22nm Product Update
Dadi PerlmutterExecutive Vice PresidentGeneral Manager, Intel Architecture Group
22nm Silicon Technology Breakthrough Benefits Broad Range of Intel Architecture Devices
New 22nm 3-D transistors deliver unprecedented performance improvement and power reduction for Intel’s product portfolio
• This benefits smallest handhelds to powerful cloud-based servers
• 37% performance increase at low voltage vs. 32nm planar transistors*
• Consumes only half the power at the same performance level as 2-D transistors on 32nm planar chips*
* Based on Intel Internal Data
Intel Architecture Spans The Compute Continuum
Desktops Laptops EmbeddedSmartphonesTablets Smart TVsNetbooks
Servers / Cloud
TICK TOCK
Newest Manufacturing Technology Delivers Ivy Bridge
45 nm Process Technology
32 nmProcess Technology
22 nmProcess Technology
NehalemNEW Intel®
Microarchitecture
PenrynIntel® Core™
Microarchitecture
TICK TOCK
Westmere Sandy BridgeIntel®
Microarchitecture(Nehalem)
NEW Intel®Microarchitecture
Intel®Microarchitecture
(Sandy Bridge)
Ivy Bridge
TICKCadence of Innovation Delivers New Microprocessor
Efficiency on the 22 nm Process
Intel’s First 22 nm Processor
Ivy BridgeSandy Bridge Migrated to 22nm Process Technology
Client: Efficient performance for thin and light form factors
• Increased performance vs. today’s 2nd generation Intel® Core™ product family
• Enhanced media and graphics performance with processor graphics
• Enhanced security features
Server: Increased performance and improved efficiency
• Integrated Storage Features
Further Demonstrating Intel Product and Process Leadership
IA Platforms for Low Power SegmentsOptimized Performance for Phones, Tablets, and Consumer Electronics
1st Gen 45 nm 2nd Gen 45 nm 3rd Gen 32 nm 4th Gen 22 nm
Tablets
SodavilleGroveland FutureFuture
Menlow
MoorestownMedfield
Future
Oak TrailTunnel Creek Clover Trail Future
Smart Phones
Consumer Electronics
All products, dates, and figures specified are preliminary based on current expectations, and are subject to change without notice.
Energy-Efficient Performance Built on Moore’s Law
32nm45nm1x
0.1x
0.01x
0.001x
65nm 22nm
Low
er T
rans
isto
r Le
akag
e
Higher Transistor Performance (Switching Speed)
Source: Intel
> 50% reduction
0.1
1
Low
er A
ctiv
e Po
wer
Act
ive
Pow
er p
er T
rans
isto
r (no
rmal
ized
)
22 nm Tri-Gate transistors increase the benefit from a new technology generation
65nmPlanar
45nmPlanar
32nmPlanar
22nmTri-Gate
Constant Performance
Source: Intel
90 nm 45 nm65 nm 32 nm
Strained Silicon
Tri-Gate
2003 2005 2007 2009 2011
22 nm
Transistor Innovations Enable Technology Cadence
High k Metal gate
Invented SiGe
Strained Silicon
2nd Gen.SiGe
Strained Silicon
2nd Gen. Gate-Last
High-k Metal Gate
Invented Gate-Last
High-k Metal Gate
First to Implement
Tri-Gate
Transistor Innovations Enable Cost Benefits of Moore’s Law to Continue
$ / Transistor(relative to 0.35um)
0.001
0.01
0.1
1
.35um .25um .18um .13um 90nm 65nm 45nm 32nm 22nm 14nm 10nm
200mm
300mm
Source: Intel
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