2014 AMD Low-Power Mobile APUs

1. 1 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
2014 LOW-POWER AND
MAINSTREAM MOBILE APUs

2. 2 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
CATEGORY CREATOR, PERFORMANCE LEADER
 Re-created the essential-level notebook category,
bringing more performance and features to <$499
 First to deliver x86 Quad-core SoC and
Graphics Core Next (GCN) performance
 Now delivering up to 2X the
compute performance-per-watt
vs. the competition for
Mainstream PCs1
“BRAZOS”
“TEMASH”
“KABINI”
“MULLINS”
“BEEMA”

3. 3 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
INTRODUCING “MULLINS” LOW-POWER AND “BEEMA” MAINSTREAM APUs
 Performance leadership
 Stunning visual and
streaming
video experiences
 First and only x86
processors to integrate
an ARM core for
security
3rd GENERATION
OF CATEGORY-LEADING APUs
DIFFERENTIATED
EXPERIENCES
PLATFORM SECURITY
PROCESSOR
WORLD-CLASS
POWER MANAGEMENT

4. 4 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
 Puma+ x86 Cores
 Graphics Core Next (GCN)
 System-Aware Power
Management
 Platform Security Processor
 DDR3-1866 memory support
 Over 50% more frequency at
nearly half the TDP of the
previous generation 2
UNMATCHED FEATURE SET

5. 5 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
UNPRECEDENTED EXPERIENCES*
BEST STREAMING
VIDEO EXPERIENCE
BEST USER INTERFACE
EXPERIENCE
BEST, SEAMLESS
ANDROID ON
WINDOWS EXPERIENCE
Premium BlueStacks
optimized for AMD
AMD Face LoginAMD Gesture Control
AMD Perfect Picture
with AMD Steady Video
technology
AMD Quick Stream
Technology
*Please see Experiences requirements in back-up

6. 6 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
SYSTEM
Atom Z3770 (Bay Trail T)
A4 Micro-6400T
PCMark 8 V2 – Home3
LOW-POWER PERFORMANCE LEADERSHIP
FailedAtom Z3770 (Bay Trail T)
A4 Micro-6400T
3DMark 11 Performance4
Atom Z3770 (Bay Trail T)
A4 Micro-6400T
Basemark CL5
BASEMARK CL
GRAPHICSCOMPUTE
15% BETTER
3X
NO COMPARISON

7. 7 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
Pentium N3510 (Bay Trail M)
A4-6210
Pentium 3556U (Haswell)
A6-6310
PCMark 8 V2 – Home6,7
35% BETTER
COMPARABLE
Pentium N3510 (Bay Trail M)
A4-6210
Pentium 3556U (Haswell)
A6-6310
3DMark 11 Performance8,9
50% BETTER
3X
Pentium N3510 (BayTrail M)
A4-6210
Pentium 3556U (Haswell)
A6-6310
Basemark CL10,11
7X
4X
MAINSTREAM PERFORMANCE LEADERSHIPSYSTEM
BASEMARK CL
GRAPHICSCOMPUTE

8. 8 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
POSITIONING BACKED BY PERFORMANCE
GENERATION VS. GENERATION, TOP OF STACK COMPARISON*
2013 2014
PCMark 8 Home3DMark 11 Performance Basemark CL
“Temash”
Quad-core
8W TDP, 5.4 SDP 1487478 15
“Temash”
Dual-core
3.9W TDP, 3.5 SDP 1186299 10
AMD A10 Micro-6700T APU
with Radeon™ R6 Graphics
4.5W TDP, 2.8W SDP
1591582 15
AMD A4 Micro-6400T APU
with Radeon™ R3 Graphics
4.5W TDP, 2.8W SDP
1386452 13
AMD E1 Micro-6200T APU
with Radeon™ R2 Graphics
3.9W TDP, 2.8W SDP
1294371 12
Over 2X THE GRAPHICS
PERFORMANCE PER WATT
OF “TEMASH”12
NEARLY 2X THE SYSTEM
PRODUCTIVITY PER WATT
OF “TEMASH”13
*System test configurations in back-up
AMD A10 Micro-6700T vs. AMD A6-1450
3DMark11
PCMark 8 – Home v2

