Intel® Roadmap Directions 2014€¦ · and guidance. The spotlight in this edition of Intel® Roadmap Directions is on 2 in 1 devices with Intel Inside®. Discover how an Intel®

Intel® Roadmap Directions 2014A Resource Guide for CIOs and IT Professionals

Volume 2 • 2014 www.intel.in/directions |

2 in 1 devices powered by Intel. Always ready for business.In Focus

INTEL® ROADMAP DIRECTIONS 20142

WelcomeWelcome to the Intel® Roadmap Directions

2014 Volume 2 – an unparalleled resource

that senior IT decision makers and managers

can rely on for the latest updates on Intel

technology, as well as Intel specific news

and guidance.

The spotlight in this edition of Intel® Roadmap

Directions is on 2 in 1 devices with Intel

Inside®. Discover how an Intel® powered

2 in 1 provides a mobility boost for your

business. This edition furthermore focuses on

the latest Intel® Xeon® Processor E7 v2 Family

and how you can make business intelligence

your competitive advantage.

You will also find key insights on critical Intel®

technologies and products that drive Big Data

excellence like Intel® Ethernet Converged

Network and Server Adapters, Hadoop*, and

Intel® Solid-State Drives for data centers and

professionals. Additionally, you can read more

about the latest Intel® Pentium® Processor

that is optimized for business and delivers

great advantages like enhanced performance

and improved power efficiency.

As always, this volume of Intel® Roadmap

Directions has been specially designed to give

your business an edge over your competition

and help you steer your business into a more

efficient future.

Sometimes a laptop. Sometimes a tablet.Always ready for business.A 2 in 1 lets you work in more ways

It’s a touch-based tablet and a powerful business laptop—both devices in a single, easy-to-use,

portable platform. Yet it offers enterprise-grade features that IT demands for security and

manageability. A 2 in 1 helps simplify work in nearly every type of business.

Replace Your Old PC with a New 2 in 1 Device

Full peripheral

compatibility

Full Windows*

and MS Office*

functionality

Works with

existing

infrastructure

IT control

over OS and

app updates

Lower

Total Cost of1Ownership

2 in 1 devices offer the user experience users want, and the security and

manageability features IT needs. Powered by Intel® Architecture.

A PC when you need it

• PC performance

• PC programs

• Inputs (mouse & USB)

• Multitasking

• Slim form factors

A tablet when you want it

• Touch

• Long battery life

• Apps ecosystem

• Instant on

A RESOURCE GUIDE FOR CIOS AND IT PROFESSIONALS 3

• Access vital information

how and when you need

it, wherever you are in.3the facility.

• Use the multitouch

screen to zoom in on 4medical images.

• View records and imaging

side-by-side with 2powerful multitasking.

• Collaborate with

colleagues and capture

imagery for records

using the on-board

high-definition camera.

• Twist, flip or attach a

keyboard for charting

and creating reports.

• Share the screen for easy

patient consultation.

• From the office to the

classroom, simply hit the

power button, and the

device wakes in a flash,

ensuring your students

will be ready to learn 5with you.

• Stream an educational

documentary in high

definition for your 3students.

• Conference with students

and collaborate with

colleagues throughout

the institution or around

the world via smooth

streaming video chat.

• Convert to a laptop in the

research lab to model

data, access servers, or

create multimedia

findings and reports.

• Present your curriculum

wirelessly over a

classroom projector with

Intel® Pro Wireless 6Display.

• Adapt to your work:

Convert instantly from

laptop to tablet to fit

your environment and

needs. Convert it back

anytime without losing 3work or time.

• Manage remotely: IT

can manage and

automatically update

devices through their

existing infrastructure

with Intel® vPro™ 7,8technology.

• Work securely: Built in

Intel® technologies help 9protect identities, data

10and the network.

• Choose the best features:

Select the right 2 in 1 for

your work from multiple

choices of Intel®

processors and features.

Versatility in

Healthcare

Empowering

Educators

Flexible, Manageable

& Secure in the

Enterprise

Flexible and Manageable – Together Again

Designed for Real Work

Full PC Performance for Real Productivity

With an Intel® processor-based 2 in 1, you get full PC performance for smooth 2multitasking of the applications you use to create the type of content you need.

Complete Windows 8* Compatibility

With both touch and desktop modes, you can install all your favorite tablet apps

from the Windows* Store, plus use all the desktop business and productivity

tools you’re used to in one portable, convenient, yet powerful PC.

Big Screen for Serious Work and Viewing

A 2 in 1 allows you to get real work done with a high-resolution display. Draw,

edit photos, write long documents, and view data on one screen. Watch full

high-definition videos and movies in stunning quality.

Built for Business

Enterprise-Grade Security

From the Intel® Atom™ processor with built-in threat resistance, to the 4th

generation Intel® Core™ vPro™ processor with embedded security and

manageability capabilities, Intel® processor-based 2 in 1s offer the levels of

security that companies require, from today’s small businesses to the enterprise.

IT-Ready Manageability

With Intel® vPro™ technology, these powerful devices enable IT to track and

remotely manage each device using the familiar enterprise-class IT tools already

established in the infrastructure. It’s great for business and great for IT.

Works How and When You Do

Adaptable and Flexible

• Twist, flip or attach a keyboard, and a 2 in 1 instantly converts from a

powerful PC to a handy tablet—and back again

• Instant-on, always ready, and constantly up-to-date with your information

• Create the way you want—pen, keyboard, or touch

Find the Form Factor that Fits You

Pick the form factor that best fits your style, from the slimmest 2 in 1s with

detachable keyboard, perfect for sliding in a slip-case, to high-powered

Ultrabook™ 2 in 1s that give you the highest performing portable PC and

tablet together.

High-Powered Performance. Low Power Consumption.

Nothing gives you the great combination of full PC performance, business

features, flexibility, and incredible battery life like a 2 in 1 powered by an

Intel® processor.

Read more at www.intel.com/2in1

Get All You Need in a 2 in 1 with

Intel Inside®

INTEL® ROADMAP DIRECTIONS 20144

Presenting the Latest Intel® Pentium® ProcessorsImpressive performance for work and play

With the attributes of Intel’s newest microarchitecture, an Intel® Pentium®

processor-based PC is not only reliable, but offers the solid performance

needed to run applications simultaneously and efficiently.

PCs based on the Intel® Pentium® processor are well suited to the home and

office. With improved power efficiency, an Intel® Pentium® processor system

can be built to meet new global energy standards, making it an excellent choice

for government and education.

Intel® Pentium® Processor G3000 Series versus Previous Generation

Impressive performance for work and play

Manufacturing

Process

Intel® Smart

Cache

Integrated

Memory

Controller

Memory Speed

Processor 12Graphics

Intel®

Virtualization

Technology 13(Intel® VT-x)

Recommended

Intel® Express

Chipset

Read more at www.intel.com/pentium

Exceptional Value with Intel® Pentium® Processor G3000 Series

Great Performance with Lower Power

Based on 22nm 3-D Tri-Gate Transistor Technology.

Enhanced Graphics Performance & Capabilities11Features Intel® HD Graphics with support for up to 3 displays.

Windows* 8 Support

Touch can now be experienced in affordable PCs that are equipped

with touchscreens!

Higher Speed Memory Support

Delivers faster application performance with up to DDR3 1600MHz support.

11Support for ECC Memory (Error-Correcting Code Memory)

Avoids system crashes by detecting and correcting memory errors.

22nm

3MB L3 Shared

Yes

DDR3 1333/1600

MHz

Intel® HD

Graphics with

support for up to 113 displays

Yes

Intel® H87 &

Intel® H81

Express Chipset

22nm

3MB L3 Shared

Yes

DDR3 1333/1600

MHz

Intel® HD

Graphics with

DirectX* 11

Yes

Intel® H77 &

Intel® H61

Express Chipset

32nm

3MB L3 Shared

Yes

DDR3 1066/1333

MHz

Intel® HD

Graphics

Yes

Intel® H61

Express Chipset

Intel® Pentium®

Processor G3000

Series

Intel® Pentium®

Processor G2000

Series

Intel® Pentium®

Processor G800

Series

When you want results in near real-time,

every time

The next generation has arrived

Run your biggest, most complex data on Intel® Xeon® processor E7 v2 family–based servers.

The latest processors accommodate and accelerate in-memory analytics and can scale rapidly to

manage data sets of increasing size.

So take a closer look. You’ll discover the many ways these top-of-the-line server processors can

make business intelligence your competitive advantage.

Read more at http://www.intel.in/content/www/in/en/processors/xeon/xeon-e7-v2-family-details.html

The Intel® Xeon®Processor E7 v2 Family

Up to double the 14,15,16performance

In addition to providing up

to double the performance

over the preceding 14,15,16generation, these new

processors deliver a range

of high-performance

capabilities for business

processing, analysis, and

technical computing.

Up to triple the 14,17memory capacity

Gain up to triple the

previous generation’s

memory capacity in

scalable two-, four-, and

eight-socket CPU

configurations. Each socket

supports up to 1.5 TB of

memory for complex,

data-demanding workloads.

Up to quadruple the 14,15,18I/O bandwidth

Increase data throughput

and reduce I/O latency with

Intel® Integrated I/O, which

supports the PCI Express*

3.0 specification to improve 14,15,19bandwidth. You’ll enjoy

extra capacity and flexibility

for storage and networking.

Higher availability and uptime

Reduce the frequency and cost of server downtime while protecting the integrity

of your critical data with Intel® Run Sure Technology. It’s just one of the many

advanced features that are now available on the Intel® Xeon® processor E7 v2

family to help ensure reliability, availability, and serviceability (RAS).

UP TO

80%Higher

14,20PerformanceEst. SPECint*_rate_base2006

Intel® Xeon® Processor E7-4890 v2

(37.5M Cache, 2.8 GHz)

AT UP TO

80%14, 21

Est. Lower TCO

ReduceYour RISC

1.0 Baseline: IBM POWER*750

(POWER7+, 4 GHz)

Software and workloads used in performance tests may have been optimized for performance only on Intel

microprocessors. Performance tests, such as SYSmark and MobileMark, are measured using specific computer systems,

components, software, operations and functions. Any change to any of those factors may cause the results to vary. You

should consult other information and performance tests to assist you in fully evaluating your contemplated purchases,

including the performance of that product when combined with other products.

Up to 2xUp to 3x0000

00000000

Up to 4x

INTEL® ROADMAP DIRECTIONS 2014 5

Fast Access, Safer Data

Intel® Solid-State Drives for Business

Learn more at http://www.intel.in/content/www/in/en/solid-state-drives/ssd-small-medium-

business-module.html

Why Intel® Solid-State Drives?

