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INTEL-POWERED 2 IN 1S AND INTEL® COMPUTE STICKIn Focus
VOLUME 1 • 2016 WWW.INTEL.IN/DIRECTIONS |
INTEL® ROADMAP DIRECTIONS 2016A RESOURCE GUIDE FOR CIOS AND IT PROFESSIONALS
WelcomeThe first edition of Intel® Roadmap Directions
2016 turns the spotlight on how Intel continues
to lead with innovative technologies and
breakthrough products.
In this edition, discover how an Intel® processor-
based 2 in 1 combines the performance of a
laptop and versatility of a tablet into one sleek,
razor-thin device, and why you should get a 2 in
1 computer for work. Additionally, discover the
Intel® Compute Stick, a tiny device the size of a
pack of gum that can transform any HDMI* TV or
display into a complete computer.
Volume 1 of Intel® Roadmap Directions 2016 also
focuses on the Intel® Open Network Platform for
Servers that streamlines the adoption of
software-defined networking (SDN) and network
function virtualization (NFV). Furthermore, learn
about Open vSwitch* enabling SDN & NFV
transformation.
In addition, this edition highlights on improving
performance and security of big data and cloud
solutions with Intel® QuickAssist Technology.
Gain insights on advanced power management
with Intel® Node Manager in Baidu Data Center.
And finally, read about the Intel® Xeon®
processor E3-1200 v5 product family, a versatile
platform to meet a range of business needs.
This edition of the roadmap, like always, provides
you with an inimitable source of cutting edge
technical information to enable you to keep
ahead in a dynamic business environment.
An Intel® processor-based 2 in 1 combines the performance of a laptop and
versatility of a tablet into one sleek, razor-thin device. Having two devices in
one means more capabilities for less cost.
Intel-powered 2 in 1s
Empowering Workers
Get the level of mobility and
performance your business requires
with sleek, versatile 2 in 1s or the
latest Ultrabook™ devices.
Choose the 2 in 1 that Best Fit Your Needs
More options is the best option
Built Smarter to Work SmarterA new Intel® processor inside your 2 in 1 gives you the power
and performance to experience your device like never before.
Up to 12% Better Productivity Performance vs. 1previous gen
Up to 20% Faster in Converting 4k Videos for Sharing 2vs. previous gen
3 Up to 17% Better Web Performance vs. previous gen
4 Up to 10hrs battery life based on 36 WHr battery
5 0.5 second wake-up based on Modern Standby
2 in 1 personal computers powered by Intel®
processors offer the benefits of both a powerful
touchscreen laptop and a fast, detachable tablet.
Intel® processors drive convertible 2 in 1 devices that
let you quickly convert your laptop into a portable
tablet while keeping the keyboard attached.
Convertible
Flip, Swivel, or SlideDetachable
Powerful Laptop + Tablet Fun
INTEL® ROADMAP DIRECTIONS 20162
Read More at www.intel.in/content/www/in/en/2-in-1/laptop-tablet.html
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 3
WHY YOU SHOULD GET A 2 IN 1 COMPUTER FOR WORK
2 in 1 devices commonly run Windows*, the same operating system as most common office apps. With the
new Windows 10, you may also get incredible battery life, great multitasking capabilities and more
responsive apps. With Windows Hello*, you have facial, iris and fingerprint recognition for instant secure
log-ins without passwords. Better still, not only can you access and work on your documents, spreadsheets
and presentation slides anywhere, you can make notes directly onto web pages for improved productivity
with Microsoft Edge*, even in tablet mode.
Of course, 2 in 1s are sleek, modern
devices that look just as good as they
perform. Leave an impression with
clients that you and your company are
up-to-date on technology.
IT’S VERSATILE So easy to carry around Powerful performance
Same OS as your work apps Make an impression
The new 2 in 1s are powerful PCs that can transform from a notebook into a tablet. These computers, sometimes called hybrid PCs,
are great for today's mobile worker. Why? Let's find out.
By having both a notebook and a
tablet in one device, you enjoy the
advantages of both. Use it in notebook
mode to get work done and switch to
tablet mode to make an impression
during meetings. Time to replace your
old notebook? You can get two
devices for the price of one.
Work will take you places, whether it's
meetings, conventions or site visits. It's
great to have a lightweight PC like a
2 in 1 you can take everywhere. Some
2 in 1s even have a screen that can be
detached and used as a tablet, letting
you shed the excess weight when you
don't need it.
You work hard, so you need a device that
can keep up. The 2 in 1 is powered by
an Intel® Core™ processor that lets you
move effortlessly between applications,
get a burst of speed whenever you need,
wake it in a flash, and access files
instantly. This is performance you can
count on.
Read More at www.intel.in/content/www/in/en/learn/different-computers-for-different-needs/hybrid-pc.html
INTEL® ROADMAP DIRECTIONS 20164
PC PERFORMANCE. MOBILE FLEXIBILITY.Intel® Compute Stick
Read More at www.intel.in/content/www/in/en/compute-stick/intel-compute-stick.html
The Intel® Compute Stick is a tiny device the size of a pack of gum that can transform any HDMI* TV or display into a complete computer.
Available with a range of Intel® processors, it’s everything you love about a desktop computer in a device that fits in the palm of your hand.
Expand Your Computing Potential
BUILT FOR PERFORMANCEWhile the Intel® Compute Stick is
small in stature, it's what’s inside
that makes the biggest difference: a
choice of Intel® Atom™ or Core™ M
processors with up to 4 GB memory
and 64 GB of on-board storage.
Sized for ConvenienceIt's not like a computer. It is a
computer. Same operating system,
same high quality graphics, and
same wireless connectivity as a
full-sized computer. Totally
different dimensions.
Ready Out Of the BoxPop it out of the box. Pop it into a
TV. Go. It’s that easy to transform
any HDMI* TV or monitor into a
powerful computer with all the
expected benefits of a premium
Windows® 10 experience.
Cool Under PressureThe Intel® Compute Stick
features a tiny, quiet
cooling fan inside to
enable reliable and fast
performance without
overheating.
DIRECTORY
Education Productivity Thin Client Digital Signage
Create a thin-client platform
from any display with the
Intel® Compute Stick.
Transform a display
into a fully functional
digital signage solution.
Plug-and-go
education performance
that fits in one hand.
Turn an HDMI* display
into a computer with
an Intel® processor.
5 great reasons to get an Intel® Compute StickA RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 5
Read More at www.intel.in/content/www/in/en/learn/whats-new/intel-compute-stick.html
Now you can enjoy all the cool features of a smart TV
on a regular HD TV with just one small add-on. Simply
plug in the Intel® Compute Stick and you can connect
on social media, browse photo albums, surf the web
etc. That saves you money you could possibly use for
a new sound system to make the experience better.
It’s amazing how small computers are getting. So what does this all mean?Here are 5 reasons to get the Intel® Compute Stick.
