INTEL® ROADMAP DIRECTIONS 2015 · A successful migration requires careful planning to cope with three key challenges: From the results, the team constructed a compare-and-contrast

5TH GENERATION INTEL® CORE™ PROCESSORSIn Focus

VOLUME 2 • 2015 WWW.INTEL.IN/DIRECTIONS |

INTEL® ROADMAP DIRECTIONS 2015 A RESOURCE GUIDE FOR CIOS AND IT PROFESSIONALS

HD

5TH GENERATION INTEL® CORE™ PROCESSORS

5th gen Intel® Core™ processors pack an incredible new standard

of performance that’s versatile enough for the busiest lifestyles,

while powerful and secure enough for thriving enterprises. The

Intel® Core™ i3, Intel® Core™ i5, and Intel® Core™ i7 processors

enable a new wave of innovation. For the enterprise, Intel® Core™

vPro™ processors are designed to meet the mobility and security 1needs of your business .

TRANSFORM THE WAY YOU COMPUTE

POWER TO DELIVER AMAZING EXPERIENCESLose the Cords. Stay Connected. Technology’s Next Dimension

With 5th generation Intel® vPro™ Technology, you

can automatically dock to monitors, keyboards, 2and USB accessories with Intel® Wireless Docking,

while Intel® Pro Wireless Display makes it easy

for instant connections and projection without3the wires.

Intel® RealSense™ Technology uses depth-sensing

optics to bring features like gesture control, 3D

capture and edit, and innovative photo and video

capabilities to your devices. Start interacting with

technology in a whole new way.

Skip the Click and Speak Advance Your Business

Intel® Smart Sound Technology enables a true

hands-free, voice command experience without

sacrificing battery life. With features like system

wake up, speaker ID, and custom phrase support, 4what you say goes.

5th generation Intel® Core™ vPro™ processor-based

devices are designed to meet the mobility needs of

your users and the security requirements of your 1enterprise . Built-in security features help protect

5data, identities, and network access.

WELCOMEThe beginning of a new quarter also marks the beginning of new decisions. As the company’s decision maker, it is imperative that you make the right IT decisions that can help your company increase operational efficiency and accelerate growth.

This edition of Intel® Roadmap Directions 2015 brings you valuable insights on Intel’s latest technologies and solutions that willhelp you enrich and enhance your business performance for greater success. Meet the5th gen Intel® Core™ processors that pack an incredible new standard of performance that’s versatile enough for the busiest lifestyles, while powerful and secure enough forthriving enterprises.

Also, discover how Intel is enabling Network Functions Virtualization (NFV) to deliver on its promise with Intel® Xeon® processor E5-2600 v3 that speeds up packet processing in virtualized environments. Additionally, learn about how Intel IT successfully migrated to Cloudera Apache Hadoop*.

This volume also puts the spotlight on the Intel® Solid-State Drive Data Center Family for NVMe*, which can significantly improve data center performance and efficiency. Furthermore, gain insights on tackling attack detection and incident response.

The 2nd edition of Intel® Roadmap Directions 2015 brings to you key insights on the technologies and solutions powered by Intel that can help you set new standards for business success.

INTEL® ROADMAP DIRECTIONS 20152

5TH GENERATION INTEL® CORE™ PROCESSORCOMPARED TO AN OLD PC**

The 5th generation Intel® Core™

processors give you the

performance you need to create

and think out of the box.

With the 5th generation Intel®

Core™ processor, you get

excellent performance so you

can move effortlessly between 6applications.

3

8.7 8WATCH VIDEOSHOURS

UP TO

PREPARING FOR

3

3.5X FASTER7

3D PRINTING

UP TO

3

2.5X BETTERPRODUCTIVITY

UP TO

8Giving you up to 8.7 hours on a

single charge in a thin and light

PC you can carry with you all day.

Start up your system safely with

built-in security and enjoy fast

data encryption to keep your

information more secure without

slowing you down. And with

Intel® Identity Protection

Technology, you can feel safer 5,9

while you surf online.

A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 3

Premium Performance,Powerful Possibilities

Get Work Done Quickly Extraordinary Battery Life Robust Security

Read More at www.intel.in/content/www/in/en/processors/

core/5th-gen-core-processor-family.html

www.intel.in/content/www/in/en/processors/core/5th-gen-core-processor-family.html

ENABLING NFV TO DELIVER ON ITS PROMISE

For more information about Intel solutions for NFV, visit http://www.intel.com/content/www/us/en/communications/network-infrastructure-products-and-technologies.html

Intel® Xeon® processor E5-2600 v3 speeds up packet processing in virtualized environments.Network Functions Virtualization (NFV) is paving the way for more open, flexible, and economical networking and communications equipment based

on general-purpose computing platforms instead of traditional proprietary, purpose-built products.

Intel® Technologies – Driving the NFV Advantage

The Intel® Xeon® processor

E5-2600 v3 product family

allows a virtual machine

monitor (VMM) to assign

larger memory pages to VMs,

which helps to greatly

minimize overhead.

Network functions typically

collaborate with each other,

necessitating a low-latency

inter-VM communication

scheme that overcomes typical

performance overheads.

Intel Cache Monitoring Technology

allows an operating system or

VMM to determine how much L3

cache each software thread is

using; and Intel Cache Allocation

Technology can intelligently

partition the L3 cache.

NFV is having a profound impact on the design and deployment of next-generation networking and communications equipments. Intel® Xeon® processor E5-2600 v3 product

family, with technologies that can significantly reduce virtualization latency or its impact, makes it particularly well-suited for demanding networking applications.

Standard and open information

models build on Intel® Xeon®

processor E5-2600 v3 product

family along with DPDK* enable

VNF (Brocade’s vRouter 5600*)

to significantly improve on

performance and latency which

are crucial to enable the open

VNF ecosystem - helping the

customer transition from the

world of monolithic network

appliance to more software

defined functions.

Huge Pages: Inter-VM Communication

Schemes:

Cache Monitoring and Allocation:

NFV WHITEPAPERSHOWCASEEnabling Carrier Grade SLA onNFV Based Solution

(Abstract of the White Paper - End to End

Network Function Virtualization Architecture

Instantiation - Published by Intel, Brocade*,

Cyan*, Red Hat* and Telefonica*)

Optimal NFV Deployment

0

5

10

15

20

25

20/02

13:27:20

20/02

13:27:30

20/02

13:27:40

20/02

13:27:50

20/02

13:28:00

20/02

13:28:10

270Kpps

0

5

10

15

20

25

20/02

13:27:20

20/02

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20/02

13:27:40

20/02

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20/02

13:28:00

20/02

13:28:10

30

35

40

45

TIME

NFV

Cloud

Throughput (Gbps)Throughput (Mpps) 23Mpps

GBPS

TIME

MPPS


Identifying new opportunities to reduce IT costs and extend BI capabilities

HOW INTEL IT SUCCESSFULLYMIGRATED TO CLOUDERA APACHE HADOOP*

†(Abstract of the White Paper - How Intel IT Successfully Migrated to Cloudera Apache Hadoop* - Published by IT@Intel )

Forming a strategic partnership with Cloudera, Intel IT adopted Cloudera Distribution for Apache Hadoop (CDH), and migrated quickly from Intel Distribution for Apache

Hadoop (IDH). Careful planning, thorough testing, proactive communications, and efficient management of scope, schedules, and skills helped enable a successful migration.

A successful migration requirescareful planning to cope withthree key challenges:

From the results, the team constructed a compare-and-contrast table

that identified gaps and described key differentiators.

Our component and option selections validated our sandbox findings

and were incorporated into our migration strategy. We summarized the

strategy, along with benefits, potential risks, and current status.

Find Differences with a Comparative Evaluationin a Sandbox Environment

Define Our Strategy for the Cloudera Implementation

The Intel IT migration team split the existing Hadoop hardware environment

into two clusters (one for IDH and the other for CDH), completing the

construction of the two parallel systems using available components.

Split the Hardware Environment

The move from Hadoop 1.0 to Hadoop 2.0 was simple and

straightforward. The team gained desirable features that are not

included in IDH, along with the advantages of an open-source platform.

Upgrade the Hadoop Version

Creating a preproduction environment, powered by 128 cores (using

Intel® Xeon® processors), enabled us to incrementally migrate data to

the CDH environment and to start the data migration process early

for rapid transition to the new CDH environment.

Create a Preproduction-to-Production Pipeline

We took advantage of a rebalancing feature in CDH that can be

executed from the Cloudera Manager user interface. After each

rebalance and data migration process, the team reassessed the

data distribution and rebalanced as necessary.