Intel® Solid-State Drive (SSD) is a product from the worldwide leader in silicon

innovation. Businesses rely on Intel® processors to power their PCs. Intel® SSDs

come with this same quality and reliability built-in.

Intel® Solid-State Drive Pro 1500 Series: Accelerates business storage and

lowers total cost of ownership with integrated drive encryption, remote

management, and long battery life. In addition, the Intel® SSD Pro 1500 Series 23is designed to meet an annualized failure rate (AFR) of less than 1% .

Experience the performance, manageability, and reliability of an Intel® SSD

and deliver like a pro.

A RESOURCE GUIDE FOR CIOS AND IT PROFESSIONALS6

Intel® SSD Data Center Family

Intel® Solid-State

Drive DC S3700 Series:

Ensuring fast and

consistent command

response times

with low power

consumption, the Intel®

SSD DC S3700 Series

delivers superior

performance with 4 KB

random read

performance of up to

75,000 input/output

operations per second 22(IOPS) and 4 KB write

performance of up to 2236,000 IOPS , while

reducing overall

energy costs.

Intel® Solid-State

Drive DC S3500 Series:

The Intel® SSD DC

S3500 Series combines

fast, consistent read

performance with

strong data protection

and low active power

levels to provide

superior quality of

service for video

conferencing, big data

analytics, or virtual

client applications.

Intel® Solid-State

Drive 910 Series:

Enabling a new way of

looking at data center

and cloud storage with

high endurance and

great flexibility, the

Intel® SSD 910 Series

brings storage

performance to the

server CPU through the

PCIe* bus, with up to 2

gigabytes per second

(GB/s) sequential read

and 1.5 GB/s sequential

write bandwidth.

INTEL® SOLID-STATE DRIVE ROADMAP

PRODUCT FAMILY

PRODUCT NAME

CAPACITY(GB)

SEQUENTIAL READ/WRITE(UP TO MB/S)

RANDOM 4KB READ/WRITE (UP TO IOPS)

FORM FACTOR

INTERFACE

100 / 200 /

400 / 800

80 / 120 /

160 / 240 /

300 / 400 /

480 / 600 /

800

400 / 800

80 / 120 /

180 / 240 /

360 / 480

Intel® SSD

DC S3700

Series

Intel® SSD

DC S3500

Series

Intel® SSD

910 Series

Intel® SSD

Pro 1500

Series

500 / 460

500 / 450

2000 / 1000

540 / 490

75,000 /

36,000

75,000 /

11,500

180,000 /

75,000

48,000 /

80,000

2.5-inch

2.5- and

1.8-inch

PCI Express*

add-in card

2.5-inch

M.2

SATA 6

Gb/s

SATA 6

Gb/s

PCI

Express* x8

SATA 6

Gb/s

Data Center Products

Professional Product

What can You Expect?

How could business PCs with Intel® SSDs inside positively impact your

workplace productivity and efficiency? Here are some ideas:

24• With over 85% lower failure rates vs. traditional hard drives, Intel® SSDs

help protect your data and keep your staff working productively.

25• A laptop goes missing every 50 seconds . Protect vital business

information with an Intel® SSD featuring built-in encryption.

• Calculate, create and communicate. With speeds up to 140% faster than the 26hard disk drives inside most PCs , Intel® SSDs help employees spend more

time working and less time waiting.

• Hot customer prospect on the phone? Need info from that one, critical file?

Get information at your fingertips almost instantly with an Intel® SSD inside

your business PC.

Intel® SSD Professional Family

Hadoop* is increasingly popular for processing big data. Dramatic

improvements in mainstream compute and storage resources help make

Hadoop clusters viable for most organizations. But to provide a balanced

system, those building blocks must be complemented by 10 Gigabit Ethernet

(10GbE), rather than legacy Gigabit Ethernet (GbE) networking.

Introducing Hadoop

Hadoop is an Apache* software framework that analyzes petabytes of

unstructured data and transforms it into a more manageable form for

applications to work on. Based on Google’s MapReduce* and distributed file

system work, Hadoop is designed specifically to be deployed on commonly

available, general-purpose network and server hardware.

The Need for a Balanced System

The pace of server innovation has continued unabated for many years, and

mainstream systems now deliver massive processing power. To keep pace with

that capability, it is vital to deploy Hadoop in the environment it was designed

for, one that is balanced between compute, storage, and networking.

Hadoop* Clusters Built on10 Gigabit Ethernet

Learn more at www.intel.com/go/ethernet

Guide to building a balanced system on a

cost-effective 10GBASE-T foundation

Realizing the Full Benefits of 10 Gigabit Ethernet

A Hadoop infrastructure based on well-matched sets of building blocks includes 10GbE networking to support high-performance compute and storage resources.As adoption in mainstream environments continues to accelerate, greater availability of 10GbE equipment helps drive down the prices of 10GbE network adapters and switches.

Ethernet switching innovation and product maturation of 10GBASE-T switching ports also play significant roles in reducing the deployment costs of Hadoop clusters, especially when compared to the cost of optical cabling and transceivers.

10GbE switching also offers advancements over GbE switching beyond bandwidth capacity in the areas of lower switching latency, better traffic balancing and failover, and greater scalability as clusters grow.

Another instance of 10GbE innovation brought on by its widespread adoption, 10GBASE-T connectivity is now integrated onto mainstream servers through LAN on Motherboard (LOM) designs. By taking advantage of this LOM approach, end customers can benefit from 10GbE without additional expense beyond the cost of the core server platform. These solutions are powered by the Intel® Ethernet Controller X540, the industry’s first fully integrated (MAC and PHY) 10GBASE-T controller designed for LOM and converged network adapters.

Hadoop Designed with a Balanced System in Mind

ComputeIntel® Xeon® Processor E5 Family

Intel® Data Direct I/O

Network10 Gigabit Ethernet Switches

and Converged Network Adapters

StorageSolid-State Drives

Faster I/O

Name Node(JobTracker)

Data Nodes(TaskTrackers)

Conclusion

Building a simple Hadoop cluster is within the realm of everyday IT. Building an environment that is balanced between compute, storage, and network resources is fundamental to the success of the project. Intel® Xeon® processor-based servers, Intel® Ethernet 10GbE Converged Network Adapters, and Arista switches are the key hardware elements for building cost-effective Hadoop clusters. New 10GBASE-T products, including servers with LOM connections based on the Intel® Ethernet Controller X540 and 10GBASE-T switches from Arista, continue to make 10GbE more cost effective.

Intel® Platform I/O Enhancements

Building your Hadoop servers on an all-Intel foundation gives you the benefit of synergies from cohesive engineering throughout the platform based on the

27Intel® Xeon® processor E5 family and Intel® Ethernet Converged Network Adapters and controllers.

Intel® Integrated I/O movesthe I/O subsystem onto the processor, reducing server platform latency up to 30

28percent while increasing 29bandwidth by up to 2x with

support for the PCI Express* 3.0 specification.

Intel® Data Direct I/O Technology (Intel® DDIO) allows I/O traffic to be directed straight to the processor cache (instead of through memory), reducing latency as well as reducing power consumption by allowing memory to stay in a lower power state longer.

Intel® Ethernet products deliver innovation andtrusted performance with trusted, reliable hardwareand software drivers thatdraw from three decades of Ethernet leadership.

A RESOURCE GUIDE FOR CIOS AND IT PROFESSIONALS 7

Desktop Roadmap Guidance¤This latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your

Desktop deployments.

¤ Please refer to Desktop Reference Tables for getting the exact SKU information. ¥ The Clock Speed mentioned is the starting speed for this sequence and the Cache mentioned is the starting cache memory for this sequence.

Mobile Segment Processor Chipset Processor No. Clock Speed (Base) Cache Wireless Solution

¥ ¥Portable Workstation Intel® Core™ i7 Processor Mobile Intel® 8 Series Chipset i7- 4000QM/i7-4000HQ Minimum 2.00 GHz Minimum 4 MB L3 Cache Intel® Centrino® 6000/7000

Series & above & above Series (802.11 a/g/n)

¥ ¥Performance Notebook Intel® Core™ i7 Processor Mobile Intel® QM87 Chipset i7-4800HQ/i7-4900HQ/ Minimum 2.30 GHz Minimum 6 MB L3 Cache Intel® Centrino® 6000/7000

with vPro™ Technology i7-4800MQ/i7-4900MQ & above & above Series (802.11 a/g/n)

¥ ¥Mainstream Notebook Intel® Core™ i3/i5 Mobile Intel® 8 Series Chipset i3-4000M/i5-4300M/ Minimum 2.60 GHz Minimum 3 MB L3 Cache Intel® Centrino® 6000/7000

Processors i3-4000U/i5-4000U Series & above & above Series (802.11 a/g/n)

¥ ¥Ultrabook™ Intel® Core™ i5/i7 Mobile Intel® 8 Series Chipset i5-4300U/i7-4600U Minimum 1.40 GHz Minimum 3 MB L3 Cache Intel® WiFi Link 6000/7000

Processors integrated in the processor Series & above & above Series (802.11 a/g/n)

¥ ¥Small Form Factor Intel® Core™ i3/i5/i7 Mobile Intel® 8 Series Chipset i3-4000U /i5-4300U/ Minimum 1.40 GHz Minimum 3 MB L3 Cache Intel® WiFi Link 6000/7000

(less than 1.5Kg weight) Processors integrated in the processor i7-4600U Series & above & above Series (802.11 a/g/n)

¥ ¥Value Notebook Intel® Celeron® Mobile Intel® 8 Series Chipset 2900 Dual-Core Minimum 1.10 GHz Minimum 2 MB L3 Cache Intel® WiFi Link (802.11 b/g)

Processor Processor Series & above & above

Mobile Roadmap Guidance¤This latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your

Mobile deployments.

¤ Please refer to Mobile Reference Tables for getting the exact SKU information. ¥ The Clock Speed mentioned is the starting speed for this series and the Cache mentioned is the starting cache memory for this series.

A RESOURCE GUIDE FOR CIOS AND IT PROFESSIONALS8

Desktop Segment Processor Chipset Processor No. Clock Speed Cache

¥ ¥ Enthusiast Desktop Intel® Core™ i7 Processor Intel® X79 Chipset Intel® Core™ i7 Processor Minimum 3.40 GHz Minimum 8 MB L3 Cache 4000 Sequence & above & above

¥ ¥Enterprise Managed Intel® Core™ i5 Processor Intel® Q87 Chipset Intel® Core™ i5 Processor Minimum 2.30 GHz Minimum 4 MB L3 Cache

Desktop with vPro™ Technology 4000 Sequence & above & above

¥ ¥ Advanced Desktop Intel® Core™ i3 Processor Intel® 8 Series Chipset Intel® Core™ i3 Processor Minimum 2.90 GHz Minimum 3 MB L3 Cache

4000 Sequence & above & above

¥ ¥ Evolving Desktop Intel® Pentium® Processor Intel® 8 Series Chipset Intel® Pentium® Processor Minimum 2.60 GHz Minimum 3 MB L3 Cache

G3000 Sequence & above & above

¥ ¥ Basic Desktop Intel® Celeron® Processor Intel® 6 Series Chipset Intel® Celeron® Processor Minimum 2.40 GHz Minimum 2 MB L3 Cache

G1600 Sequence & above & above

Server Roadmap Guidance¤This latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your

Server deployment.