Imagine travelling with a PC in your pocket. That’s
what you get with the Intel® Compute Stick. Simply
plug it into the hotel room’s HD screen, log on to the
WiFi and you’ll be instantly connected to the Internet,
work, and even your home. You don’t even need to
bring along a charger, as there are no batteries
required.
Experience onlineentertainmenton the big screen
There’s nothing better than watching your favorite
shows and movies on your TV. With the Intel®
Compute Stick, it becomes a media entertainment
center. Now you can download or stream music or
videos and play it with the Intel® Compute Stick.
Imagine all those streaming sites from YouTube* to
Netflix* available in Full HD!
Get a smart TVwithout buyinga smart TV!
No desk space?No problem
Stay connectedwhile you travel
1
2
The Intel® Compute Stick runs on Windows* 8 (with a free upgrade
to Windows® 10) – that’s the same Operating System (OS) as many
regular PCs. This means that if you’ve used Windows before, you
already know how to use it. Just plug it in to access the Internet,
watch videos or browse your photo albums in moments.
FamiliarPC experienceon the TV
5
The Intel® Compute Stick gives you the large screen
experience of a desktop PC without the need for a
tower unit. It may be less performance focused but it’s
great if you only need to connect to the Internet, write
emails and do basic tasks. Just mount your screen on
the wall, plug the stick in and you’re good to go!
3
4
4.06”
1.46” 0.47”
SDN and NFV for Carrier-Grade Infrastructure and Cloud Data Centers
INTEL® OPEN NETWORK PLATFORM SERVER REFERENCE ARCHITECTUREThe Intel® Open Network Platform (Intel ONP) ® for Servers streamlines the adoption of software-defined networking (SDN) and network function virtualization (NFV)
by datacenter operators as well as cloud and telecom service providers. This reference design enables highly reliable, low-latency services while delivering the
CAPEX and OPEX advantages of a tailored, standards-based architecture supported by a broad ecosystem.
INTEL® ROADMAP DIRECTIONS 20166
Business Drivers Behind Intel® ONP for ServersIntel® ONP for Servers supports the efforts of many communications networks to meet this
emerging demand by adopting architectural practices and standards more typically used in
data centers.
Architecture for the Intel® ONP Server Reference DesignThe over-arching goal of Intel® ONP is to reduce the cost and effort required for service
providers, data-center operators, TEMs, and OEMs to adopt and deploy SDN and NFV
architectures. The foundations of this effort are the Intel® ONP Server Reference Design and
the Intel® ONP Switch Reference Design.
Enabling SDN and NFV Solutions on the Intel® ONPServer Reference Design
Building on top of open-standards servers based on Intel® architecture, the Intel®
ONP for Servers reference design reflects the value of enabling work across the
ecosystem, including support and development for software, systems integration,
and industry standards. This enablement directly benefits end customers with a
focus on flexible options for implementation that are informed (but not
constrained) by the reference design.
Adoption Paths for SDN and NFV on Intel® Architecture
Whatever their role, and however closely or loosely their solutions follow the
reference design, parties that evaluate Intel® ONP for Servers have access to the
same fundamental benefits:
Simplicity:
Intel® ONP for Servers
is easy to evaluate,
develop, and deploy,
providing a fast path
to insight about
design approaches
and capabilities for
SDN and NFV
architectures.
Flexibility:
Adherence to
standard software
approaches and
choice among a wide
array of software
options makes Intel®
ONP’s underlying
architecture readily
modifiable.
Cost-effectiveness:
The use of industry-
standard servers
offers a foundation
for solutions that
have advantages in
terms of low TCO.
Learn more about the Intel® Open Network Platform at www.intel.com/ONP
Intel® ONP for Servers
• Linux*: Fedora* 20
• KVM Hypervisor
• OpenStack* Optimizations (Icehouse)
• OpenDaylight (Hydrogen Compatible)
Intel® Data Plane Development Kit (Intel® DPDK)
Intel DPDK Accelerated
Open vSwitch An Open Virtual Switch
• Intel® QuickAssist Technology Drivers
• Intel® Ethernet Drivers: 10 Gigabit Ethernet and 40 Gigabit Ethernet
• Intel® Data Plane Performance Demonstrator: vBNG
Intel® EthernetController
Intel® Xeon®Processor E5 v3
Intel® CommunicationsChipset 89xx Series
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 7
To find out more about the OPNFV project, visit www.opnfv.org.For more information about Open vSwitch, visit www.openvswitch.org.For more information about the Intel® Open Network Platform Reference Architecture, visit www.intel.com/content/www/in/en/communications/open-network-platform-server.html.
Intel’s collaboration with the Open vSwitch community on DPDK boosts Open vSwitch performanceby more than 12x to meet the demanding needs of SDN and NFV.
OPEN VSWITCH* ENABLES SDN & NFV TRANSFORMATION
Intel’s focus with Open vSwitch* (OvS*) software has been to target bottlenecks in performance and enhance functionality to meet CSP, enterprise, and cloud needs by using
the Data Plane Development Kit (DPDK) OSS libraries. OvS can be configured to support two software architectures:
• Native OvS: OvS with an in-kernel datapath
• OvS with DPDK: OvS compiled with the DPDK datapath
Open vSwitch Architecture with DPDKThe DPDK is a set of data plane libraries and network interface controller
drivers that enable high-throughput and low-latency packet processing.
The openvswitch.org project recently included DPDK support as a
compile-time option for the user space fast path that helps accelerate
datapaths across physical and virtual interfaces.
OPNFV: A Continuing Commitment to Open
PlatformsSuccessful deployments of NFV services and appliances require platforms
with performance and capabilities to support the different virtualized
functions. The Intel® ONP reference architecture is one such design, on
which Intel has based much of its work and evaluation for OvS with DPDK.
Physical-to-Virtual-to-Physical
Test Results
Physical-to-virtual-to-physical test results show that Open vSwitch* (OvS) with
Data Plane Development Kit (DPDK) performs 7x faster than native OvS.
Intel internal measurements, July 2015.
Physical-to-physical test results show that Open vSwitch* (OvS) with Data
Plane Development Kit (DPDK) is almost 12x faster than native OvS.
Intel internal measurements, July 2015.
1.0
7.1x
11.4x
1.0
OvS with DPDKSingle CoreNative OvSOvS with DPDKNative OvS
12.9x
OvS with DPDKTwo Core
Physical-to-Physical
Performance Comparison
Open vSwitch withDPDK PerformanceBenchmarks
Intel’s vSwitch ProjectsIntel is a leader of several vSwitch projects in OPNFV.org and is committed to the
advancement of SDN and NFV on open platforms. These projects include the following:
Characterizing vSwitch Performance for Telecom NFV Use Cases
This project develops a generic and architecture-agnostic vSwitch testing framework with
associated tests that serve as a basis for validating the suitability of different vSwitch
implementations in a Telecom NFV deployment environment.
