* Servers -

DL580G5

Model numbers and configurations of OEMs are subject to change without notice and may be available at their sole discretion

Sun Blade* X6270, Sun BladeX6275,

Sun Fire* X4170, X2270

Sun Fire* X4450, SunBlade*

X8450, X6450

Wipro* NetPower* Z1502, Z1505,

Z1107, Z1105

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* SMP Xeon

Kona 5800 series (8-16

sockets), Z4402 (4 socket)

Wipro* Netpower* X 5800 XpressWipro* NetPower* Z2531, Z2533, Z2534,

Z2131, Z2135, Z2235, Z2541, Z2542,

Z2543, Z2544, Z2243, Z2244, Z2141,

Z2142, Z2241, Z2242, Wipro* NetBlade*

1600N with Wipro* NetPower* Z2601N

PowerEdge T610 (Tower), R710

(Rack), R610 (Rack), M610 (Blades),

M710 (Blades)

Sun Blade* X6270, Sun Blade X6275,

Sun Fire* X4170, X4270, X2270

Altix* XE270, Altix XE340,

Altix XE500

Altix* 450, Altix 4700

Acer Altos G540 M2 (Tower), R520M2

(1U Rack), R720 M2 (2U Rack)

RD210, RD220 (1 U & 2 U Rack),

TD200, TD200X (Tower)

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)

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Intel® processor reference chart - Desktop PCs

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3.333.203.203.062.932.66

i7-975i7-965i7-960i7-950i7-940i7-920

Intel® Core™ i7 processors

444444

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Intel® Core™2 Quad processors Q9000 and Q8000 sequence~

44444444

12 MB L26 MB L26 MB L24 MB L24 MB L2

8 MB L38 MB L38 MB L38 MB L38 MB L38 MB L3

12 MB L212 MB L212 MB L2

12 MB L212 MB L26 MB L26 MB L26 MB L24MB L24 MB L24 MB L2

13331333133313331333133313331333

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4Technology

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3Intel® 64

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3Intel® 64

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Intel® Core™2 Duo processors E8000 and E7000 sequence~

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Intel® processor reference chart - Desktop PCs

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3Intel® 64

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Intel® processor reference chart - Mobile PCs

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3Intel® 64

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Intel® Core™2 Duo processors based on Centrino® 2 processor technology

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T9900T9800T9600T9550T9400P9700P9600P9500P8800P8700P8600P8400

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Intel® Core™2 Duo processors (Small Form Factor) based on Centrino® 2 processor technology

SP9600SP9400SP9300SL9600SL9400SL9300SU9600SU9400SU9300

2.532.402.262.131.861.601.601.401.20

106610661066106610661066800800800

6 MB6 MB6 MB6 MB6 MB6 MB3 MB3 MB3 MB

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

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P

P

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Intel® processor reference chart - Mobile PCs

Intel® Core™2 Solo processors (Small Form Factor) based on Centrino® processor technology

SU3500SU3300

1.401.20

800800

3 MB3 MB

PPP

PP1

1

Intel® Celeron® processors

T3100T3000T1700T1600900585575

1.901.801.831.662.202.162.00

800800667667800667667

1 MB 1 MB 1 MB 1 MB 1 MB 1 MB1 MB

P

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Execute5Disable Bit

Enhanced IntelSpeedStep®Technology

3Intel® VT

Clock

Speed

(GHz)

Processor

Number

Intel® Brand or

Processor Family L2 Cache Cores

Front

Side Bus

(MHz)

Intel® Technologies

3Intel® 64

PP

667

533/400

667

533/400

667

533/400

533/400

1066

1066

1066

1066

1066

1066

1066

1066

1066

1.66

1.60

1.66

1.60

1.66

1.42

1.60

2.67

2.13

2.40

2.13

2.40

2.13

2.13

2.93

2.40

9150M

9150N

9140M

9140N

9130M

9120N

9110N

X7460

L7455

E7450

L7445

E7440

E7430

E7420

E7220

E7210

104W

104W

104W

104W

104W

104W

75W

130W

65W

90W

50W

90W

90W

90W

80W

80W

2

2

2

2

2

2

1

6

6

6

4

4

4

4

2

2

Intel® Itanium® processors 9000 sequence~

Intel® Xeon® processors 7000 sequence~

Cache

Front

Side Bus

(MHz)

ÖIntel® QPISystem

Type

24 MB L3

24 MB L3

18 MB L3

18 MB L3

8 MB L3

12 MB L3

12 MB L3

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

MP

MP

MP

MP

MP

MP

MP

MP

MP

MP

MP

MP

MP

MP

MP

MP

1333

1333

1333

1333

1333

1333

1333

1333

1333

1333

3.20

2.93

2.66

3.16

3.00

2.83

2.83

2.66

2.66

2.50

3.16

3.00

3.00

W3570

W3540

W3520

X3380

X3370

X3360

L3360

X3350

X3330

X3320

E3120

E3110

L3110

130W

130W

130W

95W

95W

95W

65W

95W

95W

95W

65W

65W

45W

4

4

4

4

4

4

4

4

4

4

2

2

2

Intel® Xeon® processors 3000 sequence~?8 MB L3?8 MB L3?8 MB L3

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

UP

UP

UP

UP

UP

UP

UP

UP

UP

UP

UP

UP

UP

6.4 GT/s

4.8 GT/s

4.8 GT/s

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.

1600

1333

1600

1600

1600

1600

1333

1333

1333

1333

1333

1333

1333

1333

1333

1333

1333

1600

1333

1333

1333

1066

3.20

2.93

2.80

2.66

2.53

2.40

2.26

2.26

2.13

2.13

2.00

1.86

3.40

3.33

3.20

3.00

3.00

2.80

3.16

3.00

3.00

2.83

2.66

2.66

2.50

2.50

2.33

2.33

2.00

3.40

3.50

3.33

3.00

1.86

W5580

X5570

X5560

X5550

E5540

E5530

E5520

L5520

E5506

L5506

E5504

E5502

X5492

X5470

X5482

X5472

E5472

E5462

X5460

X5450

E5450

E5440

L5430

E5430

L5420

E5420

L5410

E5410

E5405

X5272

X5270

X5260

L5240

E5205

130W

95W

95W

95W

80W

80W

80W

60W

80W

60W

80W

80W

150W

120W

120W

120W

80W

80W

120W

120W

80W

80W

50W

80W

50W

80W

50W

80W

80W

80W

80W

80W

40W

65W

4

4

4

4

4

4

4

4

4

4

4

2

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

4

2

2

2

2

2

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

4.80 GT/s

4.80 GT/s

4.80 GT/s

4.80 GT/s

Intel® Xeon® processors 5000 sequence~

Cache

Front

Side Bus

(MHz)

ÖIntel® QPISystem

Type

8MB L3

8MB L3

8MB L3

8MB L3

8MB L3

8MB L3

8MB L3

8MB L3

4MB L3

4MB L3

4MB L3

4MB L3

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

12MB L2

6MB L2

6MB L2

6MB L2

6MB L2

6MB L2

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

DP

Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitectures.

For regular updates, log onto http://www.intel.com/in/irdonline

Copyright © 2009, Intel Corporation. All rights reserved. Intel, the Intel logo, Centrino, Intel Atom, Intel Core, Core Inside, Pentium, Pentium Inside, Intel vPro, Itanium, Itanium Inside, Xeon, Xeon Inside, Celeron, Celeron Inside and Intel PRO are trademarks of

Intel Corporation in the U.S. and other countries. *Other names and brands may be claimed as the property of others.

www.intel.com/in/irdonline