¤ Please refer to Server Reference Tables for getting the exact SKU information. ¥ The Clock Speed mentioned is the starting speed for this series and the Cache mentioned is the starting cache memory for this series.

Workstation Segment Processor Clock Speed Cache FSB / QPI

¥ ¥Performance DP Workstation Intel® Xeon® Processor E5-2600 v2 Series Minimum 1.80 GHz & above Minimum 10 MB L3 Cache & above Up to 8.0 GT/sec QPI

¥ ¥Mainstream DP Workstation Intel® Xeon® Processor E5-2600 v2 Series Minimum 1.80 GHz & above Minimum 10 MB L3 Cache & above Up to 8.0 GT/sec QPI

¥ ¥Entry DP Workstation Intel® Xeon® Processor E5-2600 v2 Series Minimum 1.70 GHz & above Minimum 10 MB L3 Cache & above Up to 8.0 GT/sec QPI

¥ ¥Performance UP Workstation Intel® Xeon® Processor E5-1600 v2 Series Minimum 3.70 GHz & above Minimum 10 MB L3 Cache & above N/A

¥ ¥Entry UP Workstation (1-skt) Intel® Xeon® Processor E3-1200 v3 Series Minimum 1.10 GHz & above Minimum 4 MB L3 Cache & above N/A

Workstation Roadmap Guidance¤This latest Intel® architecture building block roadmap update is intended to provide you with recommendations for your

Workstation deployment.

¤ Please refer to Server Reference Tables for getting the exact SKU information.. ¥ The Clock Speed mentioned is the starting speed for this series and the Cache mentioned is the starting cache memory for this series.

INTEL® ROADMAP DIRECTIONS 2014 9

Server Segment Processor Clock Speed Cache FSB / QPI

¥ ¥High-End Mission Critical Intel® Itanium® Processor 9500 Series Minimum 1.73 GHz & above Minimum 20 MB L3 Cache & above 6.4 GT/sec QPI & above

¥ ¥Mainstream Mission Critical Intel® Xeon® Processor E7-4800/8800 v2 Series Minimum 1.90 GHz & above Minimum 12 MB L3 Cache & above 6.4 GT/sec QPI & above

¥ ¥High-Density 4-skt Server Intel® Xeon® Processor E5-4600 v2 Series Minimum 2.20 GHz & above Minimum 10 MB L3 Cache & above Up to 8.0 GT/sec QPI

¥ ¥Performance DP Server Intel® Xeon® Processor E5-2600 v2 Series Minimum 1.80 GHz & above Minimum 10 MB L3 Cache & above Up to 8.0 GT/sec QPI

¥ ¥Mainstream DP Server Intel® Xeon® Processor E5-2600 v2 Series Minimum 1.80 GHz & above Minimum 10 MB L3 Cache & above Up to 8.0 GT/sec QPI

¥ ¥Entry DP Server Intel® Xeon® Processor E5-2400 v2 Series Minimum 1.80 GHz & above Minimum 10 MB L3 Cache & above Up to 8.0 GT/sec QPI

¥ ¥UP Server (1-skt) Intel® Xeon® Processor E3-1200 v3 Series Minimum 1.10 GHz & above Minimum 4 MB L3 Cache & above N/A

~ 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.

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

1. Analysis of Intel® Core™ i5 processor vs. competition. Source: Principled Technologies, report available at http://www.principledtechnologies.com/Intel/Tablet_TCO_0113.PDF. Intel does not control or audit the design or implementation of third party benchmark data or Web sites references in this document.

Intel encourages all of its customers to visit the referenced web sites or others where similar performance benchmark data are reported and confirm whether the referenced benchmark data are accurate and reflect performance of systems available for purchase.

2. Available on select Intel® Core™ processors requires an Intel® Hyper-Threading Technology-enabled system; consult with your PC manufacturer. Performance will vary depending on the specific hardware and software used. For more information, including details on which processors support Intel HT

Technology, visit www.intel.com/info/hyperthreading

3. Ultrabook™ products are offered in multiple models. Some models may not be available in your market. Consult your Ultrabook manufacturer. For more information and details, visit www.intel.com/ultrabook.

4. Built-in visual features are not enabled on all PCs and optimized software may be required. Check with your system manufacturer. Learn more at www.intel.com/go/biv.

Desktop table - OEMs and other brands

Veriton*

M200-Q87

EliteDesk*

800 G1

M93p/M73/M83/E73 M73z/M93z/E73z/E93z

Optiplex*

9020

Optiplex

9020 AIO

EliteOne*

800 G1

ProDesk* 600 G1,

ProDesk 400 G1

Veriton

M200-H81/B85

Optiplex 9020,

3020

ESPRIMO* P920 E90+,

ESPRIMO P920 E85+,

ESPRIMO Q920,

ESPRIMO P720 E90+,

ESPRIMO P720 E85+

M73à H81 Chipset/

M83a Q85 Chipset/

M93a Q87 Chipset/

M73/M83

E73/E93/M32/M73

Optiplex 9020

AIO

ProOne* 600 G1,

ProOne 400 G1,

EliteOne 800 G1

M73zà H81

Chipset

(Non Touch)/

M93za Q87

Chipset

(Non Touch/

Touch)

Veriton M200-H61

Optiplex 3010,

3020

202 G1, 3330 MT,

Pro 4300 SFF,

Pro 6300 SFF/MT,

Elite 8300 SFF/MT/SFF

/CMT, Pro 400 SFF/MT,

ProDesk 600 SFF/Twr,

Elite 800 SFF/Twr

Gateway*

M200-H61/Veriton

M200-H61

Pro 4300,

Pro 6300

Optiplex 3011

AIO

9With Intel® vPro™ Technology Standard Value

4th Gen Intel® Core™ Processor

Desktop AIO


Desktop AIO

Intel® Pentium®/Celeron® Processor

AIODesktop

OEM

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

Mobile table - OEMs and other brands

TravelMate*

P645 V,

Aspire* S7-392,

Aspire S3-391

Latitude*

E7240,

E7440

TravelMate P245 M, TravelMate P255,

P455, P645 M, Aspire E-series, Aspire V5-573G, Aspire R7

TravelMate

P245 M, TravelMate

P255 M, TravelMate

B113 M, Aspire E-series,

Aspire V5-572

Aspire P3

(Hybrid)

Iconia W4,

Iconia W5

E6440, E5440,

E6540, E5540

E6440, E5440, E6540, E5540, E7240, E7440, 3440, 3540 Vostro* 2420 Venue*

Pro

Venue

Pro

Venue

LIFEBOOK*

U904

LIFEBOOK

T904

LIFEBOOK E754,

E744, E734,

LIFEBOOK S904

STYLISTIC*

Q702,

STYLISTIC

Q704

STYLISTIC

Q584

HP* 1040,

HP 9480M

HP 810 G1 & G2 (Revolve*) / HP 820G1/HP 840G1/HP 850G1

HP 430G1 / HP 440 G1 & G2 /

HP 450 G1/G2

HP 240 G1 & G2 /

250 G2 & HP 248

HP

ElitePad*

900

Portege* Z30-A,

Portege Z30t-A,

Portege Z10t-A

Portege Z30-A, Portege Z30t-A, Portege R30-A,

Portege Z10t-A, TECRA Z40-A, TECRA Z50-A,

TECRA A50-A

Satellite Pro

B40-A

Wt310

9With Intel® vPro™ Technology


Ultrabook™ Notebook

Without Intel® vPro™ Technology


Tablet

Intel® Core™Processor

Intel®Celeron®Processor

Intel® Atom™Processor

Value

Intel®Celeron®Processor

OEM

SVP1321XPNB

L440/L540: i3/i5/i7, T440: i3 U Series/i5 U Series/i7 U Series, T440p/540p: i5/i7, T440s: i5/i7, A240: i3/i5/i7, X240s: i3U/i5U/i7U

TravelMate

P645 V

Portege R30-A,

TECRA* Z40-A,

TECRA Z50-A,

TECRA W50-A,

TECRA A50-A

Pro X 410

(Hybrid)


IBM* Tower: x3100M4, IBM Rack:

x3250M4, x3250M5 (with V3 series

CPU)

4-processor IBM System X3850* X6

ML310e Gen8 V2, DL320e Gen8 V24-processor HP ProLiant DL580 Gen8*

TX 100 S3, TX 140 S2, TX 120 S3p, RX100 S7,

PRIMERGY* TX100 S3p, PRIMERGY TX120 S3p,

PRIMERGY TX140 S2, PRIMERGY RX100 S88-processor Fujitsu PRIMEQUEST* 2800E

Server table - OEMs and other brands

Acer* AT110 F2 based on Intel C202 (Pedestal

Server), Acer AT310 F2 based on Intel C204

(Pedestal Server, 4U Rack Mountable), AR320 F2

based on Intel C204 (1U Rack Optimized Server)

Intel® Xeon® Processor E3-1200

Family – Single Socket/

Processor based Servers

Intel® Xeon® E7 2800/4800/

8800 v2 Processor Family –

Dual/Quad Processor based

and Expandable Servers

OEM

2-processor Cisco UCS B260 M4*,

4-processor Cisco UCS C460 M4,

4-processor Cisco UCS B460 M4

T110 II, R210 II4-processor Dell PowerEdge* R920

4-processor Huawei RH5885H* v3

4-processor NEC Express5800*/A2040b

IBM Tower: x3300M4, x3500M4; IBMRack: x3630M4,

x3650M4, x3530M4, x3550M4, x3650 M4 HD,

x3750M4; IBM Blade: Hs23, HS23E, x220, x240,

x440, x222, nx360 M4

DL160 Gen8, DL360e Gen8, DL 360p Gen8, DL 380e

Gen8, DL380p Gen8, BL460c Gen8, BL420c Gen8,

BL660c Gen8, DL560 Gen8, SL230/250/270 Gen8,

ML350e Gen8, ML350p Gen8

RX200 S8,RX200 S7, RX350S8, RX500 S7, RX300

S7, TX 150 S8, TX 300 S8, TX 300 S7, TX 200 S7,

PRIMERGY TX150 S8, PRIMERGY TX200 S7,

PRIMERGY TX300 S8, PRIMERGY RX200 S8,

PRIMERGY RX300 S8, PRIMERGY RX350 S8,

PRIMERGY RX500 S7

Acer AT350 F2 (Pedestal Server 4U Rackmountable),

AR360 F2 (1U RackOptimized), AR380 F2 (2U Rack

Optimized). All servers based on Intel C606 Chipset.