Open vSwitch for NFV
This project proposes modifying the Open Platform for NFV* (OPNFV*) build to include a
deployment option for the OvS build with a software-accelerated user space design.
IMPROVING PERFORMANCE AND SECURITY OFBIG DATA AND CLOUD SOLUTIONSUsing Intel® QuickAssist Technology to Accelerate Public Key Cryptography and CompressionAs the complexity of networking and security applications continues to grow, systems need more and more computational resources for demanding tasks. Intel® QuickAssist
Technology is designed to offload security and compression algorithms to allow developers to easily incorporate acceleration into their software.
Intel® QuickAssist Technology Use Cases
For further information about Intel® QuickAssist Technology, visit www.intel.com/content/www/in/en/io/quickassist-technology/quickassist-technology-developer.html
INTEL® ROADMAP DIRECTIONS 20168
Intel® QuickAssist Technology:
Integrated Acceleration
Intel® QuickAssist Technology integrates hardware-acceleration in
Intel® chipsets for widely used, compute-intensive algorithms,
including key exchanges, data compression, SSL Bulk Encryption
Algorithms, and SSL ciphers for Intel® chipsets.
The Intel® QuickAssist Software Framework
The Intel® QuickAssist Technology shims and patches in the Intel®
QuickAssist Software (such as a zlib patch for offloading
compression) offer the best performance by offloading these
compute-intensive workloads from the CPU core to the accelerator.
Intel®QuickAssistTechnology
Network Compute Storage
Resource Pool
Orchestration Software
Applications
The following use cases illustrate two examples where Intel® QuickAssist Technology has proven a significant benefit in server throughput.
Intel® QuickAssist Technology-enabled accelerators give developers new opportunities to create value-added applications for enterprise and cloud data centers that can improve data
movement and cryptography performance.
Hadoop* Compression Offload Significantly Improves Big Data Application Performance
Hadoop jobs move massive amounts of data in and out of the Hadoop Distributed File System (HDFS) and across the network. Hadoop I/O results in considerable disk operations and network utilization, such that Hadoop MapReduce jobs are often I/O bound.
Use CaseDynamic Web SSL Encryption Offload Boosts Throughput
Intel® Data Protection Technology with Advanced Encryption Standard New Instructions available in today’s Intel® processors significantly speeds up symmetric cryptography, however, processing public key cryptography can considerably impact server performance. Hardware-accelerating SSL with Intel® QuickAssist Technology can improve server throughput by freeing significant processor cycles spent on exponential calculations for key decryption for other useful computations.
Use Case
1 2
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 9
Baidu Server Technology 2014 integrates Intel® Node Manager 3.0 to significantly improve availability and efficiency ofserver power usage and thermal control.
ADVANCED POWER MANAGEMENT WITHINTEL® NODE MANAGER IN BAIDU* DATA CENTERAs IDC recently identified, power management is a critical consideration in a modern data center. To maximize power usage and performance, data centers usually would like
to run their servers continuously as close to the maximum allowed power for the rack as possible without tripping protecting mechanisms that keeps the equipment from
damage but interrupts services on that server. Ideally, keeping the workload of servers at a balanced value could also keep the total power consumption of racks at a stable
number. However, in real world circumstances of online services like Baidu servers, workload of a server could be dynamically changing and could have unpredictable peaks in
power consumption.
Challenges of this situation includes how to maximize the balance of performance and
availability of data center, how to manage power consumption in a smart way, and how to
maintain good thermal environment while having solutions for other challenges.
Solution of Intel® Node Manager Technologies with Baidu data center provides immediate
control and prevention of protecting circuit breakers in the data center. The node level
power controlling also enables a comprehensive view of power usage and cooling in their
state-of-the-art data centers.
Benefits gained from this solution include availability and efficiency of server power usage,
and the flexibility of advanced power and thermal controlling technologies. Comparing to
the case without Intel® Node Manager, up to 11% of range of unpredictable power
consumption could be reduced and thus the server remains in a much more stable status.
Policies
Intel® NodeManager
MonitorControl
Policy
Monitor
Power SensorsThermal Sensors Policies
Power ControlThermal Control
Data Center Manager /
Remote Controlling Software
Baidu Servers with
Intel® Node Manager
Solution withoutPower Handling
Intel® Node ManagerSolution
Po
we
r
Limit in Spec Limit of Policy
Time Time
Po
we
r
To know more about Intel® Node Manager, visit
www.intel.in/content/www/in/en/data-center/data-center-management/techrefresh-info-nodemanagerfull.html
A VERSATILE PLATFORMTO MEET A RANGE OF BUSINESS NEEDSBusinesses of all sizes must keep up with market dynamics, evolving customer expectations, and the multitude of applications and data.
They must be creative in how they support their customers and ultimately grow. Meet the latest Intel® Xeon® processor E3-1200 v5
product family-based platforms—a smart investment for a wide range of business needs and sizes.
INTEL® ROADMAP DIRECTIONS 201610
Built for ProfessionalsWith Intel® Xeon® processor E3-1200 v5 product family-based workstations, you’ll
find the capabilities that get designers, engineers, and animators started. Accelerate
exploration of complex data with the graphics performance of Intel® HD Graphics
P530. Improve the integrity and uptime of design data with ECC memory
technology. And with Intel® vPro™ technology, you can make sure your workstations 6,7are as secure and manageable as any PC in your organization’s fleet.
Reliability for Small and Medium BusinessesProtect your customer, inventory, and financial records with a server that delivers
the integrity and reliability of an all-day, all-night workhorse. Implementing a
powerful server is also a smart investment in growth. You’ll gain the power to
deploy new business-class applications and tools that can help you increase sales
and improve margins. A server based on the Intel® Xeon® processor E3-1200 v5
product family lets you access your information faster and respond to customers
sooner from any device on your network.
Intel® Xeon® Processor E3-1200 v5 Product Family
Intel® Xeon® Processor E3 Processor FamilyGenerational Performance Gains
HIGHER IS BETTER
Intel® Xeon®
Processor
E3-1275 v2
Intel® Xeon®
Processor
E3-1276 v3
Intel® Xeon®
Processor
E3-1275 v5
8The Intel® Xeon® Processor E3-1275 v5 provides up to 1.43x the compute performance and 2.26x the graphics performance of prior generations.
1.01.13x
1.43x
CPU Performance
Intel® Xeon® Processor E3 ProcessorFamily with Intel® HD Graphics P530
Generational Performance Gains
Intel® Xeon®Processor
E3-1275 v2
Intel® Xeon®Processor
E3-1276 v3
PROFESSIONAL GRAPHICS8
PERFORMANCE
Intel® Xeon®Processor
E3-1275 v5
1.0
1.78x
2.26x
Graphics Performance
Read more at www.intel.in/content/www/in/en/processors/xeon/xeon-e3-1200v5-brief.html
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 11
MOBILE ROADMAP GUIDANCEThis latest Intel® architecture building block
¤roadmap update is intended to provide you withrecommendations for your Mobile deployment.