9. 9 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
POSITIONING BACKED BY PERFORMANCE
VS. COMPETITION*
PCMark 8 Home3DMark 11 Performance Basemark CL
 AMD A10 Micro-6700T beats
GRAPHICS PERFORMANCE of
“Haswell Y” Core i314
 Best “Bay Trail T” Atom
cannot even run 3DMark 11
 A4 Micro-6400T has 15% Better
SYSTEM PERFORMANCE
than the top Atom Z377015
 Intel does not span price points
in a single infrastructure
Core i5-4200Y
“Haswell Y”
Core i3-4010Y
“Haswell Y”
Atom Z3770
“Bay Trail T”
1696571 24
1211Failed 4
Split Infrastructure
AMD A10 Micro-6700T APU
with Radeon™ R6 Graphics
4.5W TDP, 2.8W SDP
1591582 15
AMD A4 Micro-6400T APU
with Radeon™ R3 Graphics
4.5W TDP, 2.8W SDP
1386452 13
AMD E1 Micro-6200T APU
with Radeon™ R2 Graphics
3.9W TDP, 2.8W SDP
1294371 12
2014
*System test configurations in back-up

10. 10 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
2013 2014
Over 10% better graphics
performance at 40% lower TDP
compared to previous generation 16
POSITIONING BACKED BY PERFORMANCE
GENERATION VS. GENERATION*
PCMark 8 Home3DMark 11 Performance Basemark CL
AMD A6-5200 APU with
Radeon™ 8400 Graphic
25W TDP 2004699 21
AMD E2-3800 APU with
Radeon™ 8280 Graphics
1563565 18
AMD E1-2100 APU with
Radeon™ 8230 Graphics
1307380 13
AMD A4-5000 APU with
Radeon™ 8330 Graphics
1777610 22
AMD A6-6310 APU
with Radeon™ R4 Graphics
15W TDP 1923778 22
AMD E2-6110 APU
with Radeon™ R2 Graphics
1712614 19
AMD E1-6010 APU
with Radeon™ R2 Graphics
1466438 15
AMD A4-6210 APU
with Radeon™ R3 Graphics
1817703 21
*System test configurations in back-up
3DMark11

11. 11 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
2014
POSITIONING BACKED BY PERFORMANCE
VS. COMPETITION
PCMark 8 Home3DMark 11 Performance Basemark CL
Pentium 3556U
“Haswell U”
1974518 3
Pentium N3510
“Bay Trail M”
1331233 5
Celeron N2805
“Bay Trail M”
937199 5
Celeron N2820
“Bay Trail M”
1212209 5
 AMD A6-6310 gives 50% better
GRAPHICS PERFORMANCE than
“Haswell U” Pentium 17
 And 7X the
COMPUTE PERFORMANCE of
“Haswell U” Pentium 18
 A4 -6210 delivers 3X the
GRAPHICS PERFORMANCE
of “Bay Trail M” Pentium 19
 And over 35% better COMPUTE
PERFORMANCE
than “Bay Trail M” Pentium 20
AMD A6-6310 APU
with Radeon™ R4 Graphics
15W TDP 1923778 22
AMD E2-6110 APU
with Radeon™ R2 Graphics
1712614 19
AMD E1-6010 APU
with Radeon™ R2 Graphics
1466438 15
AMD A4-6210 APU
with Radeon™ R3 Graphics
1817703 21
3DMark11 for Graphics Performance Basemark CL for Compute Performance

12. 12 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
“BEEMA” POWER IMPROVEMENTS
GENERATION OVER GENERATION
REDUCED POWER CONSUMPTION, MORE BATTERY LIFE
0.81 W
1.16 W
2.33 W
2.21 W
0.62 W
0.95 W
1.92 W
1.81 W
0.00 W
0.50 W
1.00 W
1.50 W
2.00 W
2.50 W
eReader Web Browsing 1080p Video Playback MobileMark 2012
"Kabini" SoC "Beema" SoC
Up to 20%
POWER REDUCTION 21

13. 13 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
2014 LOW-POWER “MULLINS” APUs
Model
Radeon™
Brand
SDP TDP
CPU
Cores
CPU
Clock Speed
(Max)
L2
Cache
Radeon™
Cores
GPU
Clock Speed
(Max)
DDR3
Speed
(Max)
AMD A-Series APUs
A10 Micro-6700T R6 2.8W 4.5W 4 2.2 GHz 2MB L2 128 500 MHz DDR3L-1333
A4 Micro-6400T R3 2.8W 4.5W 4 1.6 GHz 2MB L2 128 350 MHz DDR3L-1333
AMD E-Series APUs
E1 Micro-6200T R2 2.8W 3.95W 2 1.4 GHz 1MB L2 128 300 MHz DDR3L-1066