Intel® Xeon® Processor E5-2600 v2

& E5-2400 v2 Family – Dual

Socket/Processor based Servers

T320, T420, T620, R320, R420, R520,R620, R720,

R720xd, R820, M420, M520, M620, M820, C6220II,

C8220x, VRTX

2-processor Cisco UCS B22 M3, 2-processor Cisco

UCS B200 M3, 2-processor Cisco UCS C22 M3,

2-processor Cisco UCS C24 M3, 2-processor Cisco

UCS C220 M3, 2-processor Cisco UCS C240 M3

IBM Rack: x3750M4

BL660c Gen8, DL560 Gen8

PRIMERGY RX500 S7

Intel® Xeon® Processor

E5-4600 v2 Family –

Quad Socket/Processor

based Servers

R820, M820

4-processor Cisco UCS B420 M3*,

4-processor Cisco UCS C420 M3


DESKTOP PCs - Intel® processor reference chart

i7-4960X 3.60 4.00 1866 15 MB L3 6/12 130W

i7-4930K 3.40 3.90 1866 12 MB L3 6/12 130W

i7-4820K 3.70 3.90 1866 10 MB L3 4/8 130W ¤i7-4771 3.50 3.90 1600 8 MB L3 4/8 84W ¤i7-4770R 3.20 3.90 1600 6 MB L3 4/8 65W ¤i7-4770K 3.50 3.90 1600 8 MB L3 4/8 84W ¤i7-4770S 3.10 3.90 1600 8 MB L3 4/8 65W ¤i7-4770T 2.50 3.70 1600 8 MB L3 4/8 45W ¤i7-4770 3.40 3.90 1600 8 MB L3 4/8 84W ¤i7-4765T 2.00 3.00 1600 8 MB L3 4/8 35W ¤i5-4670K 3.40 3.80 1600 6 MB L3 4/4 84W ¤i5-4670R 3.00 3.70 1600 4 MB L3 4/4 65W ¤i5-4670S 3.10 3.80 1600 6 MB L3 4/4 65W ¤i5-4670T 2.30 3.30 1600 6 MB L3 4/4 45W ¤i5-4670 3.40 3.80 1600 6 MB L3 4/4 84W ¤i5-4570R 2.70 3.20 1600 4 MB L3 4/4 65W ¤i5-4570S 2.90 3.60 1600 6 MB L3 4/4 65W ¤i5-4570T 2.90 3.60 1600 4 MB L3 2/4 35W ¤i5-4570 3.20 3.60 1600 6 MB L3 4/4 84W ¤i5-4440S 2.80 3.30 1600 6 MB L3 4/4 65W ¤i5-4440 3.10 3.30 1600 6 MB L3 4/4 84W ¤i5-4430S 2.70 3.20 1600 6 MB L3 4/4 65W ¤i5-4430 3.00 3.20 1600 6 MB L3 4/4 84W ¤i3-4340 3.60 N/A 1600 4 MB L3 2/4 54W ¤i3-4330T 3.00 N/A 1600 4 MB L3 2/4 35W ¤i3-4330 3.50 N/A 1600 4 MB L3 2/4 54W ¤i3-4130T 2.90 N/A 1600 3 MB L3 2/4 35W ¤i3-4130 3.40 N/A 1600 3 MB L3 2/4 54W

4th Generation Intel® Core™ i7, i5 and i3 Processor Family (22nm)

¥ Need other compatible components like chipset and firmware

¤ Supports UltraHD resolution (3840x2160@60Hz on DP and eDP and 4096x2304@24Hz on DP, eDP and HDMI)

Intel® Brand or

Processor FamilyIntel® vPro™

7, ¥TechnologyIntel® HDGraphics

13Intel® VT

Base

Frequency

(GHz)

Processor

Number Cache

Cores /

Threads

Memory

Speed DDR3

Only (MHz)

Intel® Technologies

31Intel® 64

Intel® Turbo Boost 30Technology

- Max Turbo (GHz)

Power

(Max TDP)

i7-3970X 3.50 4.00 1600 15 MB L3 6/12 150W

i7-3960X 3.30 3.90 1600 15 MB L3 6/12 130W

i7-3930K 3.20 3.80 1600 12 MB L3 6/12 130W

i7-3820 3.60 3.80 1600 10 MB L3 4/8 130W

2nd Generation Intel® Core™ Processor Family (32nm)

DESKTOP PCs - Intel® processor reference chart

G3430 3.30 N/A 1600 3 MB L3 2/2 53W

G3420T 2.70 N/A 1600 3 MB L3 2/2 35W

G3420 3.20 N/A 1600 3 MB L3 2/2 53W

G3220T 2.60 N/A 1333 3 MB L3 2/2 35W

G3220 3.00 N/A 1333 3 MB L3 2/2 53W

G2140 3.30 N/A 1600 3 MB L3 2/2 55W

G2130 3.20 N/A 1600 3 MB L3 2/2 55W

G2120T 2.70 N/A 1600 3 MB L3 2/2 35W

G2120 3.10 N/A 1600 3 MB L3 2/2 55W

G2100T 2.60 N/A 1600 3 MB L3 2/2 35W

G2030T 2.60 N/A 1333 3 MB L3 2/2 35W

G2030 3.00 N/A 1333 3 MB L3 2/2 55W

G2020T 2.50 N/A 1333 3 MB L3 2/2 35W

G2020 2.90 N/A 1333 3 MB L3 2/2 55W

G2010 2.80 N/A 1333 3 MB L3 2/2 55W

J2900 2.41 2.66 1333 2 MB L3 4/4 10W

J2850 2.41 N/A 1333 2 MB L3 4/4 10W

Intel® Pentium® Processor G3000 & G2000 Series (22nm)

Intel® Brand or

Processor FamilyProcessor

Number

Base

Frequency

(GHz) Cache

Cores /

Threads

Memory

Speed DDR3

Only (MHz)

Burst

Frequency

(GHz)

Power

(Max TDP)Intel® HDGraphics13

Intel® VT


31Intel® 64

G1830 2.80 N/A 1333 2 MB L3 2/2 53W

G1820T 2.40 N/A 1333 2 MB L3 2/2 35W

G1820 2.70 N/A 1333 2 MB L3 2/2 53W

G1630 2.80 N/A 1333 2 MB L3 2/2 55W

G1620T 2.40 N/A 1333 2 MB L3 2/2 35W

G1620 2.70 N/A 1333 2 MB L3 2/2 55W

G1610T 2.30 N/A 1333 2 MB L3 2/2 35W

G1610 2.60 N/A 1333 2 MB L3 2/2 55W

J1900 2.00 2.41 1333 2 MB L3 4/4 10W

J1850 2.00 N/A 1333 2 MB L3 4/4 10W

J1800 2.41 2.58 1333 1 MB L3 2/2 10W

J1750 2.41 N/A 1333 1 MB L3 2/2 10W

Intel® Celeron® Processor G1800 & G1600 Series (22nm)

Intel® Pentium® Processor J2000 Series (22nm)

Intel® Celeron® Processor J1000 Series (22nm)

NOTEBOOKS - Intel® processor reference chart

i7-4960HQ 2.60 3.80 1600 6 MB L3 4/8 47W

i7-4940MX 3.10 4.00 1600 8 MB L3 4/8 57W

i7-4930MX 3.00 3.90 1600 8 MB L3 4/8 57W

i7-4910MQ 2.90 3.90 1600 8 MB L3 4/8 47W

i7-4860HQ 2.40 3.60 1600 6 MB L3 4/8 47W

i7-4850HQ 2.30 3.50 1600 6 MB L3 4/8 47W

i7-4810MQ 2.80 3.80 1600 6 MB L3 4/8 47W

i7-4800MQ 2.70 3.70 1600 6 MB L3 4/8 47W

i7-4760HQ 2.10 3.30 1600 6 MB L3 4/8 47W

i7-4750HQ 2.00 3.20 1600 6 MB L3 4/8 47W

i7-4712HQ 2.30 3.30 1600 6 MB L3 4/8 37W

i7-4712MQ 2.30 3.30 1600 6 MB L3 4/8 37W

i7-4710HQ 2.50 3.50 1600 6 MB L3 4/8 47W

i7-4710MQ 2.50 3.50 1600 6 MB L3 4/8 47W

i7-4702HQ 2.20 3.20 1600 6 MB L3 4/8 37W

i7-4702MQ 2.20 3.20 1600 6 MB L3 4/8 37W

i7-4700HQ 2.40 3.40 1600 6 MB L3 4/8 47W

i7-4700MQ 2.40 3.40 1600 6 MB L3 4/8 47W

i7-4650U 1.70 3.30 1600 4 MB L3 2/4 15W

i7-4610M 3.00 3.70 1600 4 MB L3 2/4 37W

i7-4610Y 1.70 2.90 1600 4 MB L3 2/4 11.5W

i7-4600U 2.10 3.30 1600 4 MB L3 2/4 15W

i7-4600M 2.90 3.60 1600 4 MB L3 2/4 37W

i7-4558U 2.80 3.30 1600 4 MB L3 2/4 28W

i7-4550U 1.50 3.00 1600 4 MB L3 2/4 15W

i7-4510U 2.00 3.10 1600 4 MB L3 2/4 15W

i7-4500U 1.80 3.00 1600 4 MB L3 2/4 15W

4th Generation Intel® Core™ i7 Processors (22nm)

Intel® Brand or



13Intel® VT

Base

Frequency

(GHz)

Processor

Number Cache

Cores /

Threads

Memory

Speed DDR3

Only (MHz)


31Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)



i5-4360U 1.50 3.00 1600 3 MB L3 2/4 15W

i5-4350U 1.40 2.90 1600 3 MB L3 2/4 15W

i5-4340M 2.90 3.60 1600 3 MB L3 2/4 37W

i5-4330M 2.80 3.50 1600 3 MB L3 2/4 37W

i5-4310M 2.70 3.40 1600 3 MB L3 2/4 37W

i5-4310U 2.00 3.00 1600 3 MB L3 2/4 15W

i5-4302Y 1.60 2.30 1600 3 MB L3 2/4 11.5W

i5-4300M 2.60 3.30 1600 3 MB L3 2/4 37W

i5-4300U 1.90 2.90 1600 3 MB L3 2/4 15W

i5-4300Y 1.60 2.30 1600 3 MB L3 2/4 11.5W

i5-4288U 2.60 3.10 1600 3 MB L3 2/4 28W

i5-4260U 1.40 2.70 1600 3 MB L3 2/4 15W

i5-4258U 2.40 2.90 1600 3 MB L3 2/4 28W

i5-4250U 1.30 2.60 1600 3 MB L3 2/4 15W

i5-4220Y 1.60 2.00 1600 3 MB L3 2/4 6W

i5-4210M 2.60 3.20 1600 3 MB L3 2/4 37W

i5-4210U 1.70 2.70 1600 3 MB L3 2/4 15W

i5-4210Y 1.50 1.90 1600 3 MB L3 2/4 11.5W

i5-4202Y 1.60 2.00 1600 3 MB L3 2/4 11.5W

i5-4200H 2.80 3.40 1600 3 MB L3 2/4 47W

i5-4200M 2.50 3.10 1600 3 MB L3 2/4 37W

i5-4200U 1.60 2.60 1600 3 MB L3 2/4 15W

i5-4200Y 1.40 1.90 1600 3 MB L3 2/4 11.5W


Intel® Brand or



13Intel® VT

Base

Frequency

(GHz)

Processor

Number Cache

Cores /

Threads

Memory

Speed DDR3

Only (MHz)


31Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)


i3-4158U 2.00 N/A 1600 3 MB L3 2/4 28W

i3-4120U 2.00 N/A 1600 3 MB L3 2/4 15W

i3-4110M 2.60 N/A 1600 3 MB L3 2/4 37W

i3-4100M 2.50 N/A 1600 3 MB L3 2/4 37W

i3-4100U 1.80 N/A 1600 3 MB L3 2/4 15W

i3-4030U 1.90 N/A 1600 3 MB L3 2/4 15W

i3-4030Y 1.60 N/A 1600 3 MB L3 2/4 11.5W

i3-4025U 1.90 N/A 1600 3 MB L3 2/4 15W

i3-4020Y 1.50 N/A 1600 3 MB L3 2/4 11.5W

i3-4012Y 1.50 N/A 1600 3 MB L3 2/4 11.5W

i3-4010U 1.70 N/A 1600 3 MB L3 2/4 15W

i3-4010Y 1.30 N/A 1600 3 MB L3 2/4 11.5W

i3-4005U 1.70 N/A 1600 3 MB L3 2/4 15W

i3-4000M 2.40 N/A 1600 3 MB L3 2/4 37W



i3-3217U 1.80 N/A 1600 3 MB L3 2/4 17W

i3-3110M 2.40 N/A 1600 3 MB L3 2/4 35W

3rd Generation Intel® Core™ i3 - DC Power Optimized Performance Processor and Ultra Processor (22nm)

Intel® Brand or

Processor Family Intel® HD Graphics13Intel® VT

Base

Frequency

(GHz)

Processor

Number Cache

Cores /

Threads

Memory

Speed DDR3

Only (MHz)


31Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)

Intel® Celeron® Processor (22nm)

Intel® Brand or

Processor Family Intel® HD Graphics13Intel® VT

Base

Frequency

(GHz)Processor

Number Cache

Cores /

Threads

Memory

Speed DDR3

Only (MHz)


31Intel® 64

Burst

Frequency

(GHz)Power

(Max TDP)

2981U 1.60 N/A 1600 2 MB L3 2/2 15W

2980U 1.60 N/A 1600 2 MB L3 2/2 15W

2970M 2.20 N/A 1600 2 MB L3 2/2 37W

2961Y 1.10 N/A 1600 2 MB L3 2/2 11.5W

2957U 1.40 N/A 1600 2 MB L3 2/2 15W

2955U 1.40 N/A 1600 2 MB L3 2/2 15W

2950M 2.00 N/A 1600 2 MB L3 2/2 37W

1019Y 1.00 N/A 1600 2 MB L3 2/2 10W

N2930 1.83 2.16 1333 2 MB L2 4/4 7.5W

N2920 1.86 2.00 1066 2 MB L2 4/4 7.5W

N2830 2.16 2.41 1333 1 MB L2 2/2 7.5W

N2820 2.13 2.39 1066 1 MB L2 2/2 7.5W

N2815 1.86 2.13 1066 1 MB L2 2/2 7.5W

N2810 2.00 N/A 1066 1 MB L2 2/2 7.5W

N2807 1.58 2.16 1333 1 MB L2 2/2 4.3W

N2806 1.58 2.00 1066 1 MB L2 2/2 4.5W

N2805 1.46 N/A 1066 1 MB L2 2/2 4.3W

SERVERS - Intel® processor reference chart

9560 2.53 N/A 1067 32 MB L3 6.40 8/16 170W MP

9550 2.40 N/A 1067 32 MB L3 6.40 4/8 170W MP

9540 2.13 N/A 1067 24 MB L3 6.40 8/16 170W MP

9520 1.73 N/A 1067 20 MB L3 6.40 4/8 130W MP

9350 1.73 1.86 800 24 MB L3 4.80 4/8 185W MP

9340 1.60 1.73 800 20 MB L3 4.80 4/8 185W MP

9330 1.46 1.60 800 20 MB L3 4.80 4/8 155W MP

9320 1.33 1.46 800 16 MB L3 4.80 4/8 155W MP

9310 1.60 N/A 800 10 MB L3 4.80 2/4 130W MP

Intel® Itanium® Processor 9000 Sequence~

ΦIntel® QPI

(GT/Sec)

Intel® Xeon® Processor E7-8800/4800/2800 v2 Sequence~

E7-8893 v2 3.40 3.70 1600 37.5 MB L3 8.00 6/12 155W Up to 8 Processors



E7-8880L v2 2.20 2.80 1600 37.5 MB L3 8.00 15/30 105W Up to 8 Processors


E7-8870 v2 2.30 2.90 1600 30 MB L3 8.00 15/30 130W Up to 8 Processors










E7-4809 v2 1.90 N/A 1333 12 MB L3 6.40 6/12 105W Up to 4 Processors





Φ Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability

Processor

Number

Intel® Brand or

Processor Family Cache

Memory

Speed DDR3

Only (MHz)

Max Turbo

Clock

Speed (GHz)

Clock

Speed

(GHz)

System ΩType

Cores /

Threads

Power

(Max TDP)


E7-8870 2.40 2.80 1066 30 MB L3 6.40 10/20 130W Up to 8 Processors

E7-8867L 2.13 2.53 1066 30 MB L3 6.40 10/20 105W Up to 8 Processors








E7-4830 2.13 2.40 1066 24MB L3 6.40 8/16 105W Up to 4 Processors‡E7-4820 2.00 2.26 978 18 MB L3 5.86 8/16 105W Up to 4 Processors‡E7-4807 1.86 N/A 800 18 MB L3 4.80 6/12 95W Up to 4 Processors




E7-2830 2.13 2.40 1066 24MB L3 6.40 8/16 105W Up to 2 Processors‡E7-2820 2.00 2.26 978 18 MB L3 5.86 8/16 105W Up to 2 Processors ‡E7-2803 1.73 N/A 800 18 MB L3 4.80 6/12 105W Up to 2 Processors

Intel® Xeon® Processor E7-8800/4800/2800 Sequence~

E5-4657L v2 2.40 2.90 1866 30 MB L3 8.00 12/24 115W Up to 4 Processors








Intel® Xeon® Processor E5-4600 v2 Sequence~

‡ 1066 MHz DIMMs run at an effective frequency of 978 MHz when run at 5.86GHz Intel® SMI speed and 800MHz when run at 4.8 GHz Intel SMI speedΦ Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability

ΦIntel® QPI

(GT/Sec)

Processor

Number

Intel® Brand or


Memory

Speed DDR3

Only (MHz)

Max Turbo

Clock

Speed (GHz)

Clock

Speed

(GHz)

System ΩType

Cores /

Threads

Power

(Max TDP)


E5-4650L 2.60 3.10 1600 20MB L3 8.00 8/16 115W Up to 4 Processors

E5-4650 2.70 3.30 1600 20MB L3 8.00 8/16 130W Up to 4 Processors





E5-4607 2.20 N/A 1066 12MB L3 6.40 6/12 95W Up to 4 Processors


Intel® Xeon® Processor E5-4600 Sequence~

E5-2697 v2 2.70 3.50 1866 30MB L3 8.00 12/24 130W DP

E5-2695 v2 2.40 3.20 1866 30MB L3 8.00 12/24 115W DP

E5-2690 v2 3.00 3.60 1866 25MB L3 8.00 10/20 130W DP«E5-2687W v2 3.40 4.00 1866 25MB L3 8.00 8/16 150W DP

E5-2680 v2 2.80 3.60 1866 25MB L3 8.00 10/20 115W DP

E5-2670 v2 2.50 3.30 1866 25MB L3 8.00 10/20 115W DP

E5-2667 v2 3.30 4.00 1866 25MB L3 8.00 8/16 130W DP

E5-2660 v2 2.20 3.00 1866 25MB L3 8.00 10/20 95W DP

E5-2650L v2 1.70 2.10 1600 25MB L3 7.20 10/20 70W DP

E5-2650 v2 2.60 3.40 1866 20MB L3 8.00 8/16 95W DP

E5-2643 v2 3.50 3.80 1866 25MB L3 8.00 6/12 130W DP

E5-2640 v2 2.00 2.50 1600 20MB L3 7.20 8/16 95W DP

E5-2637 v2 3.50 3.80 1866 15MB L3 8.00 4/8 130W DP

E5-2630L v2 2.40 2.80 1600 15MB L3 7.20 6/12 60W DP

E5-2630 v2 2.60 3.10 1600 15MB L3 7.20 6/12 80W DP

E5-2620 v2 2.10 2.60 1600 15MB L3 7.20 6/12 80W DP

E5-2609 v2 2.50 N/A 1333 10MB L3 6.40 4/4 80W DP

E5-2603 v2 1.80 N/A 1333 10MB L3 6.40 4/4 80W DP

E5-1660 v2 3.70 4.00 1866 15MB L3 N/A 6/12 130W UP

E5-1650 v2 3.50 3.90 1866 12MB L3 N/A 6/12 130W UP

E5-1620 v2 3.70 3.90 1866 10MB L3 N/A 4/8 130W UP

Intel® Xeon® Processor E5-2600 v2 and E5-1600 v2 Sequence~

« Workstation only SKU Φ Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability

ΦIntel® QPI

(GT/Sec)

Processor

Number

Intel® Brand or


Memory

Speed DDR3

Only (MHz)

Max Turbo

Clock

Speed (GHz)

Clock

Speed

(GHz)

System ΩType

Cores /

Threads

Power

(Max TDP)