¤ Please refer to Mobile Reference Tables for getting the exact SKU information.
Mobile Segment Processor Processor No. Clock Speed Cache
Mobile Workstation Intel® Xeon® Processor E3 v5 Series E3-15x5M v5 Series Minimum 2.80 GHz & above 8 MB Cache
Portable Workstation Intel® Core™ i5/i7 Processor i5/i7-6000HQ Series Minimum 2.30 GHz & above 6 MB L3 Cache or higher
2 in 1 (Detachable) Intel® Core™ m Processor m3/m5/m7 6YXX Series Up to 3.1 GHz 4 MB L3 Cache
Ultrabook™ & Convertible Intel® Core™ i3/i5 Processor i7-6500U; i5-6200U Minimum 2.3 GHz & above 3 MB L3 Cache or higher
Enterprise Notebook Intel® Core™ i5/i7 Processor i7-6600U; i5-6300U Minimum 2.4 GHz & above 3 MB L3 Cache or higher
with vPro™ Technology
SME Notebook Intel® Core™ i3/i5 Processor i5-6200U; i3-6100U Minimum 2.3 GHz & above 3 MB Cache or higher
SMB/Education Notebook Intel® Pentium® Processor 3825U/4405U Dual Core Minimum 1.6 GHz & above 2 MB Cache
N3700/N3710 Quad Core
A1020 Quad Core
Value Notebook Intel® Celeron® Processor 3855U & 3955U Dual Core Minimum 1.6 GHz & above 2 MB Cache
N3050/N3160 Quad Core
DESKTOP ROADMAP GUIDANCE¤This latest Intel® architecture building block roadmap update is intended to
provide you with recommendations for your Desktop deployment.
Desktop Segment Processor Chipset Processor No. Clock Speed Cache
Enthusiast Desktop Intel® Core™ i7 Processor Intel® X79/X99 Chipset i7-5000/6000 Sequence Up to 4.0 GHz Up to 8 MB L3 Cache
Enterprise Managed Intel® Core™ i5 Processor Intel® Q87/Q170 Chipset i5-6000/i7-6000 Sequence Up to 3.4 GHz Up to 8 MB L3 Cache
Desktop with vPro™ Technology
Advanced Desktop Intel® Core™ i3 Processor Intel® H81/H100 Series Chipset i3-6000 Sequence Up to 3.9 GHz Up to 4 MB L3 Cache
Evolving/Basic Desktop Intel® Pentium® Processor Intel® H81/H110 Series G3000/G4000 Sequence Up to 3.6 GHz 3 MB L3 Cache
Express Chipset
¤ Please refer to Desktop Reference Tables for getting the exact SKU information.
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 11
INTEL® ROADMAP DIRECTIONS 201612
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.
ΦWorkstation Segment Processor Clock Speed No. of Cores Cache FSB/QPI
Performance DP Workstation Intel® Xeon® Processor E5-2600 v3 Series Up to 3.1 GHz Up to 10 Cores Up to 25 MB L3 Cache Up to 9.6 GT/sec QPI
Mainstream DP Workstation Intel® Xeon® Processor E5-2600 v3 Series Up to 3.2 GHz Up to 8 Cores Up to 20 MB L3 Cache Up to 9.6 GT/sec QPI
Entry DP Workstation Intel® Xeon® Processor E5-2600 v3 Series Up to 2.4 GHz Up to 6 Cores Up to 15 MB L3 Cache Up to 8 GT/sec QPI
Performance UP Workstation Intel® Xeon® Processor E5-1600 v3 Series Up to 3.7 GHz Up to 8 Cores Up to 15 MB L3 Cache N/A
Entry UP Workstation (1-skt) Intel® Xeon® Processor E3-1200 v3/v4 Series Up to 3.6 GHz Up to 4 Cores Up to 8 MB L3 Cache N/A
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 v3/8800 v3 Series Up to 3.2 GHz Up to 18 Cores Up to 45 MB L3 Cache Up to 9.6 GT/sec QPI
High Density Server (4-skt) Intel® Xeon® Processor E5-4600 v3 Series Up to 2.9 GHz Up to 18 Cores Up to 45 MB L3 Cache Up to 9.6 GT/sec QPI
Performance DP Server Intel® Xeon® Processor E5-2600 v3 Series Up to 3.5 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 2.6 GHz Up to 8 Cores Up to 20 MB L3 Cache Up to 8 GT/sec QPI
Entry DP Server Intel® Xeon® Processor E5-2600 v3 Series Up to 2.4 GHz Up to 6 Cores Up to 15 MB L3 Cache Up to 8 GT/sec QPI
UP Server (1-skt) Intel® Xeon® Processor E3-1200 v3 Series Up to 3.6 GHz Up to 4 Cores Up to 8 MB L3 Cache N/A
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 13
¥ Need other compatible components like chipset and firmware
DESKTOPS - Intel® processor reference chartIntel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3/
DDR4 (MHz)
Intel® TechnologiesIntel® Turbo Boost
9Technology
- Max Turbo (GHz)
Power
(Max TDP)
6th Generation Intel® Core™ i7 Processor Family (14nm)
i7-6700K 4.0 4.2 1600/2133 8 MB L3 4/8 91W √ Intel® HD Graphics 530
i7-6700T 2.8 3.6 1600/2133 8 MB L3 4/8 35W √ Intel® HD Graphics 530 √
i7-6700 3.4 4.0 1600/2133 8 MB L3 4/8 65W √ Intel® HD Graphics 530 √
6th Generation Intel® Core™ i3 Processor Family (14nm)
i3-6320 3.9 N/A 1600/2133 4 MB L3 2/4 51W √ Intel® HD Graphics 530
i3-6300T 3.3 N/A 1600/2133 4 MB L3 2/4 35W √ Intel® HD Graphics 530
i3-6300 3.8 N/A 1600/2133 4 MB L3 2/4 51W √ Intel® HD Graphics 530
i3-6100T 3.2 N/A 1600/2133 3 MB L3 2/4 35W √ Intel® HD Graphics 530
i3-6100 3.7 N/A 1600/2133 3 MB L3 2/4 51W √ Intel® HD Graphics 530