14. 14 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
2014 MAINSTREAM “BEEMA” APUs
Model
Radeon™
Brand
TDP
CPU
Cores
CPU
Clock Speed
(Max)
L2
Cache
Radeon™
Cores
GPU
Clock Speed
(Max)
DDR3
Speed
(Max)
AMD A-Series APUs
A6-6310 R4 15W 4 2.4 GHz 2MB L2 128 800 MHz DDR3L-1866
A4-6210 R3 15W 4 1.8 GHz 2MB L2 128 600 MHz DDR3L-1600
AMD E-Series APUs
E2-6110 R2 15W 4 1.5 GHz 2MB L2 128 500 MHz DDR3L-1600
E1-6010 R2 10W 2 1.35GHz 1MB L2 128 350 MHz DDR3L-1333

15. 15 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
ENABLING DIFFERENTIATION
DELIVERING ON
ELITE EXPERIENCES

16. 16 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
AMD PLATFORM SECURITY PROCESSOR (PSP) HARDWARE
1ST AND ONLY x86 PROCESSOR TO INTEGRATE AN ARM CORE
Dedicated 32-bit
microcontroller
(ARM Cortex-A5)
Isolated on-chip ROM & SRAM
Cryptographic co-processor
RSA, SHA, ECC, AES engine,
Zlib decompression, TRNG
Hardware logic for secure control of x86 core boot
DEDICATED SECURITY
SUBSYSTEM INTEGRATED
WITHIN APU
PSP
“MULLINS”/ “BEEMA” SOC
Access to system memory
and resources
Secure off-chip non-volatile
storage access for firmware
and data

17. 17 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
AMD SECURITY TECHNOLOGY
ENGINEERED
TO WORK
TOGETHER
Global Platform-based API,
enabling security software
access to the AMD Platform
Security Processor via open
industry standards
Trustonic ecosystem has
over 35 partners
Trustonic technology is
embedded in over 100m
smart connected devices

18. 18 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
DISCOVERY PROJECT
CONCEPTS CREATED TO SHOW THE WORLD
WHAT’S POSSIBLE WITH AMD APUs

19. 19 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
INNOVATING VALUED USER EXPERIENCES
TARGETED EXPERIENCES BRING AMD’S PRODUCT STRENGTHS TO LIFE FOR CONSUMERS
ENHANCED MEDIA
MOBILE LIFESTYLE
GAMING
SECURITY
Advanced power management
focused on improving the user's
ability to get the most from all
of their devices while on the go
APU acceleration focused on the
capture, delivery,
manipulation, sharing,
or consumption of all
media or information types
NATURAL INTERACTIONS
The performance needed to deliver
Surround Computing experiences
through more natural interactions
The thrill of GCN gaming
experiences across
all user devices
Platform Security Processor for
app authentication, multi-factor
authentication and digital
wallet experiences

20. 20 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
INTRODUCING THE 2014 AMD LOW POWER APUs
 Performance leadership
 Stunning visual and streaming
video experiences
 First and only x86 Processors
to integrate an ARM core
for security
3RD GENERATION
CATEGORY-LEADING APUs