Rebalance the Data

1

BEST PRACTICES FOR MIGRATING FROM IDH TO CDHTo address these three challenges, the Intel IT migration team followed six best practices.

Full distribution from

the Apache Hadoop

open-source project

2

3

Coping withHadoop variations

Understanding thescope of the changes

Completing thein-place migration ina timely manner

1

2

3

Conclusion

Although this Hadoop migration was complex and involved multiple layers of change, the move was successful. We experienced little dependency on the application teams and did not encounter any significant issues associated with the migration from one distribution to another.

When performing a Hadoop migration, consider the following tips:

For more information on Intel IT best practices, visit www.intel.com/IT.

• Choose the migration team carefully

• Gain from open-source options

• Keep design as simple as possible

4

5

6


Vendor-based

enterprise-level

support

Enterprise-grade

management and software

development tools

Open SourceFeatures ToolsSupportDesirable features,

mature feature sets,

and faster releases

CDH Advantages

†Source: http://media15.connectedsocialmedia.com/intel/03/12749/Hadoop_Migration_Success_Story_Intel_IT_Cloudera.pdf

http://media15.connectedsocialmedia.com/intel/03/12749/Hadoop_Migration_Success_Story_Intel_IT_Cloudera.pdf

NVME PERFORMANCE GAINSOVER SAS AND SATARead performance of NVMe drives exceeds that of SAS and SATA

drives by 3x and 6x, respectively. In typical enterprise mixed

workloads, NVMe performs 2x faster than SAS and 5x faster than

SATA. For write intensive applications, NVMe outperforms SAS by

1.5x and SATA by 4x. NVMe provides this faster performance with 10lower latency to better meet your enterprise needs.

466,816

149,20074,121

QD128

QD32

245,649

114,18053,891

100% READ 70% READ

143,49197,260

35,765

0% READ

Discover More at www.intel.in/content/www/in/en/solid-state-drives/data-center-family.html

NVMeSAS 12Gb/sSATA 6Gb/s

INTEL® SOLID-STATE DRIVE DATA CENTER FAMILY FOR NVME*NVMe technology can dramatically improve performance and efficiency

4K RANDOM WORKLOADS

• Out of band management

• Endurance indicators

• Thermal monitoring

• Power loss protection

Up to 2TB capacity options

• End-to-end error detection and correction

• Low Density Parity Check (LDPC)

• Cyclic Redundancy Checks (CRC)

• Logical Block Addressing (LBA) tag validation

HIGH CAPACITY

FAST AND CONSISTENTPERFORMANCE

Intel® Solid-State Drive DC P3600 Series Intel® Solid-State Drive DC P3700 Series

4K random read input/output operations per second (IOPS) up to 460K

PCIe* 3.0 x 4 NVMe

4K random write IOPS up to 56K

Sequential latency (typ) Read/Write 20/20µs

Sequential read/write up to 2600/1700 MB/s Sequential read/write up to 2800/2000 MB/s

4K random write IOPS up to 175K

• 20nm MLC

• Up to 25W (Write)/11W (Read) typical operational power

• 4W standby

• 3 Drive Writes Per Day

• Up to 10.95 PBW

STRESS- FREEPROTECTION

POWER ANDCOST EFFICIENCY

• 20nm MLC• Up to 25W (Write)/11W (Read) typical operational power• 4W standby• High-Endurance Technology• 10 Drive Writes Per Day• Up to 36.5 PBW

2 million hours Mean Time Between Failures (MTBF), 230 years

5 years limited warranty

Fast, Consistent Performance with Stress-Free Protection


For more details, visit https://www-ssl.intel.com/content/www/in/en/solid-state-drives/intel-ssd-dc-family-for-pcie-brief.htmlIO

PS

A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS

Discover the key factors that slow many organizations’ incident response rates

INTEL SECURITYTACKLING ATTACK DETECTION AND INCIDENT RESPONSE

A new report, Tackling Attack Detection and Incident Response, from Enterprise Strategy Group (ESG),

commissioned by Intel Security, examines organizations’ security strategies, cyber-attack environment,

incident response challenges and needs. The survey found that security professionals are inundated with

security incidents, averaging 78 investigations per organization in the last year, with 28 percent of those

incidents involving targeted attacks – one of the most dangerous and potentially damaging forms of

cyber-attacks. According to the IT and security professionals surveyed, better detection tools, better

analysis tools, and more training on how to deal with incident response issues are the top ways to

improve the efficiency and effectiveness of the information security staff.

When it comes to incident detection and response, time has an ominous correlation

to potential damage. The longer it takes an organization to identify, investigate,

and respond to a cyber-attack, the more likely it is that their actions won’t be

enough to preclude a costly breach of sensitive data. With this in mind, CISOs

should remember that collecting and processing attack data is a means toward

action – improving threat detection and response effectiveness and efficiency.

Better Integration

Nearly 80 percent of the people surveyed believe the lack of integration

and communication between security tools creates bottlenecks and

interferes with their ability to detect and respond to security threats.

Real-time, comprehensive visibility is especially important for rapid

response to targeted attacks, and 37 percent called for tighter

integration between security intelligence and IT operations tools. These

responses suggest that the very common patchwork architectures of

dozens of individual security products have created numerous silos of

tools, consoles, processes and reports that prove very time consuming

to use. These architectures are creating ever greater volumes of attack

data that drown out relevant indicators of attack.

Better Comprehension

Security professionals surveyed claim that real-time

security visibility suffers from limited understanding of

user behavior and network, application, and host

behavior. While the top four types of data collected are

network-related, and 30 percent collect user activity data,

it’s clear that data capture isn’t sufficient. Users need

more help to contextualize the data to understand what

behavior is worrisome. This gap may explain why nearly

half (47 percent) of organizations said determining the

impact or scope of a security incident was particularly

time consuming.

7

of security incidents are targeted attacks; product integration, event comprehension, and insufficient skills are key challenges to timely incident response28%

- Jon Oltsik, Senior Principal Analyst, ESG

To view the full Intel Security report, please visit: http://www.mcafee.com/us/resources/reports/rp-esg-tackling-attack-detection-incident-response.pdf

Better Analytics

Users understand they need help to evolve from simply

collecting volumes of security event and threat intelligence

data to more effectively making sense of the data and using it

to detect and assess incidents. Fifty-eight percent said they

need better detection tools (such as static and dynamic

analysis tools with cloud-based intelligence to analyze files for

intent). Fifty-three percent say they need better analysis tools

for turning security data into actionable intelligence. One-third

(33 percent) called for better tools to baseline normal system

behavior so teams can detect variances faster.

Better Expertise

People who took the survey admitted to a lack of knowledge of

the threat landscape and security investigation skills, suggesting

that even better visibility through technical integration or

analytical capabilities will be inadequate if incident response

teams cannot make sense of the information they see. For

instance, only 45 percent of respondents consider themselves

very knowledgeable about malware obfuscation techniques, and

40 percent called for more training to improve cybersecurity

knowledge and skills.

ABOUT INTEL SECURITYMcAfee is now part of Intel Security. With its Security Connected strategy, innovative approach to hardware-enhanced security, and unique

McAfee Global Threat Intelligence, Intel Security is intensively focused on developing proactive, proven security solutions and services that

protect systems, networks, and mobile devices for business and personal use around the world. Intel Security is combining the experience

and expertise of McAfee with the innovation and proven performance of Intel to make security an essential ingredient in every architecture

and on every computing platform. The mission of Intel Security is to give everyone the confidence to live and work safely and securely in

the digital world. .www.intelsecurity.com

Automation to Enhance Action

The volume of investigations, limited resources, and skills contributed to a strong desire among

respondents for help incident detection and response. Forty-two percent reported that taking action to

minimize the impact of an attack was one of their most time-consuming tasks. Twenty-seven percent

would like better automated analytics from security intelligence tools to speed real-time comprehension;

while 15 percent want automation of processes to free up staff for more important duties.

The ESG believes that there is a hidden

story within the Intel Security research that

hints at best practices and lessons learned.

This data strongly suggests that CISOs:

• Create a tightly-integrated enterprise

security technology architecture

• Anchor their cybersecurity strategy with

strong analytics, moving from volume to

value

• Automate incident detection and

response whenever possible

• Commit to continuous cybersecurity

education

Just as the medical profession must deliver heart-attack patients to the hospital

within a ‘golden hour’ to maximize likelihood of survival, the security industry must

work towards reducing the time it takes organizations to detect and deflect attacks,

before damage is inflicted. This requires that we ask and answer tough questions on

what is failing us, and evolve our thinking around how we do security.