i3-6098P 3.6 N/A 1600/2133 3 MB L3 2/4 54W √ Intel® HD Graphics 510
i5-6600K 3.5 3.9 1600/2133 6 MB L3 4/4 91W Intel® HD Graphics 530
i5-6600T 2.7 3.5 1600/2133 6 MB L3 4/4 35W Intel® HD Graphics 530 √
i5-6600 3.3 3.9 1600/2133 6 MB L3 4/4 65W Intel® HD Graphics 530 √
i5-6500T 2.5 3.1 1600/2133 6 MB L3 4/4 35W Intel® HD Graphics 530 √
i5-6500 3.2 3.6 1600/2133 6 MB L3 4/4 65W Intel® HD Graphics 530 √
i5-6402P 2.8 3.4 1600/2133 6 MB L3 4/4 65W Intel® HD Graphics 510
i5-6400T 2.2 2.8 1600/2133 6 MB L3 4/4 35W Intel® HD Graphics 530
i5-6400 2.7 3.3 1600/2133 6 MB L3 4/4 65W Intel® HD Graphics 530
6th Generation Intel® Core™ i5 Processor Family (14nm)
¥ Need other compatible components like chipset and firmware
DESKTOPS - Intel® processor reference chart
Intel® Pentium® Processors (14nm)
G4520 3.6 N/A 1600/2133 3 MB L3 2/2 51W Intel® HD Graphics 530
G4500T 3.0 N/A 1600/2133 3 MB L3 2/2 35W Intel® HD Graphics 530
G4500 3.5 N/A 1600/2133 3 MB L3 2/2 51W Intel® HD Graphics 530
G4400T 2.9 N/A 1600/2133 3 MB L3 2/2 35W Intel® HD Graphics 510
G4400 3.3 N/A 1600/2133 3 MB L3 2/2 54W Intel® HD Graphics 510
G3470 3.6 N/A 1600 (DDR3) 3 MB L3 2/2 53W Intel® HD Graphics
G3460T 3.0 N/A 1600 (DDR3) 3 MB L3 2/2 35W Intel® HD Graphics
G3260T 2.9 N/A 1333 (DDR3) 3 MB L3 2/2 35W Intel® HD Graphics
G3260 3.3 N/A 1333 (DDR3) 3 MB L3 2/2 53W Intel® HD Graphics
J3710 1.6 2.64 1600 (DDR3) 2 MB L2 4/4 6.5W Intel® HD Graphics 405
Intel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3/
DDR4 (MHz)
Intel® Technologies
Burst FrequencyPower
(Max TDP)
Intel® Celeron® Processors (14nm)
G3920 2.9 N/A 1600/2133 2 MB L3 2/2 51W Intel® HD Graphics 510
G3900T 2.6 N/A 1600/2133 2 MB L3 2/2 35W Intel® HD Graphics 510
G3900 2.8 N/A 1600/2133 2 MB L3 2/2 51W Intel® HD Graphics 510
J3160 1.6 2.24 1600 (DDR3) 2 MB L2 4/4 6W Intel® HD Graphics 400
J3060 1.6 2.48 1600 (DDR3) 2 MB L2 2/2 6W Intel® HD Graphics 400
INTEL® ROADMAP DIRECTIONS 201614
¥ Need other compatible components like chipset and firmware
notebookS - Intel® processor reference chartIntel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3/
DDR4 (MHz)
Intel® TechnologiesIntel® Turbo Boost
9Technology
- Max Turbo (GHz)
Power
(Max TDP)
6th Generation Intel® Core™ i3 Processor Family (14nm)
i3-6167U 2.7 N/A 1866/2133 3 MB L3 2/4 28W √ Intel® Iris™ Graphics 550
i3-6100H 2.7 N/A 1866/2133 3 MB L3 2/4 35W √ Intel® HD Graphics 530
i3-6100U 2.3 N/A 1866/2133 3 MB L3 2/4 15W √ Intel® HD Graphics 520
i5-6440HQ 2.6 3.5 1866/2133 6 MB L3 4/4 45W Intel® HD Graphics 530 √
i5-6360U 2.0 3.1 1866/2133 4 MB L3 2/4 15W √ Intel® Iris™ Graphics 540 √
i5-6300HQ 2.3 3.2 1866/2133 6 MB L3 4/4 45W Intel® HD Graphics 530
i5-6300U 2.4 3.0 1866/2133 3 MB L3 2/4 15W √ Intel® HD Graphics 520 √
i5-6287U 3.1 3.5 1866/2133 4 MB L3 2/4 28W √ Intel® Iris™ Graphics 550
i5-6267U 2.9 3.3 1866/2133 4 MB L3 2/4 28W √ Intel® Iris™ Graphics 550
i5-6260U 1.8 2.9 1866/2133 4 MB L3 2/4 15W √ Intel® Iris™ Graphics 540
i5-6200U 2.3 2.8 1866/2133 3 MB L3 2/4 15W √ Intel® HD Graphics 520
6th Generation Intel® Core™ i5 Processor Family (14nm)
6th Generation Intel® Core™ i7 Processor Family (14nm)
i7-6920HQ 2.9 3.8 1866/2133 8 MB L3 4/8 45W √ Intel® HD Graphics 530 √
i7-6820HK 2.7 3.6 1866/2133 8 MB L3 4/8 45W √ Intel® HD Graphics 530
i7-6820HQ 2.7 3.6 1866/2133 8 MB L3 4/8 45W √ Intel® HD Graphics 530 √
i7-6700HQ 2.6 3.5 1866/2133 6 MB L3 4/8 45W √ Intel® HD Graphics 530
i7-6650U 2.2 3.4 1866/2133 4 MB L3 2/4 15W √ Intel® Iris™ Graphics 540 √
i7-6600U 2.6 3.4 1866/2133 4 MB L3 2/4 15W √ Intel® HD Graphics 520 √
i7-6567U 3.3 3.6 1866/2133 4 MB L3 2/4 28W √ Intel® Iris™ Graphics 550
i7-6560U 2.2 3.2 1866/2133 4 MB L3 2/4 15W √ Intel® Iris™ Graphics 540
i7-6500U 2.5 3.1 1866/2133 4 MB L3 2/4 15W √ Intel® HD Graphics 520
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 15
notebookS - Intel® processor reference chartIntel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3
(MHz)
Intel® TechnologiesIntel® Turbo Boost
9Technology
- Max Turbo (GHz)
Power
(Max TDP)
i5-5350H 3.1 3.5 1866 4 MB L3 2/4 47W √ Intel® Iris™ Pro Graphics 6200
i5-5350U 1.8 2.9 1866 3 MB L3 2/4 15W √ Intel® HD Graphics 6000 √
i5-5300U 2.3 2.9 1600 3 MB L3 2/4 15W √ Intel® HD Graphics 5500 √
i5-5287U 2.9 3.3 1866 3 MB L3 2/4 28W √ Intel® Iris™ Graphics 6100
i5-5257U 2.7 3.1 1866 3 MB L3 2/4 28W √ Intel® Iris™ Graphics 6100
i5-5250U 1.6 2.7 1866 3 MB L3 2/4 15W √ Intel® HD Graphics 6000