E5-2690 2.90 3.80 1600 20MB L3 8.00 8/16 135W DP«E5-2687W 3.10 3.80 1600 20MB L3 8.00 8/16 150W DP

E5-2680 2.70 3.50 1600 20MB L3 8.00 8/16 130W DP

E5-2670 2.60 3.30 1600 20MB L3 8.00 8/16 115W DP

E5-2667 2.90 3.50 1600 15MB L3 8.00 6/12 130W DP

E5-2665 2.40 3.10 1600 20MB L3 8.00 8/16 115W DP

E5-2660 2.20 3.00 1600 20MB L3 8.00 8/16 95W DP

E5-2650L 1.80 2.30 1600 20MB L3 8.00 8/16 70W DP

E5-2650 2.00 2.80 1600 20MB L3 8.00 8/16 95W DP

E5-2643 3.30 3.50 1600 10MB L3 8.00 4/8 130W DP

E5-2640 2.50 3.00 1333 15MB L3 7.20 6/12 95W DP

E5-2637 3.00 3.50 1600 5MB L3 8.00 2/4 80W DP

E5-2630L 2.00 2.50 1333 15MB L3 7.20 6/12 60W DP

E5-2630 2.30 2.80 1333 15MB L3 7.20 6/12 95W DP

E5-2620 2.00 2.50 1333 15MB L3 7.20 6/12 95W DP

E5-2609 2.40 N/A 1066 10MB L3 6.40 4/4 80W DP

E5-2603 1.80 N/A 1066 10MB L3 6.40 4/4 80W DP


E5-2470 v2 2.40 3.20 1600 25MB L3 8.00 10/20 95W Up to 2 Processors

E5-2450L v2 1.70 2.10 1600 25MB L3 7.20 10/20 60W Up to 2 Processors



E5-2430L v2 2.40 2.80 1600 15MB L3 7.20 6/12 60W Up to 2 Processors



E5-2407 v2 2.40 N/A 1333 10MB L3 6.40 4/4 80W Up to 2 Processors

E5-2403 v2 1.80 N/A 1333 10MB L3 6.40 4/4 80W Up to 2 Processors


ΦIntel® QPI

(GT/Sec)

Processor

Number

Intel® Brand or


Memory

Speed DDR3

Only (MHz)

Max Turbo

Clock

Speed (GHz)

Clock

Speed

(GHz)

System ΩType

Cores /

Threads

Power

(Max TDP)

« Workstation only SKU Φ Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability


» Requires high efficiency heatsink Φ Intel® QuickPath Interconnect (Intel® QPI) unleashes the parallel processing performance of next-generation Intel® 45nm microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability

E3-1280 v3 3.60 4.00 1600 8 MB L3 N/A 4/8 82W UP

E3-1270 v3 3.50 3.90 1600 8 MB L3 N/A 4/8 80W UP

E3-1265L v3 2.50 3.70 1600 8 MB L3 N/A 4/8 45W UP

E3-1240 v3 3.40 3.80 1600 8 MB L3 N/A 4/8 80W UP

E3-1230L v3 1.80 2.80 1600 8 MB L3 N/A 4/8 25W UP

E3-1230 v3 3.30 3.70 1600 8 MB L3 N/A 4/8 80W UP

E3-1220L v3 1.10 1.50 1600 4 MB L3 N/A 2/4 13W UP

E3-1220 v3 3.10 3.50 1600 8 MB L3 N/A 4/4 80W UP

E3-1275 v3 3.50 3.90 1600 8 MB L3 N/A 4/8 84W UP

E3-1245 v3 3.40 3.80 1600 8 MB L3 N/A 4/8 84W UP

E3-1225 v3 3.20 3.60 1600 8 MB L3 N/A 4/4 84W UP

E3-1285L v3 3.10 3.90 1600 8 MB L3 N/A 4/8 65W UP

E3-1285 v3 3.60 4.00 1600 8 MB L3 N/A 4/8 84W UP


Intel® Xeon® Processor E3-1200 v2 Sequence~»E3-1290 v2 3.70 4.10 1600 8 MB L3 N/A 4/8 87W UP

E3-1280 v2 3.60 4.00 1600 8 MB L3 N/A 4/8 69W UP

E3-1270 v2 3.50 3.90 1600 8 MB L3 N/A 4/8 69W UP

E3-1265L v2 2.50 3.50 1600 8 MB L3 N/A 4/8 45W UP

E3-1240 v2 3.40 3.80 1600 8 MB L3 N/A 4/8 69W UP

E3-1230 v2 3.30 3.70 1600 8 MB L3 N/A 4/8 69W UP

E3-1220L v2 2.30 3.50 1600 3 MB L3 N/A 2/4 17W UP

E3-1220 v2 3.10 3.50 1600 8 MB L3 N/A 4/4 69W UP

E3-1275 v2 3.50 3.90 1600 8 MB L3 N/A 4/8 77W UP

E3-1245 v2 3.40 3.80 1600 8 MB L3 N/A 4/8 77W UP

E3-1225 v2 3.20 3.60 1600 8 MB L3 N/A 4/4 77W UP











ΦIntel® QPI

(GT/Sec)

Processor

Number

Intel® Brand or


Memory

Speed DDR3

Only (MHz)

Max Turbo

Clock

Speed (GHz)

Clock

Speed

(GHz)

System ΩType

Cores /

Threads

Power

(Max TDP)


7120P 1.238 1.333 5.5 30.5 MB 61 300W

7120X 1.238 1.333 5.5 30.5 MB 61 300W

5120D 1.053 N/A 5.5 30 MB 60 245W∏5110P 1.053 N/A 5.0 30 MB 60 225W3120A 1.100 N/A 5.0 28.5 MB 57 300W

3120P 1.100 N/A 5.0 28.5 MB 57 300W

Intel® Xeon Phi™ Coprocessor Sequence~

Intel® Atom™ Processor C2000/S1200 Sequence~

C2750 2.40 2.60 1600 4 MB 8/16 20W

C2730 1.70 2.40 1600 4 MB 8/16 12W

C2550 2.40 2.60 1600 2 MB 4/8 14W

C2530 1.70 2.40 1333 2 MB 4/8 9W

C2350 1.70 2.00 1333 1 MB 2/4 6W

S1260 2.00 N/A 1333 1 MB 2/4 8.5W

S1240 1.60 N/A 1333 1 MB 2/4 6.1W

S1220 1.60 N/A 1333 1 MB 2/4 8.1W

∏ Also available as part of a Xeon Phi™ starter kit

Processor

Number

Intel® Brand or


GDDR5

Memory

Speed (GT/s)

Max Turbo

Clock

Speed (GHz)

Clock

Speed

(GHz) CoresBoard TDP

(Watts)

Processor

Number

Intel® Brand or


Memory

Speed DDR3

only (MHz)

Max Turbo

Clock

Speed (GHz)

Clock

Speed

(GHz)

Cores /

ThreadsPower

(Max TDP)

Brand Name Intel® Ethernet Converged

Network Adapter X540-T2

Intel® Ethernet Converged

Network Adapter X540-T1


Network Adapter X520-QDA1


Network Adapter X520-S R1


Network Adapter X520-S R2


Network Adapter X520-L R1

Product Code X540T2

X540T2BLK

X540T1

X540T1BLK

X520QDA1 E10G42BTDA

E10G42BTDABLK

X520DA1OCP

X520DA2OCP

E10G41BFSR

E10G41BFSRBLK

E10G42BFSR

E10G42BFSRBLK

E10G41BFLR,

E10G41BFLRBLK

Intel® Ethernet Controller Intel® X540 Intel® X540 Intel® 82599ES Intel® 82599ES Intel® 82599ES Intel® 82599ES Intel® 82599ES Intel® 82599ES

Connector & Cable Medium RJ-45 Copper Twisted Pair RJ-45 Copper Twisted Pair QSFP+ Direct Attach Copper SFP+ Direct Attach Copper SFP+ Direct Attach Copper LC Fiber Optic LC Fiber Optic

Category-6 up to 55 m

Category-6A up to 100 m

QSFP+ Direct Attached

Twin Axial Cabling up to 10 m

SFP+ Direct Attached


SFP+ Direct Attached


MMF 62.5/50 µm

up to 300 m

MMF 62.5/50 µm

up to 300 m

PCI Express* 2.1

5.0 GT/s, x8 Lane

PCI Express* 3.0

5.0 GT/s Lane x8 Lane

PCI Express* 2.0

5.0 GT/s, x8 Lane

PCI Express* 2.0

5.0 GT/s Lane x8 Lane

PCI Express* 2.0

5.0 GT/s, x8 Lane

PCI Express* 2.0

5.0 GT/s, x8 Lane

PCI Express* 2.0

5.0 GT/s, x8 Lane

Ports Dual Port Single Port Single Port Dual Port Single & Dual Port Single Port Dual Port Single Port

Supported Slot Height(s) Low Profile and Full Height Low Profile and Full Height Low Profile and Full Height Low Profile and Full Height OCP Form Factor - no bracket Low Profile and Full Height Low Profile and Full Height

Yes Yes Yes Yes Yes Yes Yes

Intel® Virtualization

Technology for

Connectivity

Storage over Ethernet iSCSI, FCoE, NFS iSCSI, FCoE, NFS iSCSI, FCoE, NFS iSCSI, FCoE, NFS iSCSI, NFS iSCSI, FCoE, NFS iSCSI, FCoE, NFS iSCSI, FCoE, NFS

Accessory Options N/A N/A

For additional product information, visit: intel.com/go/ethernet

NEW! NEW!

Open Compute

Project

Intel® Ethernet Converged Network and Server Adapters - Product Selection Guide

SMF up to 10 km

PCI Express* 2.1

5.0 GT/s, x8 Lane

Slot Type, Maximum Bus

Speed & Slot Width

LC Fiber Optic

Category-6 up to 55 m

Category-6A up to 100 m

Low Profile and Full Height

Intel® Ethernet SFP+ Twin Axial Cables

(SFP+ to SFP+ copper direct attach cable)

XDACBL1M = 1 Meter

XDACBL3M = 3 Meter

XDACBL5M = 5 Meter

Intel® Ethernet SFP+ O ptics

E10GSFPSR = SFP+ SR Optic

E10GSFPLR = SFP+ LR Optic

Intel® Ethernet QSFP+ O ptics

E40GQSFPSR = QSFP+ SR Optic

Intel® Ethernet QSFP+ Breakout Cables

(QSFP+ to (4) SFP+ copper direct attach

breakout cable)

X4DACBL1 = 1 Meter

X4DACBL3 = 3 Meter

X4DACBL5 = 5 Meter

Ethernet Everywhere. It Just Works.

1Intel® Ethernet Power Management includes Energy Efficient Ethernet (EEE) and DMA Coalescing.