“


“– Chris Young, General Manager, Intel Security

DESKTOP ROADMAP GUIDANCE¤This latest Intel® architecture building block roadmap update is intended to

provide you with recommendations for your Desktop deployment.

MOBILE ROADMAP GUIDANCE¤This latest Intel® architecture building block roadmap update is intended to

provide you with recommendations for your Mobile deployment.

¤ Please refer to Mobile Reference Tables for getting the exact SKU information.

^SOC (System on Chip)

Desktop Segment Processor Chipset Processor No. Clock Speed Cache

Enthusiast Desktop Intel® Core™ i7 Processor Intel® X79/X99 i7-4000/5000 Sequence Up to 3.60 GHz Up to 20 MB L3 Cache

Chipset

Enterprise Managed Desktop Intel® Core™ i5 Processor Intel® Q87 Chipset i5-4000 Sequence Up to 3.50 GHz Up to 6 MB L3 Cache

with vPro™ Technology

Advanced Desktop Intel® Core™ i3 Processor Intel® 8/9 Series i3-4000 Sequence Up to 3.80 GHz Up to 4 MB L3 Cache

Chipset

Evolving Desktop Intel® Pentium® Processor Intel® 8 Series G3200/G3400 Sequence Up to 3.50 GHz 3 MB L3 Cache

Express Chipset

Basic Desktop Intel® Celeron® Processor Intel® 8 Series G1600/G1800 Sequence Up to 2.90 GHz Up to 2 MB L3 Cache

Express Chipset

¤ Please refer to Desktop Reference Tables for getting the exact SKU information.

Mobile Segment Processor Chipset Processor No. Clock Speed Cache Wireless Solution

Portable Intel® Core™ i7 Processor Mobile Intel® 8 Series Chipset i7-4000QM / i7-4000HQ Series Minimum 2.00 4 MB or higher Intel® Centrino® 6000/7000

Workstation GHz & above L3 Cache Series (802.11 a/g/n)^Ultrabook™ / Intel® Core™ i3/i5 Processor; Integrated chipset in i3-4000U / i5-4000U Series (SOC) Minimum 1.30 3 MB or higher Intel® Centrino® 6000/7000

2 in 1 Intel® Core™ M / processor for SOC i3-5000U Series / i5-5000U Series (SOC) GHz & above L3 Cache Series (802.11 a/g/n)

Intel® Core™ M vPro™ Processor i3-4000Y / i5-4000Y Series (SOC)

5Y10 / 5Y10a / 5Y70 (SOC)

Enterprise Intel® Core™ i5/i7 Processor Mobile Intel® QM87 Chipset i7-4800HQ / i7-4900HQ / Minimum 2.10 4 MB or higher Intel® Centrino® 6000/7000^Notebook with vPro™ Technology Integrated chipset in processor i7-4800MQ / i7-4900MQ, GHz & above L3 Cache Series (802.11 a/g/n)

for SOC i7-4600U / 5500U / 5600U (SOC)^ ^SME Intel® Core™ i3/i5 Processor Mobile Intel® 8 Series Chipset i3-4000M / i3-4000U / i3-5000U Minimum 1.50 3 MB Cache Intel® Centrino® 6000/7000

^ ^ ^Notebook Integrated chipset in processor i5-4000M / i5-4000U / i5-5000U GHz & above Series (802.11 a/g/n)

for SOC

SMB / Education Intel® Pentium® Processor Mobile Intel® 8 Series Chipset 3500U & 3800U Series Dual-Core (SOC) Minimum 1.70 2 MB Cache Intel® Centrino® 6000/7000^Notebook Integrated chipset in processor N3500 Series Quad-Core (SOC) GHz & above Series (802.11 a/g/n)

for SOC

Value Intel® Celeron® Processor Mobile Intel® 8 Series Chipset 3205U & 3755U Series Dual-Core (SOC) Minimum 1.40 Minimum 1 MB Intel® Centrino® 6000/7000^Notebook Integrated chipset in processor N2800 Series Dual-Core (SOC) GHz & above Cache Series (802.11 a/g/n)

for SOC N2900 Series Quad-Core (SOC)


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.

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.

ΦServer Segment Processor Clock Speed No. of Cores Cache FSB/QPI

High End Mission Critical Intel® Itanium® Processor 9500 Series Up to 2.53 GHz Up to 8 Cores Up to 32 MB L3 Cache Up to 6.4 GT/sec QPI

Mainstream Mission Critical Intel® Xeon® Processor E7-4800 v2 / 8800 v2 Series Up to 3.40 GHz Up to 15 Cores Up to 37.5 MB L3 Cache Up to 8.0 GT/sec QPI

High Density Server (4-skt) Intel® Xeon® Processor E5-4600 v2 Series Up to 3.30 GHz Up to 12 Cores Up to 30 MB L3 Cache Up to 8.0 GT/sec QPI

Performance DP Server Intel® Xeon® Processor E5-2600 v3 Series Up to 2.60 GHz Up to 18 Cores Up to 45 MB L3 Cache Up to 9.6 GT/sec QPI

Mainstream DP Server Intel® Xeon® Processor E5-2600 v3 Series Up to 2.60 GHz Up to 8 Cores Up to 20 MB L3 Cache Up to 8.0 GT/sec QPI

Entry DP Server Intel® Xeon® Processor E5-2600 v3 Series Up to 2.40 GHz Up to 6 Cores Up to 15 MB L3 Cache Up to 8.0 GT/sec QPI

UP Server (1-skt) Intel® Xeon® Processor E3-1200 v3 Series Up to 3.60 GHz Up to 4 Cores Up to 8 MB L3 Cache N/A

ΦWorkstation Segment Processor Clock Speed No. of Cores Cache FSB/QPI

Performance DP Workstation Intel® Xeon® Processor E5-2600 v3 Series Up to 3.10 GHz Up to 18 Cores Up to 45 MB L3 Cache Up to 9.6 GT/sec QPI

Mainstream DP Workstation Intel® Xeon® Processor E5-2600 v3 Series Up to 3.20 GHz Up to 8 Cores Up to 20 MB L3 Cache Up to 9.6 GT/sec QPI

Performance UP Workstation Intel® Xeon® Processor E5-1600 v3 Series Up to 3.70 GHz Up to 8 Cores Up to 15 MB L3 Cache N/A

Entry UP Workstation (1-skt) Intel® Xeon® Processor E3-1200 v3 Series Up to 3.60 GHz Up to 4 Cores Up to 8 MB L3 Cache N/A


i7-4960X 3.6 4.0 1866 15 MB L3 6/12 130W

i7-4930K 3.4 3.9 1866 12 MB L3 6/12 130W

i7-4820K 3.7 3.9 1866 10 MB L3 4/8 130W

i7-4790S 3.2 4.0 1600 8 MB L3 4/8 65W

i7-4790T 2.7 3.9 1600 8 MB L3 4/8 45W

i7-4790 3.6 4.0 1600 8 MB L3 4/8 84W

i7-4785T 2.2 3.2 1600 8 MB L3 4/8 35W ¤ i7-4771 3.5 3.9 1600 8 MB L3 4/8 84W ¤ i7-4770K 3.5 3.9 1600 8 MB L3 4/8 84W

¤ i7-4770R 3.2 3.9 1600 6 MB L3 4/8 65W ¤ i7-4770S 3.1 3.9 1600 8 MB L3 4/8 65W ¤ i7-4770T 2.5 3.7 1600 8 MB L3 4/8 45W ¤ i7-4770 3.4 3.9 1600 8 MB L3 4/8 84W ¤ i7-4765T 2.0 3.0 1600 8 MB L3 4/8 35W

i5-4690S 3.2 3.9 1600 6 MB L3 4/4 65W

i5-4690T 2.5 3.5 1600 6 MB L3 4/4 45W

i5-4690 3.5 3.9 1600 6 MB L3 4/4 84W ¤ i5-4670K 3.4 3.8 1600 6 MB L3 4/4 84W ¤ i5-4670R 3.0 3.7 1600 4 MB L3 4/4 65W ¤ i5-4670S 3.1 3.8 1600 6 MB L3 4/4 65W ¤ i5-4670T 2.3 3.3 1600 6 MB L3 4/4 45W ¤ i5-4670 3.4 3.8 1600 6 MB L3 4/4 84W

i5-4590S 3.0 3.7 1600 6 MB L3 4/4 65W

i5-4590T 2.0 3.0 1600 6 MB L3 4/4 35W

i5-4590 3.3 3.7 1600 6 MB L3 4/4 84W ¤ i5-4570R 2.7 3.2 1600 4 MB L3 4/4 65W ¤ i5-4570S 2.9 3.6 1600 6 MB L3 4/4 65W ¤ i5-4570T 2.9 3.6 1600 4 MB L3 2/4 35W ¤ i5-4570 3.2 3.6 1600 6 MB L3 4/4 84W

i5-4460S 2.9 3.4 1600 6 MB L3 4/4 65W

i5-4460T 1.9 2.7 1600 6 MB L3 4/4 35W

i5-4460 3.2 3.4 1600 6 MB L3 4/4 84W

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

DESKTOPS - INTEL® PROCESSOR REFERENCE CHARTIntel® Brand or

Processor FamilyIntel® vPro™

1, ¥TechnologyIntel® HDGraphics

12Intel® VT

Base

Frequency

(GHz)