i5-5200U 2.2 2.7 1600 3 MB L3 2/4 15W √ Intel® HD Graphics 5500
5th Generation Intel® Core™ i5 Processor Family (14nm)
5th Generation Intel® Core™ i7 Processor Family (14nm)
i7-5950HQ 2.9 3.8 1866 6 MB L3 4/8 47W √ Intel® Iris™ Pro Graphics 6200
i7-5850HQ 2.7 3.6 1866 6 MB L3 4/8 47W √ Intel® Iris™ Pro Graphics 6200
i7-5750HQ 2.5 3.4 1866 6 MB L3 4/8 47W √ Intel® Iris™ Pro Graphics 6200
i7-5700HQ 2.7 3.5 1866 6 MB L3 4/8 47W √ Intel® HD Graphics 5600
i7-5650U 2.2 3.1 1866 4 MB L3 2/4 15W √ Intel® HD Graphics 6000 √
i7-5600U 2.6 3.2 1600 4 MB L3 2/4 15W √ Intel® HD Graphics 5500 √
i7-5557U 3.1 3.4 1866 4 MB L3 2/4 28W √ Intel® Iris™ Graphics 6100
i7-5550U 2.0 3.0 1866 4 MB L3 2/4 15W √ Intel® HD Graphics 6000
i7-5500U 2.4 3.0 1600 4 MB L3 2/4 15W √ Intel® HD Graphics 5500
i3-5157U 2.5 N/A 1866 3 MB L3 2/4 28W √ Intel® Iris™ Graphics 6100
i3-5020U 2.2 N/A 1600 3 MB L3 2/4 15W √ Intel® HD Graphics 5500
i3-5015U 2.1 N/A 1600 3 MB L3 2/4 15W √ Intel® HD Graphics 5500
i3-5010U 2.1 N/A 1600 3 MB L3 2/4 15W √ Intel® HD Graphics 5500
i3-5005U 2.0 N/A 1600 3 MB L3 2/4 15W √ Intel® HD Graphics 5500
5th Generation Intel® Core™ i3 Processor Family (14nm)
¥ Need other compatible components like chipset and firmware
INTEL® ROADMAP DIRECTIONS 201616
¥ Need other compatible components like chipset and firmware
notebookS - Intel® processor reference chartIntel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3
(MHz)
Intel® TechnologiesIntel® Turbo Boost
9Technology
- Max Turbo (GHz)
Power
(Max TDP)
5th Generation Intel® Core™ M/mX Processor Family (14nm)
M-5Y71 1.2 2.9 1600 4 MB L3 2/4 4.5W √ Intel® HD Graphics 5300 √
M-5Y70 1.1 2.6 1600 4 MB L3 2/4 4.5W √ Intel® HD Graphics 5300 √
M-5Y51 1.1 2.6 1600 4 MB L3 2/4 4.5W √ Intel® HD Graphics 5300
M-5Y31 0.9 2.4 1600 4 MB L3 2/4 4.5W √ Intel® HD Graphics 5300
M-5Y10c 0.8 2.0 1600 4 MB L3 2/4 4.5W √ Intel® HD Graphics 5300
M-5Y10a 0.8 2.0 1600 4 MB L3 2/4 4.5W √ Intel® HD Graphics 5300
M-5Y10 0.8 2.0 1600 4 MB L3 2/4 4.5W √ Intel® HD Graphics 5300
m7-6Y75 1.2 3.1 1866 4 MB L3 2/4 4.5W √ Intel® HD Graphics 515 √
m5-6Y57 1.1 2.8 1866 4 MB L3 2/4 4.5W √ Intel® HD Graphics 515 √
m5-6Y54 1.1 2.7 1866 4 MB L3 2/4 4.5W √ Intel® HD Graphics 515
m3-6Y30 0.9 2.2 1866 4 MB L3 2/4 4.5W √ Intel® HD Graphics 515
4405U 2.1 N/A 1866/2133 2 MB L3 2/4 15W √ Intel® HD Graphics 510
4405Y 1.5 N/A 1866 (DDR3) 2 MB L3 2/4 6W √ Intel® HD Graphics 515
3825U 1.9 N/A 1600 (DDR3) 2 MB L3 2/4 15W √ Intel® HD Graphics
3805U 1.9 N/A 1600 (DDR3) 2 MB L3 2/2 15W Intel® HD Graphics
N3710 1.6 2.56 1600 (DDR3) 2 MB L2 4/4 6W Intel® HD Graphics 405
N3700 1.6 2.4 1600 (DDR3) 2 MB L2 4/4 6W Intel® HD Graphics
A1020 2.41 2.66 1333 (DDR3) 2 MB L2 4/4 10W Intel® HD Graphics
Intel® Pentium® Processors (14nm)
Intel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3/
DDR4 (MHz)
Intel® Technologies
Burst FrequencyPower
(Max TDP)
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 17
notebookS - Intel® processor reference chartIntel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3/
DDR4 (MHz)
Intel® Technologies
Burst FrequencyPower
(Max TDP)
E3-1535M v5 2.9 3.8 1866/2133 8 MB L3 4/8 45W √ Intel® HD Graphics P530 √
E3-1505M v5 2.8 3.7 1866/2133 8 MB L3 4/8 45W √ Intel® HD Graphics P530 √
Intel® Xeon® Processor E3 v5 Family (14nm)
Intel® Celeron® Processors (14nm)
3955U 2.0 N/A 1866/2133 2 MB L3 2/2 15W Intel® HD Graphics 510
3855U 1.6 N/A 1866/2133 2 MB L3 2/2 15W Intel® HD Graphics 510
3765U 1.9 N/A 1600 (DDR3) 2 MB L3 2/2 15W Intel® HD Graphics
3755U 1.7 N/A 1600 (DDR3) 2 MB L3 2/2 15W Intel® HD Graphics
3215U 1.7 N/A 1600 (DDR3) 2 MB L3 2/2 15W Intel® HD Graphics
3205U 1.5 N/A 1600 (DDR3) 2 MB L3 2/2 15W Intel® HD Graphics
N3160 1.6 2.24 1600 (DDR3) 2 MB L2 4/4 6W Intel® HD Graphics 400
N3150 1.6 2.08 1600 (DDR3) 2 MB L2 4/4 6W Intel® HD Graphics
N3060 1.6 2.48 1600 (DDR3) 2 MB L2 2/2 6W Intel® HD Graphics 400
N3050 1.6 2.16 1600 (DDR3) 2 MB L2 2/2 6W Intel® HD Graphics
N3010 1.04 2.24 1600 (DDR3) 2 MB L2 2/2 4W Intel® HD Graphics 400
N3000 1.04 2.08 1600 (DDR3) 2 MB L2 2/2 4W Intel® HD Graphics
Intel® Brand or
Processor Family Intel® vPro™9, ¥Technology
9Intel® Graphics9Intel® HT
Base
Frequency
(GHz)
Processor
NumberCache
Cores /
Threads
Memory
Speed DDR3/
DDR4 (MHz)
Intel® TechnologiesIntel® Turbo Boost
9Technology
- Max Turbo (GHz)
Power
(Max TDP)
¥ Need other compatible components like chipset and firmware
INTEL® ROADMAP DIRECTIONS 201618
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.