Speed

Brand Name Intel® Ethernet Server Adapter I210-T1

Intel® Ethernet Server Adapter I350-T4



Intel® Ethernet Server Adapter Gigabit ET Dual Port

Intel® Ethernet S erver

Adapter I 340-F4

Product Code I210T1I210T1BLK

I350T4I350T4BLK

I350T2I350T2BLK

E1G44HTE1G44HTBLK

E1G 42E TE1G42ETBLK

E1G44ET2E1G44ET2BLK

I350F2I350F2BLK

I350F4I350F4BLK

E1G44HFE1G44HFBLK

E1G42EFE1G42EFBLK

EXPI9301CTEXPl9301CTBLK

Intel® Ethernet Controller Intel® I210 Intel® I350 Intel® I350 Intel® 82580 Intel® 82576 Intel® 82576 Intel® I350 Intel® I350 Intel® 82580 Intel® 82576 Intel® 82574

Connector & Cable Medium RJ-45 Copper Twisted Pair LC Fiber Optic LC Fiber Optic LC Fiber Optic LC Fiber Optic

Category-5up to 100 m

Category-5eup to 100 m

Category-5eup to 100 m

Category-5e up to 100 m



MMF 62.5 µm up to 275 mMMF 50 µm up to 550 m




Cat 5eup to 100 m

PCI Express* 2.1 5 GT/s, x4 Lane



PCI Express* 2.0 2.5 GT/s, x4 Lane







Ports Single Port Quad Port Dual Port Quad Port Dual Port Quad Port Dual Port Quad Port Quad Port Dual Port Single Port

Supported Slot Height(s) Full Height Full Height

Yes Yes Yes Yes N/A N/A N/A N/A N/A N/A N/A

Intelligent Offloads Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes N/A

Intel® Virtualization

Technology for

Connectivity

On-chip QoS and Traffic Management, Flexible Port Partitioning, Virtual Machine Device Queues (VMDq), PCI-SIG* SR-IOV capable

On-chip QoS and TrafficManagement, Flexible PortPartitioning, Virtual Machine Device Queues (VMDq),PCI-SIG* SR-IOV capable

On-chip QoS and Traffic Management, Flexible Port Partitioning, Virtual Machine Device Queues (VMDq),PCI-SIG* SR-IOV capable




On-chip QoS and Traffic Management, Virtual Machine Device Queues (VMDq)


N/A

Storage over Ethernet iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS iSCSI, NFS

Intel® Ethernet Power 1Management

Yes Yes Yes N/A N/A N/A Yes Yes N/A N/A N/A

RJ-45 CopperTwisted Pair


Low Profile andFull Height

Slot Type, Maximum BusSpeed & Slot Width

Intel® Ethernet Desktop

Adapter Gigabit CT

Intel® Ethernet Server

Adapter Gigabit EF Dual Port

Low Profile and

Full Height

Cabling Type

Halogen Free

GIGABIT FOR SERVERS AND WORK STATIONS Gigabit for desktops

FIBER COPPERCOPPER

On-chip QoS and Traffic

Management, Flexible Port

Partitioning, Virtual Machine

Device Queues (VMDq),

PCI-SIG* SR-IOV capable





PCI- SIG* SR-IOV capable







Management, Virtual Machine


Hypervisor-based Port

Partitioning





















Intel® Ethernet SFP+

Twin Axial Cables

Intel® Ethernet SFP+ Optics

Ships with Qty 1 E10GSFPLR


Twin Axial Cables


Ships with Qty 2 E10GSFPSR


Twin Axial Cables


Ships with Qty 1 E10GSFPSR


Twin Axial Cables



Twin Axial Cables


Intel® Ethernet QSFP+

Twin Axial Cables

Intel® Ethernet QSFP+ Optics

Cabling Type

Intelligent Offloads

Intel® Ethernet Server

Adapter X520-DA1 & X520-DA2

for Open Compute Project


Network Adapter X520-DA2

INTEL® ETHERNET

10GBE ACCESSORIES

Intel® Ethernet QSFP+

Twin Axial Cables (QSFP+ to QSFP+

copper direct attach cable)

XLDACBL1 = 1 Meter

XLDACBL3 = 3 Meter

XLDACBL5 = 5 Meter

Speed 10 GIGABIT FOR S ERVERS AND WORK STATIONS

Reliable Performance | Best Choice for Virtualization | Unified Networking

COPPER FIBER

Yes













On-chip QoS andTraffic Management,Virtual MachineDevice Queues(VMDq)

IncludesAudio-Video Bridging (AVB)Support (802.1Qav)

Intel® EthernetServer Adapter GigabitET2 Quad Port

Intel® Ethernet ServerAdapter I350-F2

Intel® Ethernet ServerAdapter I350-F4

◊Customer may remove optics as needed.

5. Requires a select Intel® processor, Intel® software and BIOS update, and Intel® Solid-State Drive (SSD). Depending on system configuration, your results may vary. Contact your system manufacturer for more information.

6. Requires an Intel® Wireless Display enabled system, compatible adapter and TV. 1080p and Blu-Ray* or other protected content playback only available on select Intel® processor-based systems with built-in visuals enabled, a compatible adapter and media player, and supporting Intel® WiDi software and

graphics driver installed. Consult your PC manufacturer. For more information, see www.intel.com/go/widi.

7. Intel® vPro™ Technology is sophisticated and requires setup and activation. Availability of features and results will depend upon the setup and configuration of your hardware, software and IT environment. To learn more, visit http://www.intel.com/technology/vpro.

8. Requires activation and a system with a corporate network connection, an Intel® AMT-enabled chipset, network hardware and software. For notebooks, Intel AMT may be unavailable or limited over a host OS-based VPN, when connecting wirelessly, on battery power, sleeping, hibernating or powered off. Results

dependent upon hardware, setup and configuration. For more information, visit Intel® Active Management Technology.

9. No computer system can provide absolute security. Requires an Intel® Identity Protection Technology-enabled system, including an enabled Intel® processor, enabled chipset, firmware, software, and Intel integrated graphics (in some cases) and participating website/service. Intel assumes no liability for lost or

stolen data and/or systems or any resulting damages. For more information, visit http://ipt.intel.com/. Consult your system manufacturer and/or software vendor for more information.

10. No computer system can provide absolute security under all conditions. Built-in security features available on select Intel® processors may require additional software, hardware, services and/or an Internet connection. Results may vary depending upon configuration. Consult your system manufacturer for more

details. For more information, see http://security-center.intel.com/

11. Multiple displays and ECC memory may not be available on all computing systems. Please reference the system, motherboard or chipset specifications for compatibility.

12. Built-in visual features are not enabled on all PCs and optimized software may be required. Check with your system manufacturer. Learn more at http://www.intel.com/go/biv.

13. Intel® Virtualization Technology requires a computer system with an enabled Intel® processor, BIOS, and virtual machine monitor (VMM). Functionality, performance, or other benefits will vary depending on hardware and software configurations. Software applications may not be compatible with all operating

systems. Consult your PC manufacturer. For more information, visit http://www.intel.com/go/virtualization.

14. Software and workloads used in performance tests may have been optimized for performance only on Intel microprocessors. Performance tests, such as SYSmark and MobileMark, are measured using specific computer systems, components, software, operations, and functions. Any change to any of those

factors may cause the results to vary. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases, including the performance of that product when combined with other products. For more information, go to www.intel.com/performance.

15. 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.

16. Up to 2x average generational performance gain based on results of six key industry-standard workloads: SPECint*_rate_base2006+ (estimated), SPECfp*_rate _base2006+ (estimated), brokerage online transaction processing (OLTP) database workload, warehouse supply chain OLTP database workload,

STREAM memory bandwidth, and LINPACK GFLOPS. Configurations: 4-socket server using Intel® Xeon® processor E7-4890 v2 (new processor) vs. Intel Xeon processor E7-4870 (previous generation processor). Source: Intel internal testing as of November 2013.

17. Up to 3x claim based on 4- or 8-socket server using Intel® Xeon® processor v2 product family with 6TB or 12TB total memory installed which requires support for 64GB LR-DIMMs and 8x Intel® C104 Scalable Memory Buffer compared to 4- or 8-socket server using the prior generation with maximum memory

capacities of 2TB or 4TB, respectively. Consult your system manufacturer for more information.

18. Up to 4x I/O bandwidth claim based on Intel internal estimates of the Intel Xeon processor E7-4890 v2 performance normalized against the improvements over dual-IOH Intel Xeon processor E7-4870 based on internal bandwidth tool running the 1R1W test.

19. 8 GT/s and 128b/130b encoding in PCIe* 3.0 specification is estimated to double the interconnect bandwidth over the PCIe 2.0 specification. Source: http://www.pcisig.com/news_room/November_18_2010_Press_Release/.

20. Up to 80% higher performance on Xeon E7 v2 over IBM Power* 7+ at ~80% lower TCO claim based on Intel estimated SPECint*_rate_base2006 results and pricing of comparable 4-socket rack server using Intel® Xeon® processor E7-4890 v2 (37.5M Cache, 2.8 GHz, 15-Cores) to IBM POWER*750 using

POWER7+ (80M Cache, 4.0 GHz, 8-Cores) as of December 2013.

a. SPECint_rate_base2006 benchmark results:

I. 4-chip IBM POWER7+-based Power 750 (1230 baseline score) source: http://public.dhe.ibm.com/common/ssi/ecm/en/poo03017usen/POO03017USEN.PDF(page 8).

II. 4-chip Intel Xeon processor E7-4890 v2 (2280 baseline score estimated)

b. Estimated street pricing:

1. 4-chip Intel Xeon Processor E7-4890 v2 platform Intel estimated price of $51,237 with 4x Intel Xeon processor E7-4890 v2 processors, 256 GB memory, 2 HDDs.

2. 4-chip IBM Power 750 Express Pricing of $177,290: 4 x 4.0 GHz POWER7+* processors, 256GB memory, 2 HDDs. Source: IBM United States Prices 113-026, dated February 5, 2013 (hardware list prices). http://www-01.ibm.com/common/ssi/rep_ca/6/897/ENUS113-026/ENUS-113-026-

LIST_PRICES_2013_02_05.PDF.

21. Up to 80% better 4-year TCO through lower software costs claim based on Intel internal total cost of ownership tool normalizing integer throughput performance between the two options.

a. Calculations includes analysis based on performance, power, cooling, electricity rates, operating system and annual support/license costs on IBM AIX V7.1at http://www-304.ibm.com/easyaccess3/fileserve?contentid=249139 plus estimated server costs.

b. Assumptions include 42U racks, $0.10 per kWh, cooling costs 2x average server power consumption costs, Alinean* assumptions of $500 per server maintenance and $30 per server networking costs, average real estate cost per year from VMware* planning tool at $310 per sq. foot * 10 sq. feet per rack

divided by the number of servers per rack, 60% CPU utilization and PUE of 2.0.