Processor

Number

Cache Cores /

Threads

Memory

Speed DDR3

Only (MHz)

Intel® Technologies

13Intel® 64

Intel® Turbo Boost 11Technology

- Max Turbo (GHz)

Power

(Max TDP)

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

¥ Need other compatible components like chipset and firmware


Intel® Brand or

Processor FamilyIntel® HDGraphics

12Intel® VT

Base

Frequency

(GHz)

Processor

Number

Cache Cores /

Threads

Memory

Speed DDR3

Only (MHz)


13Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)

¤ i5-4440S 2.8 3.3 1600 6 MB L3 4/4 65W

¤ i5-4440 3.1 3.3 1600 6 MB L3 4/4 84W

¤ i5-4430S 2.7 3.2 1600 6 MB L3 4/4 65W

¤ i5-4430 3.0 3.2 1600 6 MB L3 4/4 84W

4th Generation Intel® Core™ i5 Processor Family (22nm)

4th Generation Intel® Core™ i3 Processor Family (22nm)

i3-4370 3.8 N/A 1600 4 MB L3 2/4 54W

i3-4360T 3.2 N/A 1600 4 MB L3 2/4 35W

i3-4360 3.7 N/A 1600 4 MB L3 2/4 54W

i3-4350T 3.1 N/A 1600 4 MB L3 2/4 35W i3-4350 3.6 N/A 1600 4 MB L3 2/4 54W ¤ i3-4340 3.6 N/A 1600 4 MB L3 2/4 54W ¤ i3-4330T 3.0 N/A 1600 4 MB L3 2/4 35W ¤ i3-4330 3.5 N/A 1600 4 MB L3 2/4 54W i3-4160T 3.1 N/A 1600 3 MB L3 2/4 35W i3-4160 3.6 N/A 1600 3 MB L3 2/4 54W i3-4150T 3.0 N/A 1600 3 MB L3 2/4 35W i3-4150 3.5 N/A 1600 3 MB L3 2/4 54W ¤ i3-4130T 2.9 N/A 1600 3 MB L3 2/4 35W ¤ i3-4130 3.4 N/A 1600 3 MB L3 2/4 54W

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

DESKTOPS - INTEL® PROCESSOR REFERENCE CHARTINTEL® ROADMAP DIRECTIONS 201512

Intel® Brand or

Processor FamilyIntel®HD Graphics

12Intel® VT

Base

Frequency

(GHz)

Processor

Number

Cache Cores /

Threads

Memory

Speed DDR3

Only (MHz)


13Intel® 64

Burst

Frequency

(GHz)

Power

(Max TDP)

G3460 3.5 N/A 1600 3 MB L3 2/2 53W

G3450T 2.9 N/A 1600 3 MB L3 2/2 35W

G3450 3.4 N/A 1600 3 MB L3 2/2 53W

G3440T 2.8 N/A 1600 3 MB L3 2/2 35W

G3440 3.3 N/A 1600 3 MB L3 2/2 53W

G3430 3.3 N/A 1600 3 MB L3 2/2 53W

G3420T 2.7 N/A 1600 3 MB L3 2/2 35W

G3420 3.2 N/A 1600 3 MB L3 2/2 53W

G3258 3.2 N/A 1333 3 MB L3 2/2 53W

G3250T 2.8 N/A 1333 3 MB L3 2/2 35W

G3250 3.2 N/A 1333 3 MB L3 2/2 53W

G3240T 2.7 N/A 1333 3 MB L3 2/2 35W

G3240 3.1 N/A 1333 3 MB L3 2/2 53W

G3220T 2.6 N/A 1333 3 MB L3 2/2 35W

G3220 3.0 N/A 1333 3 MB L3 2/2 53W

J2900 2.41 2.66 1333 2 MB L2 4/4 10W

J2850 2.41 N/A 1333 2 MB L2 4/4 10W

G1850 2.9 N/A 1333 2 MB L3 2/2 53W

G1840T 2.5 N/A 1333 2 MB L3 2/2 35W

G1840 2.8 N/A 1333 2 MB L3 2/2 53W

G1830 2.8 N/A 1333 2 MB L3 2/2 53W

G1820T 2.4 N/A 1333 2 MB L3 2/2 35W

G1820 2.7 N/A 1333 2 MB L3 2/2 53W

J1900 2.0 2.41 1333 2 MB L2 4/4 10W

J1850 2.0 N/A 1333 2 MB L2 4/4 10W

J1800 2.41 2.58 1333 1 MB L2 2/2 10W

J1750 2.41 N/A 1333 1 MB L2 2/2 10W

Intel® Pentium® Processor J2000 Series (22nm)

Intel® Celeron® Processor G1800 Series (22nm)

Intel® Celeron® Processor J1000 Series (22nm)

Intel® Pentium® Processor G3000 Series (22nm)

DESKTOPS - INTEL® PROCESSOR REFERENCE CHARTA RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 13

i7-5650U 2.2 3.1 1866 4 MB L3 2/4 15W

i7-5600U 2.6 3.2 1600 4 MB L3 2/4 15W

i7-5557U 3.1 3.4 1866 4 MB L3 2/4 28W

i7-5550U 2.0 3.0 1866 4 MB L3 2/4 15W

i7-5500U 2.4 3.0 1600 4 MB L3 2/4 15W

5th Generation Intel® Core™ i7 Processors (14nm)


i5-5350U 1.8 2.9 1866 3 MB L3 2/4 15W

i5-5300U 2.3 2.9 1600 3 MB L3 2/4 15W

i5-5287U 2.9 3.3 1866 3 MB L3 2/4 28W

i5-5257U 2.7 3.1 1866 3 MB L3 2/4 28W

i5-5250U 1.6 2.7 1866 3 MB L3 2/4 15W

i5-5200U 2.2 2.7 1600 3 MB L3 2/4 15W


i3-5157U 2.5 N/A 1866 3 MB L3 2/4 28W

i3-5010U 2.1 N/A 1600 3 MB L3 2/4 15W

i3-5005U 2.0 N/A 1600 3 MB L3 2/4 15W

5th Generation Intel® Core™ M Processors (14nm)

M-5Y71 1.2 2.9 1600 4 MB L3 2/4 4.5W

M-5Y70 1.1 2.6 1600 4 MB L3 2/4 4.5W

M-5Y51 1.1 2.6 1600 4 MB L3 2/4 4.5W

M-5Y31 0.9 2.4 1600 4 MB L3 2/4 4.5W

M-5Y10c 0.8 2.0 1600 4 MB L3 2/4 4.5W

M-5Y10a 0.8 2.0 1600 4MB L3 2/4 4.5W

M-5Y10 0.8 2.0 1600 4 MB L3 2/4 4.5W


Intel® Brand or

Processor Family Intel® vPro™1, ¥Technology

Intel® HDGraphics

12Intel® VT

Base

Frequency

(GHz)

Processor

Number

Cache Cores /

Threads

Memory

Speed DDR3

Only (MHz)


13Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)

NOTEBOOKS - INTEL® PROCESSOR REFERENCE CHARTINTEL® ROADMAP DIRECTIONS 201514


Intel® Brand or

Processor FamilyIntel® vPro™

1, ¥TechnologyIntel® HDGraphics

12Intel® VT

Base

Frequency

(GHz)

Processor

Number

Cache Cores /

Threads

Memory

Speed DDR3

Only (MHz)


13Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)

i7-4980HQ 2.8 4.0 1600 6 MB L3 4/8 47W

i7-4960HQ 2.6 3.8 1600 6 MB L3 4/8 47W

i7-4940MX 3.1 4.0 1600 8 MB L3 4/8 57W

i7-4930MX 3.0 3.9 1600 8 MB L3 4/8 57W

i7-4910MQ 2.9 3.9 1600 8 MB L3 4/8 47W

i7-4900MQ 2.8 3.8 1600 8 MB L3 4/8 47W

i7-4870HQ 2.5 3.7 1600 6 MB L3 4/8 47W

i7-4860HQ 2.4 3.6 1600 6 MB L3 4/8 47W

i7-4850HQ 2.3 3.5 1600 6 MB L3 4/8 47W

i7-4810MQ 2.8 3.8 1600 6 MB L3 4/8 47W

i7-4800MQ 2.7 3.7 1600 6 MB L3 4/8 47W

i7-4760HQ 2.1 3.3 1600 6 MB L3 4/8 47W

i7-4750HQ 2.0 3.2 1600 6 MB L3 4/8 47W

i7-4712HQ 2.3 3.3 1600 6 MB L3 4/8 37W

i7-4712MQ 2.3 3.3 1600 6 MB L3 4/8 37W

i7-4710HQ 2.5 3.5 1600 6 MB L3 4/8 47W

i7-4710MQ 2.5 3.5 1600 6 MB L3 4/8 47W

i7-4702HQ 2.2 3.2 1600 6 MB L3 4/8 37W

i7-4702MQ 2.2 3.2 1600 6 MB L3 4/8 37W

i7-4700HQ 2.4 3.4 1600 6 MB L3 4/8 47W

i7-4700MQ 2.4 3.4 1600 6 MB L3 4/8 47W

i7-4650U 1.7 3.3 1600 4 MB L3 2/4 15W

i7-4610M 3.0 3.7 1600 4 MB L3 2/4 37W

i7-4610Y 1.7 2.9 1600 4 MB L3 2/4 11.5W

i7-4600M 2.9 3.6 1600 4 MB L3 2/4 37W

i7-4600U 2.1 3.3 1600 4 MB L3 2/4 15W

i7-4578U 3.0 3.5 1600 4 MB L3 2/4 28W

i7-4558U 2.8 3.3 1600 4 MB L3 2/4 28W

i7-4550U 1.5 3.0 1600 4 MB L3 2/4 15W

i7-4510U 2.0 3.1 1600 4 MB L3 2/4 15W

i7-4500U 1.8 3.0 1600 4 MB L3 2/4 15W


NOTEBOOKS - INTEL® PROCESSOR REFERENCE CHARTA RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 15


i5-4360U 1.5 3.0 1600 3 MB L3 2/4 15W

i5-4350U 1.4 2.9 1600 3 MB L3 2/4 15W

i5-4340M 2.9 3.6 1600 3 MB L3 2/4 37W

i5-4330M 2.8 3.5 1600 3 MB L3 2/4 37W

i5-4310M 2.7 3.4 1600 3 MB L3 2/4 37W

i5-4310U 2.0 3.0 1600 3 MB L3 2/4 15W

i5-4308U 2.8 3.3 1600 3 MB L3 2/4 28W

i5-4302Y 1.6 2.3 1600 3 MB L3 2/4 11.5W

i5-4300M 2.6 3.3 1600 3 MB L3 2/4 37W

i5-4300U 1.9 2.9 1600 3 MB L3 2/4 15W

i5-4300Y 1.6 2.3 1600 3 MB L3 2/4 11.5W

i5-4288U 2.6 3.1 1600 3 MB L3 2/4 28W

i5-4278U 2.6 3.1 1600 3 MB L3 2/4 28W

i5-4260U 1.4 2.7 1600 3 MB L3 2/4 15W

i5-4258U 2.4 2.9 1600 3 MB L3 2/4 28W

i5-4250U 1.3 2.6 1600 3 MB L3 2/4 15W

i5-4220Y 1.6 2.0 1600 3 MB L3 2/4 11.5W

i5-4210H 2.9 3.5 1600 3 MB L3 2/4 47W

i5-4210M 2.6 3.2 1600 3 MB L3 2/4 37W

i5-4210U 1.7 2.7 1600 3 MB L3 2/4 15W

i5-4210Y 1.5 1.9 1600 3 MB L3 2/4 11.5W

i5-4202Y 1.6 2.0 1600 3 MB L3 2/4 11.5W

i5-4200H 2.8 3.4 1600 3 MB L3 2/4 47W

i5-4200M 2.5 3.1 1600 3 MB L3 2/4 37W

i5-4200U 1.6 2.6 1600 3 MB L3 2/4 15W

i5-4200Y 1.4 1.9 1600 3 MB L3 2/4 11.5W


Intel® Brand or

Processor Family Intel® vPro™1, ¥Technology

Intel® HDGraphics

12Intel® VT

Base

Frequency

(GHz)

Processor

Number

Cache Cores /

Threads

Memory

Speed DDR3

Only (MHz)


13Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)

NOTEBOOKS - INTEL® PROCESSOR REFERENCE CHARTINTEL® ROADMAP DIRECTIONS 201516


Intel® Brand or

Processor Family Intel® HDGraphics

12Intel® VT

Base

Frequency

(GHz)

Processor

Number

Cache Cores /

Threads

Memory

Speed DDR3

Only (MHz)


13Intel® 64


- Max Turbo (GHz)

Power

(Max TDP)

i3-4158U 2.0 N/A 1600 3 MB L3 2/4 28W i3-4120U 2.0 N/A 1600 3 MB L3 2/4 15W i3-4110M 2.6 N/A 1600 3 MB L3 2/4 37W i3-4100M 2.5 N/A 1600 3 MB L3 2/4 37W i3-4100U 1.8 N/A 1600 3 MB L3 2/4 15W i3-4030U 1.9 N/A 1600 3 MB L3 2/4 15W i3-4030Y 1.6 N/A 1600 3 MB L3 2/4 11.5W i3-4025U 1.9 N/A 1600 3 MB L3 2/4 15W i3-4020Y 1.5 N/A 1600 3 MB L3 2/4 11.5W i3-4012Y 1.5 N/A 1600 3 MB L3 2/4 11.5W i3-4010U 1.7 N/A 1600 3 MB L3 2/4 15W i3-4010Y 1.3 N/A 1600 3 MB L3 2/4 11.5W i3-4005U 1.7 N/A 1600 3 MB L3 2/4 15W i3-4000M 2.4 N/A 1600 3 MB L3 2/4 37W

Intel® Celeron® Processors (22nm)

2981U 1.6 N/A 1600 2 MB L3 2/2 15W 2980U 1.6 N/A 1600 2 MB L3 2/2 15W 2970M 2.2 N/A 1600 2 MB L3 2/2 37W 2961Y 1.1 N/A 1600 2 MB L3 2/2 11.5W 2957U 1.4 N/A 1600 2 MB L3 2/2 15W 2955U 1.4 N/A 1600 2 MB L3 2/2 15W 2950M 2.0 N/A 1600 2 MB L3 2/2 37W 1019Y 1.0 N/A 1600 2 MB L3 2/2 10W N2940 1.83 2.25 1333 2 MB L2 4/4 7.5W N2930 1.83 2.16 1333 2 MB L2 4/4 7.5W N2920 1.86 2.0 1066 2 MB L2 4/4 7.5W N2840 2.16 2.58 1333 1 MB L2 2/2 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 2.0 N/A 1066 1 MB L2 2/2 7.5W N2808 1.58 2.25 1333 1 MB L2 2/2 4.5W N2807 1.58 2.16 1333 1 MB L2 2/2 4.3W N2806 1.6 2.0 1066 1 MB L2 2/2 4.5W N2805 1.46 N/A 1066 1 MB L2 2/2 4.3W

NOTEBOOKS - INTEL® PROCESSOR REFERENCE CHARTA RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 17

Intel® Brand or

Processor Family

Clock Speed

(GHz)

Processor

Number

ΦIntel® QPI

(GT/Sec)

Cores /

Threads

CacheMax Turbo Clock

Speed (GHz)

Power

(Max TDP)

9560 2.53 N/A 1067 32 MB L3 6.4 8/16 170W MP

9550 2.4 N/A 1067 32 MB L3 6.4 4/8 170W MP

9540 2.13 N/A 1067 24 MB L3 6.4 8/16 170W MP

9520 1.73 N/A 1067 20 MB L3 6.4 4/8 130W MP

9350 1.73 1.86 800 24 MB L3 4.8 4/8 185W MP

9340 1.6 1.73 800 20 MB L3 4.8 4/8 185W MP

9330 1.46 1.6 800 20 MB L3 4.8 4/8 155W MP

9320 1.33 1.46 800 16 MB L3 4.8 4/8 155W MP

9310 1.6 N/A 800 10 MB L3 4.8 2/4 130W MP

ΩSystem Type

Φ Intel® QuickPath Interconnect (Intel®QPI) unleashes the parallel processing performance of the latest Intel® microarchitectures

Ω Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability.