Intel® Brand or
Processor FamilyClock Speed
(GHz)Processor
Number
ΦIntel® QPI
(GT/Sec)
Cores /
ThreadsCache
Max Turbo Clock
Speed (GHz)
Power
(Max TDP)ΩSystem Type
Memory Speed
DDR3/DDR4 (MHz)
SERVERS - Intel® processor reference chart
Intel® Xeon® Processor E7-8800/4800 v3 Sequence~
E7-8893 v3 3.2 3.5 1600/1866 45 MB L3 9.6 4/8 140W Up to 8 Processors
E7-8891 v3 2.8 3.5 1600/1866 45 MB L3 9.6 10/20 165W Up to 8 Processors
E7-8890 v3 2.5 3.3 1600/1866 45 MB L3 9.6 18/36 165W Up to 8 Processors
E7-8880L v3 2.0 2.8 1600/1866 45 MB L3 9.6 18/36 115W Up to 8 Processors
E7-8880 v3 2.3 3.1 1600/1866 45 MB L3 9.6 18/36 150W Up to 8 Processors
E7-8870 v3 2.1 2.9 1600/1866 45 MB L3 9.6 18/36 140W Up to 8 Processors
E7-8867 v3 2.5 3.3 1600/1866 45 MB L3 9.6 16/32 165W Up to 8 Processors
E7-8860 v3 2.2 3.2 1600/1866 40 MB L3 9.6 16/32 140W Up to 8 Processors
E7-4850 v3 2.2 2.8 1600/1866 35 MB L3 8.0 14/28 115W Up to 4 Processors
E7-4830 v3 2.1 2.7 1600/1866 30 MB L3 8.0 12/24 115W Up to 4 Processors
E7-4820 v3 1.9 N/A 1333/1866 25 MB L3 6.4 10/20 115W Up to 4 Processors
E7-4809 v3 2.0 N/A 1333/1866 20 MB L3 6.4 8/16 115W Up to 4 Processors
Intel® Xeon® Processor E5-4600 v3 Sequence~
E5-4669 v3 2.1 2.9 DDR4 45 MB L3 9.6 18/36 135W Up to 4 Processors
E5-4667 v3 2.0 2.9 DDR4 40 MB L3 9.6 16/32 135W Up to 4 Processors
E5-4660 v3 2.1 2.9 DDR4 35 MB L3 9.6 14/28 120W Up to 4 Processors
E5-4655 v3 2.9 3.2 DDR4 30 MB L3 9.6 6/12 135W Up to 4 Processors
E5-4650 v3 2.1 2.8 DDR4 30 MB L3 9.6 12/24 105W Up to 4 Processors
E5-4640 v3 1.9 2.6 DDR4 30 MB L3 8.0 12/24 105W Up to 4 Processors
E5-4627 v3 2.6 3.2 DDR4 25 MB L3 8.0 10/10 135W Up to 4 Processors
E5-4620 v3 2.0 2.6 DDR4 25 MB L3 8.0 10/20 105W Up to 4 Processors
E5-4610 v3 1.7 N/A DDR4 25 MB L3 6.4 10/20 105W Up to 4 Processors
Intel® Itanium® Processor 9500 Sequence~
9560 2.53 N/A 1067 (DDR3) 32 MB L3 6.4 8/16 170W MP
9550 2.4 N/A 1067 (DDR3) 32 MB L3 6.4 4/8 170W MP
9540 2.13 N/A 1067 (DDR3) 24 MB L3 6.4 8/16 170W MP
9520 1.73 N/A 1067 (DDR3) 20 MB L3 6.4 4/8 130W MP
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 19
« Workstation only SKU. 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.
SERVERS - Intel® processor reference chart
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 FamilyClock Speed
(GHz)Processor
Number
ΦIntel® QPI
(GT/Sec)
Cores /
ThreadsCache
Max Turbo Clock
Speed (GHz)
Power
(Max TDP)ΩSystem Type
Memory Speed
DDR4 (MHz)
INTEL® ROADMAP DIRECTIONS 201620
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.
SERVERS - Intel® processor reference chart
E3-1280 v5 3.7 4.0 1600/2133 8 MB L3 N/A 4/8 80W UP
E3-1275 v5 3.6 4.0 1600/2133 8 MB L3 N/A 4/8 80W UP
E3-1270 v5 3.6 4.0 1600/2133 8 MB L3 N/A 4/8 80W UP
E3-1260L v5 2.9 3.9 1600/2133 8 MB L3 N/A 4/8 45W UP
E3-1245 v5 3.5 3.9 1600/2133 8 MB L3 N/A 4/8 80W UP
E3-1240L v5 2.1 3.2 1600/2133 8 MB L3 N/A 4/8 25W UP
E3-1240 v5 3.5 3.9 1600/2133 8 MB L3 N/A 4/8 80W UP
E3-1235L v5 2.0 3.0 1600/2133 8 MB L3 N/A 4/4 25W UP
E3-1230 v5 3.4 3.8 1600/2133 8 MB L3 N/A 4/8 80W UP
E3-1225 v5 3.3 3.7 1600/2133 8 MB L3 N/A 4/4 80W UP
E3-1220 v5 3.0 3.5 1600/2133 8 MB L3 N/A 4/4 80W UP
Intel® Xeon® Processor E3-1200 v5 Sequence~
Intel® Brand or
Processor FamilyClock Speed
(GHz)Processor
Number
ΦIntel® QPI
(GT/Sec)
Cores /
ThreadsCache
Max Turbo Clock
Speed (GHz)
Power
(Max TDP)ΩSystem Type
Memory Speed
DDR3/DDR4 (MHz)
Intel® Xeon® Processor E3-1200 v4 Sequence~
E3-1285L v4 3.4 3.8 1866 6 MB L3 N/A 4/8 65W UP
E3-1285 v4 3.5 3.8 1866 6 MB L3 N/A 4/8 95W UP
E3-1265L v4 2.3 3.3 1866 6 MB L3 N/A 4/8 35W UP
Intel® Brand or
Processor FamilyClock Speed
(GHz)Processor
Number
ΦIntel® QPI
(GT/Sec)
Cores /
ThreadsCache
Max Turbo Clock
Speed (GHz)
Power
(Max TDP)ΩSystem Type
Memory Speed
DDR3 (MHz)
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 21
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.