22. Based on the Intel® Solid-State Drive DC S3700 Series Product Specification

23. Annualized Failure Rate (AFR) is based on Mean Time Between Failures (MTBF) of 1.2 million hours. AFR = 1 / MTBF = 8760 hours / 1.2M hours * 1 year = 0.73% per year.

24. Source: Intel; “Validating the Reliability of Intel® Solid-State Drives”; www.intel.com/content/dam/doc/technology-brief/intel-it-validating-reliability-of-intel-solid-state-drives-brief.pdf; Intel Corporation, July 2011

25. Ponemon institute: Airport Insecurity: The Case of Lost and Missing Laptops; U.S. and EMEA Results, July 2008, http://www.ponemon.org/data-security

26. Source: Intel; System configuration: Intel® Core™ i7-3960X (15MB L3 Cache, 3.3GHz) on Intel® Desktop Board DX79SI, AMD Radeon* HD 6990 and driver 8.881.0.0, BIOS SIX791OJ.86A.0193.2011.0809.1137, Intel INF 9.1.2.1007, Memory 16GB (4X4GB) Triple-channel Samsung DDR3-1600, Microsoft Windows*

7 MSAHCI storage driver, Microsoft Windows* 7 Ultimate 64-bit Build 7600 with SP1; SSD – 2.5” Intel® SSD 520 Series SSDSC2CW240A3, SATA Revision 3.0 Solid-State Drive, 240GB, FW 400i HDD – 3.5” Seagate Barracuda* ST31000528AS, SATA Revision 2.0 Hard Disk Drive, 1TB, 7200RPM, 32MB cache

27. Note that the testing reported on in this paper was conducted using the Intel® Xeon® processor 5600 series, the predecessor of the Intel® Xeon® processor E5 family.

28. Intel measurements of average time for an I/O device read to local system memory under idle conditions. Improvement compares Intel® Xeon® processor E5-2600 product family (230 ns) versus Intel® Xeon® processor 5500 series (340 ns). Baseline Configuration: Green City system with two Intel® Xeon®

processor E5520 (2.26 GHz, 4C), 12 GB memory @ 1333, C-States Disabled, Turbo Disabled, SMT Disabled, Rubicon* PCIe* 2.0 x8. New configuration: Meridian system with two Intel® Xeon® processor E5-2665 (C0 stepping, 2.4 GHz, 8C), 32 GB memory @1600 MHz, C-States Enabled, Turbo Enabled. The

measurements were taken with a LeCroy* PCIe protocol analyzer using Intel internal Rubicon (PCIe 2.0) and Florin (PCIe 3.0) test cards running under Windows* 2008 R2 with SP1.

29. 8 GT/s and 128b/130b encoding in PCIe* 3.0 specification enables double the interconnect bandwidth over the PCIe 2.0 specification. Source: www.pcisig.com/news_room/November_18_2010_Press_Release.

30. Requires a system with Intel® Turbo Boost Technology. Intel Turbo Boost Technology and Intel Turbo Boost Technology 2.0 are only available on select Intel® processors. Consult your system manufacturer. Performance varies depending on hardware, software, and system configuration. For more information,

visit http://www.intel.com/go/turbo.

31. 64-bit computing on Intel® architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers, and applications enabled for Intel® 64 architecture. Processors will not operate (including 32-bit operation) without an Intel® 64 architecture-enabled BIOS. Performance will vary

depending on your hardware and software configurations. Consult with your system vendor for more information.

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• INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTEL PRODUCTS. NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT. EXCEPT AS PROVIDED IN INTEL'S TERMS AND CONDITIONS OF SALE

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INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT. A "Mission Critical Application" is any application in which failure of the Intel Product could result, directly or indirectly, in personal injury or death. SHOULD YOU PURCHASE OR USE INTEL'S PRODUCTS FOR ANY SUCH

MISSION CRITICAL APPLICATION, YOU SHALL INDEMNIFY AND HOLD INTEL AND ITS SUBSIDIARIES, SUBCONTRACTORS AND AFFILIATES, AND THE DIRECTORS, OFFICERS, AND EMPLOYEES OF EACH, HARMLESS AGAINST ALL CLAIMS COSTS, DAMAGES, AND EXPENSES AND REASONABLE ATTORNEYS' FEES

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INTEL PRODUCT OR ANY OF ITS PARTS. Intel may make changes to specifications and product descriptions at any time, without notice. Designers must not rely on the absence or characteristics of any features or instructions marked "reserved" or "undefined". Intel reserves these for future definition and shall

have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them. The information here is subject to change without notice. Do not finalize a design with this information. The products described in this document may contain design defects or errors known as errata which

may cause the product to deviate from published specifications. Current characterized errata are available on request. Contact your local Intel sales office or your distributor to obtain the latest specifications and before placing your product order. Copies of documents which have an order number and are

referenced in this document, or other Intel literature, may be obtained by calling 1-800-548-4725, or go to: http://www.intel.com/design/literature.htm

• Software and workloads used in performance tests may have been optimized for performance only on Intel microprocessors. Performance tests, such as SYSmark and MobileMark, are measured using specific computer systems, components, software, operations and functions. Any change to any of those

factors may cause the results to vary. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases, including the performance of that product when combined with other products.

• 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.

• Intel does not control or audit the design or implementation of third party benchmarks or Web sites referenced in this document. Intel encourages all of its customers to visit the referenced Web sites or others where similar performance benchmarks are reported and confirm whether the referenced

benchmarks are accurate and reflect performance of systems available for purchase.

For regular updates, log on to http://www.intel.in/directions

• Relative performance is calculated by assigning a baseline value of 1.0 to one benchmark result, and then dividing the actual benchmark result for the baseline platform into each of the specific benchmark results of each of the other platforms, and assigning them a relative performance number that correlates

with the performance improvements reported.

• The cost reduction scenarios described in this document are intended to enable you to get a better understanding of how the purchase of a given Intel product, combined with a number of situation-specific variables, might affect your future cost and savings. Circumstances will vary and there may be

unaccounted-for costs related to the use and deployment of a given product. Nothing in this document should be interpreted as either a promise of or contract for a given level of costs.

• SPEC, SPECint are trademarks of the Standard Performance Evaluation Corporation. See http://www.spec.org for more information. Intel® Run Sure Technology: No computer system can provide absolute reliability, availability or serviceability. Requires an Intel® Xeon® processor E7-8800/4800/2800 v2 product

families-based system (or follow-on generations of either.) Built-in reliability features available on select Intel® processors may require additional software, hardware, services and/or an internet connection. Results may vary depending upon configuration. Consult your system manufacturer for more details.

• Intel processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families: Go to: Learn About Intel® Processor Numbers

Risk Factors and Optimization Notice

The above statements and any others in this document that refer to plans and expectations for the third quarter, the year and the future are forward-looking statements that involve a number of risks and uncertainties. Words such as “anticipates,” “expects,” “intends,” “plans,” “believes,” “seeks,” “estimates,” “may,”

“will,” “should” and their variations identify forward-looking statements. Statements that refer to or are based on projections, uncertain events or assumptions also identify forward-looking statements. Many factors could affect Intel’s actual results, and variances from Intel’s current expectations regarding such

factors could cause actual results to differ materially from those expressed in these forward-looking statements. Intel presently considers the following to be the important factors that could cause actual results to differ materially from the company’s expectations. Demand could be different from Intel's

expectations due to factors including changes in business and economic conditions; customer acceptance of Intel’s and competitors’ products; supply constraints and other disruptions affecting customers; changes in customer order patterns including order cancellations; and changes in the level of inventory at

customers. Uncertainty in global economic and financial conditions poses a risk that consumers and businesses may defer purchases in response to negative financial events, which could negatively affect product demand and other related matters. Intel operates in intensely competitive industries that are

characterized by a high percentage of costs that are fixed or difficult to reduce in the short term and product demand that is highly variable and difficult to forecast. Revenue and the gross margin percentage are affected by the timing of Intel product introductions and the demand for and market acceptance of

Intel's products; actions taken by Intel's competitors, including product offerings and introductions, marketing programs and pricing pressures and Intel’s response to such actions; and Intel’s ability to respond quickly to technological developments and to incorporate new features into its products. The gross margin

percentage could vary significantly from expectations based on capacity utilization; variations in inventory valuation, including variations related to the timing of qualifying products for sale; changes in revenue levels; segment product mix; the timing and execution of the manufacturing ramp and associated costs;

start-up costs; excess or obsolete inventory; changes in unit costs; defects or disruptions in the supply of materials or resources; product manufacturing quality/yields; and impairments of long-lived assets, including manufacturing, assembly/test and intangible assets. Intel's results could be affected by adverse

economic, social, political and physical/infrastructure conditions in countries where Intel, its customers or its suppliers operate, including military conflict and other security risks, natural disasters, infrastructure disruptions, health concerns and fluctuations in currency exchange rates. Expenses, particularly certain

marketing and compensation expenses, as well as restructuring and asset impairment charges, vary depending on the level of demand for Intel's products and the level of revenue and profits. Intel’s results could be affected by the timing of closing of acquisitions and divestitures. Intel's results could be affected by

adverse effects associated with product defects and errata (deviations from published specifications), and by litigation or regulatory matters involving intellectual property, stockholder, consumer, antitrust, disclosure and other issues, such as the litigation and regulatory matters described in Intel's SEC reports. An

unfavorable ruling could include monetary damages or an injunction prohibiting Intel from manufacturing or selling one or more products, precluding particular business practices, impacting Intel’s ability to design its products, or requiring other remedies such as compulsory licensing of intellectual property. A

detailed discussion of these and other factors that could affect Intel’s results is included in Intel’s SEC filings, including the company’s most recent reports on Form 10-Q, Form 10-K and earnings release.

Optimization Notice

Intel's compilers may or may not optimize to the same degree for non-Intel microprocessors for optimizations that are not unique to Intel microprocessors. These optimizations include SSE2, SSE3, and SSE3 instruction sets and other optimizations. Intel does not guarantee the availability, functionality, or

effectiveness of any optimization on microprocessors not manufactured by Intel.

Microprocessor-dependent optimizations in this product are intended for use with Intel microprocessors. Certain optimizations not specific to Intel microarchitecture are reserved for Intel microprocessors. Please refer to the applicable product User and Reference Guides for more information regarding the specific

instruction sets covered by this notice.

Notice revision #20110804

Documents

Intel® Roadmap Directions 2014€¦ · and guidance. The spotlight in this edition of Intel® Roadmap Directions is on 2 in 1 devices with Intel Inside®. Discover how an Intel®