E7-8893 v2 3.4 3.7 1600 37.5 MB L3 8.0 6/12 155W Up to 8 Processors



E7-8880L v2 2.2 2.8 1600 37.5 MB L3 8.0 15/30 105W Up to 8 Processors


E7-8870 v2 2.3 2.9 1600 30 MB L3 8.0 15/30 130W Up to 8 Processors










E7-4809 v2 1.9 N/A 1333 12 MB L3 6.4 6/12 105W Up to 4 Processors





Memory Speed

DDR3 Only (MHz)

Intel® Itanium® Processor 9000 Sequence~

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

SERVERS - INTEL® PROCESSOR REFERENCE CHARTINTEL® ROADMAP DIRECTIONS 201518

« Workstation only SKUΦ Intel® QuickPath Interconnect (Intel®QPI) unleashes the parallel processing performance of the latest Intel® microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability.

Intel® Xeon® Processor E5-4600 v2 Sequence~

E5-2699 v3 2.3 3.6 2133 45 MB L3 9.6 18/36 145W DP

E5-2698 v3 2.3 3.6 2133 40 MB L3 9.6 16/32 135W DP

E5-2697 v3 2.6 3.6 2133 35 MB L3 9.6 14/28 145W DP

E5-2695 v3 2.3 3.3 2133 35 MB L3 9.6 14/28 120W DP

E5-2690 v3 2.6 3.5 2133 30 MB L3 9.6 12/24 135W DP«E5-2687W v3 3.1 3.5 2133 25 MB L3 9.6 10/20 160W DP

E5-2683 v3 2.0 3.0 2133 35 MB L3 9.6 14/28 120W DP

E5-2680 v3 2.5 3.3 2133 30 MB L3 9.6 12/24 120W DP

E5-2670 v3 2.3 3.1 2133 30 MB L3 9.6 12/24 120W DP

E5-2667 v3 3.2 3.6 2133 20 MB L3 9.6 8/16 135W DP

E5-2660 v3 2.6 3.3 2133 25 MB L3 9.6 10/20 105W DP

E5-2650L v3 1.8 2.5 2133 30 MB L3 9.6 12/24 65W DP

E5-2650 v3 2.3 3.0 2133 25 MB L3 9.6 10/20 105W DP

E5-2643 v3 3.4 3.7 2133 20 MB L3 9.6 6/12 135W DP

E5-2640 v3 2.6 3.4 1866 20 MB L3 8.0 8/16 90W DP

E5-2637 v3 3.5 3.7 2133 15 MB L3 9.6 4/8 135W DP

E5-2630L v3 1.8 2.9 1866 20 MB L3 8.0 8/16 55W DP

E5-2630 v3 2.4 3.2 1866 20 MB L3 8.0 8/16 85W DP

E5-2623 v3 3.0 3.5 1866 10 MB L3 8.0 4/8 105W DP

E5-2620 v3 2.4 3.2 1866 15 MB L3 8.0 6/12 85W DP

E5-2609 v3 1.9 N/A 1600 15 MB L3 6.4 6/6 85W DP

E5-2603 v3 1.6 N/A 1600 15 MB L3 6.4 6/6 85W DP

E5-1680 v3 3.2 3.8 2133 20 MB L3 N/A 8/16 140W UP

E5-1660 v3 3.0 3.5 2133 20 MB L3 N/A 8/16 140W UP

E5-1650 v3 3.5 3.8 2133 15 MB L3 N/A 6/12 140W UP

E5-1630 v3 3.7 3.8 2133 10 MB L3 N/A 4/8 140W UP

E5-1620 v3 3.5 3.6 2133 10 MB L3 N/A 4/8 140W UP

Intel® Xeon® Processor E5-2600 v3 and E5-1600 v3 Sequence~

Intel® Brand or

Processor Family

Clock Speed

(GHz)

Processor

Number

ΦIntel® QPI

(GT/Sec)

Cores /

Threads


Speed (GHz)

Power

(Max TDP)

ΩSystem TypeMemory Speed

DDR3 Only (MHz)

E5-4657L v2 2.4 2.9 1866 30 MB L3 8.0 12/24 115W Up to 4 Processors








Clock Speed

(GHz)

Processor

Number

ΦIntel® QPI

(GT/Sec)

Cores /

Threads


Speed (GHz)

Power

(Max TDP)


DDR4 Only (MHz)

SERVERS - INTEL® PROCESSOR REFERENCE CHARTA RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 19

Intel® Brand or

Processor Family

Clock Speed

(GHz)

Processor

Number

ΦIntel® QPI

(GT/Sec)

Cores /

Threads


Speed (GHz)

Power

(Max TDP)


DDR3 Only (MHz)

« Workstation only SKUΦ Intel® QuickPath Interconnect (Intel®QPI) unleashes the parallel processing performance of the latest Intel® microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability.











E5-2697 v2 2.7 3.5 1866 30 MB L3 8.0 12/24 130W DP

E5-2695 v2 2.4 3.2 1866 30 MB L3 8.0 12/24 115W DP

E5-2690 v2 3.0 3.6 1866 25 MB L3 8.0 10/20 130W DP «E5-2687W v2 3.4 4.0 1866 25 MB L3 8.0 8/16 150W DP

E5-2680 v2 2.8 3.6 1866 25 MB L3 8.0 10/20 115W DP

E5-2670 v2 2.5 3.3 1866 25 MB L3 8.0 10/20 115W DP

E5-2667 v2 3.3 4.0 1866 25 MB L3 8.0 8/16 130W DP

E5-2660 v2 2.2 3.0 1866 25 MB L3 8.0 10/20 95W DP

E5-2650L v2 1.7 2.1 1600 25 MB L3 7.2 10/20 70W DP

E5-2650 v2 2.6 3.4 1866 20 MB L3 8.0 8/16 95W DP

E5-2643 v2 3.5 3.8 1866 25 MB L3 8.0 6/12 130W DP

E5-2640 v2 2.0 2.5 1600 20 MB L3 7.2 8/16 95W DP

E5-2637 v2 3.5 3.8 1866 15 MB L3 8.0 4/8 130W DP

E5-2630L v2 2.4 2.8 1600 15 MB L3 7.2 6/12 60W DP

E5-2630 v2 2.6 3.1 1600 15 MB L3 7.2 6/12 80W DP

E5-2620 v2 2.1 2.6 1600 15 MB L3 7.2 6/12 80W DP

E5-2609 v2 2.5 N/A 1333 10 MB L3 6.4 4/4 80W DP

E5-2603 v2 1.8 N/A 1333 10 MB L3 6.4 4/4 80W DP

E5-1660 v2 3.7 4.0 1866 15 MB L3 N/A 6/12 130W UP

E5-1650 v2 3.5 3.9 1866 12 MB L3 N/A 6/12 130W UP

E5-1620 v2 3.7 3.9 1866 10 MB L3 N/A 4/8 130W UP

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

SERVERS - INTEL® PROCESSOR REFERENCE CHARTINTEL® ROADMAP DIRECTIONS 201520

∏ Also available as part of an Intel® Xeon Phi™ starter kitΦ Intel® QuickPath Interconnect (Intel®QPI) unleashes the parallel processing performance of the latest Intel® microarchitecturesΩ Scalability mentioned is with Intel Chipsets only. OEMs can use their proprietary Node Controls to enhance the scalability.