SERVERS - Intel® processor reference chartIntel® Brand or
Processor FamilyClock Speed
(GHz)Processor
Number
ΦIntel® QPI
(GT/Sec)
Cores /
ThreadsCache
Max Turbo Clock
Speed (GHz)
Power
(Max TDP)ΩSystem Type
Memory Speed
DDR3 (MHz)
Intel® Xeon® Processor E3-1200 v3 Sequence~
E3-1286L v3 3.2 4.0 1600 8 MB L3 N/A 4/8 65W UP
E3-1286 v3 3.7 4.1 1600 8 MB L3 N/A 4/8 84W UP
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
E3-1281 v3 3.7 4.1 1600 8 MB L3 N/A 4/8 82W UP
E3-1280 v3 3.6 4.0 1600 8 MB L3 N/A 4/8 82W UP
E3-1276 v3 3.6 4.0 1600 8 MB L3 N/A 4/8 84W UP
E3-1275L v3 2.7 3.9 1600 8 MB L3 N/A 4/8 45W UP
E3-1275 v3 3.5 3.9 1600 8 MB L3 N/A 4/8 84W UP
E3-1271 v3 3.6 4.0 1600 8 MB L3 N/A 4/8 80W 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
E3-1246 v3 3.5 3.9 1600 8 MB L3 N/A 4/8 84W UP
E3-1245 v3 3.4 3.8 1600 8 MB L3 N/A 4/8 84W UP
E3-1241 v3 3.5 3.9 1600 8 MB L3 N/A 4/8 80W UP
E3-1240L v3 2.0 3.0 1600 8 MB L3 N/A 4/8 25W UP
E3-1240 v3 3.4 3.8 1600 8 MB L3 N/A 4/8 80W UP
E3-1231 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
E3-1226 v3 3.3 3.7 1600 8 MB L3 N/A 4/4 84W 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® ROADMAP DIRECTIONS 201622
∏ Also available as part of an Intel® Xeon Phi™ starter kit
SERVERS - Intel® processor reference chartIntel® Brand or
Processor Family
Clock Speed
(GHz)Processor
NumberCoresCache Broad TDP (Watts)Max Turbo Clock Speed (Ghz)
Clock Speed
(GHz)Processor
NumberCache
Cores /
Threads
Memory Speed
DDR3 (MHz)
Max Turbo Clock
Speed (GHz)Power (Max TDP)
Intel® Atom™ Processor C2000/S1200 Sequence~
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 9W
C2350 1.7 2.0 1333 1 MB 2/2 6W
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® Brand or
Processor Family
Intel® Xeon Phi™ Coprocessor Sequence~
7120A 1.238 1.333 30.5 MB 61 300W
7120D 1.238 1.333 30.5 MB 61 270W
7120P 1.238 1.333 30.5 MB 61 300W
7120X 1.238 1.333 30.5 MB 61 300W
5120D 1.053 N/A 30.0 MB 60 245W Π 5110P 1.053 N/A 30.0 MB 60 225W Π 3120A 1.1 N/A 28.5 MB 57 300W
3120P 1.1 N/A 28.5 MB 57 300W
Clock Speed
(GHz)Processor
NumberCache
Cores /
ThreadsMemory Types
Max Turbo Clock
Speed (GHz)Power (Max TDP)
Intel® Pentium® Processor D1500 Sequence~
D1517 1.6 2.2 DDR4, DDR3 6 MB 4/8 25W
D1509 1.5 N/A DDR4, DDR3 3 MB 2/2 19W
D1508 2.2 2.6 DDR4, DDR3 3 MB 2/4 25W
D1507 1.2 N/A DDR4, DDR3 3 MB 2/2 20W
Intel® Brand or
Processor Family
A RESOURCE GUIDE FOR CIOs AND IT PROFESSIONALS 23
~ Intel processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See for details. www.intel.com/products/processor_number
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
Intel is a sponsor and member of the BenchmarkXPRT Development Community, and was the major developer of the XPRT family of benchmarks. Principled Technologies is the publisher of the XPRT family of benchmarks. You should consult other information
and performance tests to assist you in fully evaluating your contemplated purchases.
1. Measured by SYSmark* 2014, a benchmark from the BAPCo* consortium that measures the performance of Windows* platforms. Find out more at . www.bapco.com
2. Measured by CyberLink MediaEspresso* 7+ (UHD) on Windows*. The workload file is a 12 minute and 14 second, ~1.5 GB, 3840x2160p, 17561 kbps, H.264 MP4 video file. The file is transcoded to a smaller 1920x1080, 8 Mbps, H.264, .m2ts file for
reduced file size during internet transfers or for viewing on a portable device with bit rate such as an iPod*.
3. Measured by WebXPRT* 2015, a benchmark from Principled Technologies that measures the performance of web applications. Find out more at . www.principledtechnologies.com
4. Video Battery Life Rundown (in minutes) as measured by Tears of Steel*, 1080p, 23.976fps, H.264, 3000kbps, rev1.mp4 >/=200nit, DPST=ON, no dimming, balanced, Wi-Fi connected.
5. Faster Resume workload consists of time to resume from standby based on OEM implementation of Windows® 10 Modern Standby on a 6th Gen Intel® Core™ processors.
1,2,3,4,5. System Configuration Details
5th generation Intel® Core™ system: Intel Reference Platform, Intel® Core™ M-5Y71processor (Turbo up to 2.9GHz/2.6GHz, PL1=4.5W TDP, 2C4T), Memory: 4GP (2x2GB) LPDDR3-1600, HDD: Intel® Solid State Drive (Intel® SSD), Display: 1920x1080, OS:
Windows® 10.
6th generation Intel® Core™ system: Intel Reference Platform, Intel® Core™ M7-6Y75 processor (Turbo up to 3.1GHz/2.9GHz, PL1=4.5W TDP 1 PL1=4.5W TDP , 2C4T), Memory: 4GB (2x2GB) LPDDR3-1600, HDD: Intel® Solid State Drive (Intel® SSD), Display:
1920x1080, OS: Windows® 10.
Intel Reference Platform is an example new system. Products available from systems manufacturers will not be identical in design, and performance will vary.
6. No computer system can provide absolute security under all conditions. Built-in security features available on select Intel Core™ 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, visit intel.com/technology/security.
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 . intel.com/technology/vpro
8. Baseline system: Intel® Xeon® Processor E3-1275 v2, Intel HD graphics P400, 16GB (4x4GB DDR3-1600MHz ECC UDIMM), Western Digital WD2000FYYZ HDD, RHEL v6.3-2.6.32-278, ACRVMBY1.86C, IC13.
Previous generation: Intel Xeon Processor E3-1276 v3 Supermicro 813M-3, X10SLM+-LN4f, Intel HD graphics P4600, 16 GB (4 x 4GB DDR3-1600MHz ECC UDIMM), Western Digital WD500GB HDD, RHEL6.5-2.6.32-431, 1.1a, IC14.
New Configuration: Intel Xeon Processor E3-1275 v5, RVP8 Skylake Reference Board, Intel HD Graphics P530, 16GB (2 x 8GB DDR4-2133MHz ECC UDIMM), Intel SSD 530 Serries 120GB model SSDSC2BW120A4, CentOS 7 - 3.10.0 123.el7.x86_64,
SKLSE2R1.R00.X092.B00.1507130736, IC14.
9. Intel technologies’ features and benefits depend on system configuration and may require enabled hardware, software or service activation. Performance varies depending on system configuration. No computer system can be absolutely secure. Check
with your system manufacturer or retailer or learn more at www.intel.com
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
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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
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