E3-1285L v3 3.1 3.9 1600 8 MB L3 N/A 4/8 65W UP

E3-1285 v3 3.6 4.0 1600 8 MB L3 N/A 4/8 84W UP

E3-1280 v3 3.6 4.0 1600 8 MB L3 N/A 4/8 82W UP

E3-1275 v3 3.5 3.9 1600 8 MB L3 N/A 4/8 84W UP

E3-1270 v3 3.5 3.9 1600 8 MB L3 N/A 4/8 80W UP

E3-1265L v3 2.5 3.7 1600 8 MB L3 N/A 4/8 45W UP

E3-1245 v3 3.4 3.8 1600 8 MB L3 N/A 4/8 84W UP

E3-1240 v3 3.4 3.8 1600 8 MB L3 N/A 4/8 80W UP

E3-1230L v3 1.8 2.8 1600 8 MB L3 N/A 4/8 25W UP

E3-1230 v3 3.3 3.7 1600 8 MB L3 N/A 4/8 80W UP

E3-1225 v3 3.2 3.6 1600 8 MB L3 N/A 4/4 84W UP

E3-1220L v3 1.1 1.5 1600 4 MB L3 N/A 2/4 13W UP

E3-1220 v3 3.1 3.5 1600 8 MB L3 N/A 4/4 80W UP


Intel® Xeon Phi™ Coprocessor Sequence~

Clock Speed

(GHz)

Processor

Number

Cache CoresGDDR5 Memory

Speed (GT/s)

Max Turbo Clock

Speed (GHz)

Board TDP (Watts)

Intel® Brand or

Processor Family

Clock Speed

(GHz)

Processor

Number

ΦIntel® QPI

(GT/Sec)

Cores /

Threads


Speed (GHz)

Power

(Max TDP)


DDR3 Only (MHz)

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 30.0 MB 60 245WΠ 5110P 1.053 N/A 5.0 30.0 MB 60 225WΠ 3120A 1.1 N/A 5.0 28.5 MB 57 300W

3120P 1.1 N/A 5.0 28.5 MB 57 300W

Clock Speed

(GHz)

Processor

Number

Cache Cores /

Threads

Memory Speed

DDR3 Only (MHz)

Max Turbo Clock

Speed (GHz)

Power (Max TDP)

C2750 2.4 2.6 1600 4 MB 8/8 20W

C2730 1.7 2.4 1600 4 MB 8/8 12W

C2550 2.4 2.6 1600 2 MB 4/4 14W

C2530 1.7 2.4 1333 2 MB 4/4 9.0W

C2350 1.7 2.0 1333 1 MB 2/2 6.0W

S1260 2.0 N/A 1333 1 MB 2/4 8.5W

S1240 1.6 N/A 1333 1 MB 2/4 6.1W

S1220 1.6 N/A 1333 1 MB 2/4 8.1W

Intel® Atom™ Processor C2000/S1200 Sequence~

SERVERS - INTEL® PROCESSOR REFERENCE CHARTA RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 21

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

Veriton* M200-Q87,

Veriton M 6630 G

Optiplex* 9020

EliteDesk* 800 G1

M93p/M73/M83/E73

Optiplex 9030 AIO

(23" Display)

EliteOne* 800 G1

(23” Display)

M73z/M93z/

E73z/E93z

(20”/23"/20"/

21" Display)

Veriton M200-B85,

Veriton M 4630 G

Optiplex 9020,

3020, 7020

ProDesk* 600 G1,

ProDesk 400 G1,

ProDesk 400 G2,

HP* 406 G1,

ProDesk 490 G1,

ProDesk 600 G1,

EliteDesk 700 G1

M73à H81 Chipset/

M83a Q85 Chipset/

M93a Q87 Chipset

Optiplex 9030/3030

AIO (23"/19" Display)

ProOne* 600 G1

(21.5” Display),

ProOne 400 G1

(19.5”/21.5” Display),

EliteOne 800 G1

(23” Display)

M73zà H81 Chipset -

Non Touch (20” Display),

M93za Q87 Chipset -

Non Touch/Touch

(23” Display)

Veriton M200-H81,

Veriton M 2630 GB

Optiplex 3020

202 G1, 202 G2,

3330 MT, 4300 SFF,

Pro* 6300 SFF/MT,

Pro 400 SFF/MT,

ProDesk 600 SFF/Twr,

Elite* 800 SFF/Twr,

Elite 8300

SFF/MT/SFF/CMT,

HP 260 G1 Desktop

E73/E93/M32/M73

Gateway* M200-H61/

Veriton M200-H61

(20” Display)

Optiplex 3030 AIO

(19" Display)

400 G1 (19.5" Display),

600 G1 (21.5" Display),

800 G1 (23" Display)

E63z (19" Display),

M73z/E73z/E93z

(21" Display)

∆

DESKTOP - OEMS AND OTHER BRANDSOEM

ADVANCE MANAGEMENT SEGMENT4th Gen Intel® Core™ Processor

AIODesktop

STANDARD SEGMENT4th Gen Intel® Core™ Processor

AIODesktop

ESSENTIAL SEGMENTIntel® Pentium®/Celeron® Processor

AIODesktop



TMP645

Latitude* 7000

Series (Latitude

E7450, Latitude

E7440, Latitude

13 7350, Latitude

7250)

LIFEBOOK* S935,

U745, T935 (All

with 5th Gen Intel®

Core™ Processors)

HP* 1040,

HP 9480M, 840

Haswell, EliteBook*

Folio* 1040 G2,

EliteBook Folio

1020 G1, EliteBook

Folio 1020 G1

X1 Carbon*,

Yoga* 2, Yoga 3 Pro

Portege* Z30-A,

Portege Z30t-A,

Portege Z10t-A,

Portege Z20t-B

Latitude 6 Series

(Latitude E6440,

Latitude E6540),

Latitude 5000

Series (Latitude

E5540, Latitude

E5550 Latitude

E5450, Latitude

E5250)

LIFEBOOK E754,

E744, E734,

LIFEBOOK H730

HP 800 Series,

HP 820 G1,

HP 850 G1,

EliteBook 820 G2,

EliteBook 840 G2,

ZBook* 15,

EliteBook 850 G2,

ProBook* 650 G1,

ProBook 640 G1

Haswell, Broadwell

T440p, T440/

T440s, W540,

L440, X240

Portege R30-A, Portege R30t-A, TECRA* Z40-A, TECRA Z50-A, TECRA W50-A, TECRA A50-A

Latitude 5000 Series

(Latitude E5450, Latitude E5250),


(Latitude 3440, Latitude 3450,

Latitude 3550, Latitude 3340)

TMP645, TMP446,

TMP236, TMP246,

Aspire E5-571

LIFEBOOK E544, E554,

(A555, A555-Gi5 - with

5th Gen Intel® Core™ Processors)

HP 340 G2, HP 430 G2,

HP 440 G2, 450 G2,

ProBook 470 G2,

EliteBook 720 G1,

EliteBook 720 G2,

EliteBook 740 G2 ,

EliteBook 750 G2,

ZBook 14 G2,

EliteBook 750 G1

Haswell & Broadwell

Satellite* Pro C40-B,

Satellite C40-B,

Satellite Pro R50-B

TMP246,

Aspire ES1-511;

ES1-512; E5-511

HP 240 G3, 250 G3,

HP 250 G4, HP 240

G4, HP 340 G2

Haswell & Broadwell,

Baytrail and Braswell

B40-70 (Intel)

Venue* 11 Pro

7000 Series,

Venue 11 Pro

STYLISTIC*

Q704

Elite* x2 1011 G1,

HP Pro* x2 612 G1

Venue

Pro 11

Venue 8 Pro,

Venue 10 Pro

5000 Series

Windows*,

Venue 7 3000

Series, Venue 8

3000 Series,

Venue 10 5000

Series

WT8-B

(Windows*

based Tablet)

∆MOBILE - OEMS AND OTHER BRANDS

TMP645,

Aspire* E5-571G;

V3-572G, V3-572

Aspire Switch* 12,

Aspire Switch 11Acer* One -

S1001


(Latitude 3440,

Latitude 3450,

Latitude 3550,

Latitude 3340)

HP Pro Tablet 10

EE G1, HP Stream*

8 Tablet - 5901tw,

HP Omni* 10

5601tw Tablet,

ElitePad* 1000 G2

Tablet, ElitePad

900 G1 Tablet

ThinkPad* Helix*

2nd Gen

ThinkPad 8,

ThinkPad 10,

Miix* 2 (8") Tablet,

Miix 3 (10.1"),

Miix 3, Yoga

Tablet 2 with

Windows (8),

Yoga Tablet 2 Pro

STYLISTIC

Q584, Q555,

V535

T935

OEMADVANCE MANAGEMENT SEGMENT4th/5th Gen Intel® Core™ Processor

NotebookUltrabook™

STANDARD SEGMENT4th/5th Gen

Intel® Core™ Processor

ESSENTIAL SEGMENTIntel® Celeron®

Processor

TABLETIntel® Core™ M

Processor/ Intel® Core™ Processor

Intel®Celeron®

Processor

Intel® Atom™

Processor



Intel® Xeon® Processor

E3-1200 Family – Single

Socket/Processor-based

Servers


E5-2600 v3 – Dual


Servers


E5-2600 v2 & E5-2400 v2

Family – Dual Socket/

Processor-based Servers


E5-4600 v2 Family – Quad


Servers

Acer* T110 F3,

Acer AT310 F2Altos R380 F2,Altos R360 F2

T20, R210 II, R220

PRIMERGY* TX 1330/1320/

1310 M1, PRIMERGY TX140 S2,

PRIMERGY RX100 S8

ML310e Gen8 v2,

DL320e Gen8 v2, ML10

RS140, TS140, TS440,

x3250 M5, x3100 M5

UCS* B200 M4, UCS C240 M4,

UCS C220 M4

T630, R630, R730, R730xd,

M630

BX2560 M1, BX2580 M1,

RX2530 M1, RX2540 M1,

RX2560 M1, CX400 M1,

CX2550 M1, CX2570 M1,

TX2560 M1

DL160 Gen9, DL180 Gen9,

DL360 Gen9, DL380 Gen9,

BL460c Gen9, ML350 Gen9

RD550, RD650, TD350, x3650

M5, x3550 M5, x240 M5

Sun* Server Rack: X4-2, X4-2L;

Sun Blade: X4-2B

UCS B22 M3, UCS B200 M3,

UCS C22 M3, UCS C220 M3,

UCS C240 M3

T320, T420, T620, R320,

R420, R520, R620, R720,

R720xd, M420, M520, M620,

C6220II, C8220x, VRTX

BX920 S4, BX924 S4, RX2520

M1, TX2540 M1, TX300 S8,

PRIMERGY RX 200 S8, RX 350

S8, RX300 S8, CX420

S1-CX272 S1

DL160 Gen8, DL360e Gen8, DL 360p Gen8, DL 380 Gen8, DL 380p Gen8, DL 380e Gen8, DL380 Gen8, BL460c Gen8, BL420c Gen8, SL230/250/270 Gen8, ML350e Gen8, ML350p Gen8, ML350e Gen8 v2

RD340, RD440, RD540, RD640, TD340, x3650 M4, x3630 M4, x3550 M4, dx360 M4, x3500 M4, dx360 M4, x3650 M4, x240, x280 x6, HS23

UCS B420 M3, UCS C420 M3

R820, M820

BL660c Gen8,

DL560 Gen8

x3750 M4, x440

Sun Server Rack: X2-4, X2-8,

X4-4, X4-8

4-Processor NEC

Express5800*/A2040b

UCS B260 M4, UCS C460 M4,

UCS B460 M4

R920

PRIMERGY

RX4770 M1, 8-processor

Fujitsu PRIMEQUEST* 2400B,

2400E, 2800E

4-Processor Huawei

RH5885H* v3

DL580 Gen8

x3950 X6, 3850 X6, x280 x6,

x480 X6, x880 X6

∆SERVER - OEMS AND OTHER BRANDS

Altos* R380 F3 (2U),

Altos R360 F3 (1U)Altos R580 F2

OEMIntel® Xeon® E7-2800/4800/

8800 v2 Processor Family –

Dual/Quad Processor-based

and Expandable Servers


For regular updates,

log on to

http://www.intel.in/directions

~ 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.

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.

1. Intel® vPro™ Technology requires setup and activation by a knowledgeable IT administrator. Availability of features and results will depend upon the setup and configuration of your hardware, software and IT environment. Learn more at:

http://www.intel.com/technology/vpro.

2. Intel® technologies may require enabled hardware, specific software, or services activation. Check with your system manufacturer or retailer.

3. Intel® Wireless Display requires an Intel Wireless Display-enabled PC, tablet, or smartphone, a compatible adapter, and a TV. 1080p and Blu-ray* or other protected content playback only available on select Intel® processors with built-in visuals enabled.

Consult your PC manufacturer. For more information, see http://www.intel.com/content/www/us/en/architecture-and-technology/intel-wireless-display.html.

4. Intel® Smart Sound Technology (SST) requires the use of an I2S based CODEC for operation. Intel SST cannot be used concurrently with Intel High Definition Audio. Not available on all systems. Consult your PC manufacturer for more information. Sound

quality will depend on equipment and actual implementation.

5. No computer system can provide absolute security. Requires an enabled Intel® processor, enabled chipset, and firmware and software optimized to use the technologies. Consult your system manufacturer and software vendor for more information.

6. Estimated based on SYSmark* 2014, a system-level performance benchmark that measures and compares PC performance using real world applications. Find out more at www.bapco.com.

7. Measured using Makerbot Desktop 3.3*. The workload file is a 2.4 MB model from the Thingiverse object database that is prepared for 3D printing. The file is exported using the "Low (Faster)" resolution option.

8. Measured using Full HD Local Video Playback Battery Rundown—measured using Tears of Steel 1080p 3 Mbps H.264 video. Configuration: In the device settings, in airplane mode with wireless on. Disable Intel® Display Power Saving Technology (Intel®

DPST), set up the system to 200 nits screen brightness using a full screen white background, and re-enable Intel DPST. Turn OFF the adaptive brightness setting under Power Options in Control Panel. Set "Dim the display" to never on both battery and AC.

Set "Put the computer to sleep" to never on both battery and AC. Wait 15 minutes after boot. Launch the default video player (Windows* 8.1 Style UI video player for win), start the workload video in a loop, and disconnect the AC plug to start the test.

Measure the time until battery is exhausted.

6,7,8. System Configuration

Battery life and performance measurements on Intel Reference Platform.

Intel Reference Platform is an example new system. Products available from systems manufacturers will not be identical in design, and performance will vary.

Intel Reference Platform:

Intel® Core™ i5-5300U processor 15 W thermal design power, (up to 2.9 GHz, 4T/2C, 3 MB cache), 8 GB (2 x 4 GB) LPDDR3-1600 , Intel® HD Graphics 5500, 180 GB Intel® SSD, Intel® Graphics Driver 10.18.10.3960, Intel® Rapid Storage Technology v.10.0.22,

estimated based on a 40 Wh battery. Display: 19x10, 13.3-inch eDP panel.

“Old PC**” refers to ~5-year old: Intel® Core™ i5-520UM processor (up to 1.86 GHz, 4T/2C, 3M cache) on Acer Aspire One* 1830T-3721

18W thermal design power. BIOS: Insyde v.1.11*, Graphics: Intel HD Graphics (driver v. 8.15.10.2104), Memory: 8 GB (2 x 4 GB) DDR3 1333 Mhz, HDD: Seagate* 500 GB, OS: Windows* 7 Ultimate 6.1 build 7601, Battery size: 62 Wh.

System power management policy: DC balanced for battery life measurements, AC balanced for performance measurements. Wireless: On and connected.

9. Intel® technologies’ features and benefits depend on system configuration and may require enabled hardware, software, or service activation. No computer system can be absolutely secure. Learn more at Intel.com or from the OEM or retailer.

10. Source: Intel measure on Dell R920, PCIe/NVMe* @ QD 32 & 128; SAS and SATA @ QD 32

11. 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.

12. 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.

13. 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.

Legal Disclaimers

• 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 FOR SUCH PRODUCTS, INTEL ASSUMES NO LIABILITY WHATSOEVER AND INTEL DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY, RELATING TO SALE AND/OR USE OF INTEL PRODUCTS

INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR 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 ARISING OUT

OF, DIRECTLY OR INDIRECTLY, ANY CLAIM OF PRODUCT LIABILITY, PERSONAL INJURY, OR DEATH ARISING IN ANY WAY OUT OF SUCH MISSION CRITICAL APPLICATION, WHETHER OR NOT INTEL OR ITS SUBCONTRACTOR WAS NEGLIGENT IN THE

DESIGN, MANUFACTURE, OR WARNING OF THE 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.

• 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

© 2015 Intel Corporation. Intel, the Intel logo, Intel Itanium, Intel Xeon, Intel Core, Intel Xeon Phi, Intel Pentium, Intel Celeron, Intel Atom, Centrino, Intel

Inside, the Intel. Experience What’s Inside logo and Intel. Experience What’s Inside are trademarks of Intel Corporation in the U.S. and/or other countries.

*Other names and brands may be claimed as the property of others.

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Documents

INTEL® ROADMAP DIRECTIONS 2015 · A successful migration requires careful planning to cope with three key challenges: From the results, the team constructed a compare-and-contrast