21. THANK YOU

22. 22 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
FOOTNOTES
1. For “Beema” mainstreamAPU. Testing conducted by AMD PerformanceLabs on optimized AMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. Basemark CL is used to simulate
compute performance;15W TDP AMD A4-6210 APU scored 21 while the 7.5W TDP Pentium N3510 platform scored 5. AMD "Larne" reference platform system using AMD A4-6210 APU with AMD Radeon™ R3 Graphics,
2x1024 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel Pentium CPU N3510 @ 1.99GHz with Intel HD Graphics, 2x2048 MBytes of DDR3-1333 RAM,
Microsoft Windows 8.1 Single Language, 10.18.10.3366 - 25-Nov-2013 driver. BMN-25
2. The 4.5W TDP AMD A10 Micro-6700T has 2.2 GHz max frequency compared to the 8W AMD A6-1450 that has 1.4 GHz max frequency. MUN-17
3. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. PCMark 8 – Home v2 is used to simulate productivity performance;
AMD A4 Micro-6400T scored 1386 while the “Bay Trail T” platform scored 1211. AMD "Discovery"reference platform system using AMD A4 Micro-6400T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-1333 RAM,
Microsoft Windows 8.1 Single Language, 13.302.1101.0 - 12-Feb-2014 driver. Intel “Bay Trail T” Atom CPU Z3770 @ 1.46GHz with Intel HD Graphics, 2x1024 MBytes of DDR3-1066 RAM, 1920x1200x32, Microsoft
Windows 8.1 Single Language, 10.18.10.3348 - 30-Oct-2013 driver. MUN-18
4. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;AMD A4
Micro-6400T APU scored 452 while the “Bay Trail T” platform failed the test. AMD "Discovery"reference platform system using AMD A4 Micro-6400T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-1333 RAM,
Microsoft Windows 8.1 Single Language, 13.302.1101.0 - 12-Feb-2014 driver. Intel® “Bay Trail T” Atom™ CPU Z3770 @ 1.46GHz MUN-19
5. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. Basemark CL is used to simulate compute performance; A4 Micro-
6400T APU scored 13 while the “Bay Trail T” platform scored 4. AMD "Discovery"reference platform system using AMD A4 Micro-6400T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-1333 RAM, Microsoft
Windows 8.1 Single Language, 13.302.1101.0 - 12-Feb-2014 driver. Intel® “Bay Trail T” Atom™ CPU Z3770 @ 1.46GHz with Intel® HD Graphics, 2x1024 MBytes of DDR3-1066 RAM, 1920x1200x32, Microsoft Windows 8.1
Single Language, 10.18.10.3348 - 30-Oct-2013 driver. MUN-20
6. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. PCMark 8 – Home v2 is used to simulate productivity performance;
the AMD A6-6310 APU scored 1923 while the "Haswell" Pentium platform scored 1974. AMD "Larne" reference platform system using AMD A6-6310 APU with AMD Radeon™ R4 Graphics, 2x2048 MBytes of DDR3-1600
RAM, MicrosoftWindows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel Pentium 3556U @ 1.70GHz with Intel HD graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language,
10.18.10.3412 - 28-Jan-2014 driver. BMN-26
7. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. PCMark 8 – Home v2 is used to simulate productivity performance;
the AMD A4-6210 APU scored 1817 while the Pentium N3510 platform scored 1331. AMD "Larne" reference platform system using AMD A4-6210 APU with AMD Radeon™ R3 Graphics, 2x1024 MBytes of DDR3-1600
RAM, MicrosoftWindows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel Pentium CPU N3510 @ 1.99GHz with Intel HD BMN-23
8. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;the AMD A6-
6310 APU scored 778 while the “Haswell U” Pentium part scored 518. AMD "Larne" reference platform system using AMD A6-6310 APU with AMD Radeon™ R4 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft
Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel® Pentium® 3556U @ 1.70GHz with Intel(R) HD BMN-16
9. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;AMD A4-
6210 APU scored 703 while the “Bay Trail M” Pentium part scored 233. AMD "Larne" reference platform system using AMD A4-6210 APU with AMD Radeon™ R3 Graphics, 2x1024 MBytes of DDR3-1600 RAM, Microsoft
Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel Pentium CPU N3510 @ 1.99GHz with Intel® HD Graphics, 2x2048 MBytes of DDR3-1333 RAM, Microsoft Windows 8.1 Single Language,
10.18.10.3366 - 25-Nov-2013 driver. BMN-22
10. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. Basemark CL is used to simulate compute performance; AMD A6-
6310 APU scored 21 while the “Haswell U” Pentium part scored 3. AMD "Larne" reference platform system using AMD A6-6310 APU with AMD Radeon™ R4 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft
Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel® Pentium® 3556U @ 1.70GHz with Intel® HD Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language,
10.18.10.3412 - 28-Jan-2014 driver. BMN-11

23. 23 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
FOOTNOTES
11. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. Basemark CL is used to simulate compute performance; the AMD A4-
6210 APU scored 21 while the Pentium® N3510 platform scored 5. AMD "Larne" reference platform system using AMD A4-6210 APU with AMD Radeon™ R3 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft
Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel® Pentium® CPU N3510 @ 1.99GHz with Intel® HD Graphics, 2x2048 MBytes of DDR3-1333 RAM, Microsoft Windows 8.1 Single Language,
10.18.10.3366 - 25-Nov-2013 driver. BMN-24
12. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;4.5W AMD A10
Micro-6700T APU scored 582 while the 8W A6-1450 APU scored 478. AMD "Discovery" reference platform system using AMD A10 Micro-6700T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-1333 RAM, Microsoft
Windows 8.1 Single Language, 13.302.1301.0 - 03-Mar-2014 driver. AMD A6-1450 APU with Radeon™ HD 8250 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.350.1005.0 - 22-
Feb-2014 driver. MUN-14
13. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. PCMark 8 – Home v2 is used to simulate productivity performance;
4.5W AMD A10 Micro-6700T APU scored 1591 while the 8W A6-1450 APU scored 1487. AMD "Discovery"reference platform system using AMD A10 Micro-6700T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-
1333 RAM, Microsoft Windows 8.1 Single Language, 13.302.1301.0 - 03-Mar-2014 driver. AMD A6-1450 APU with Radeon™ HD 8250 MUN-15
14. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;the AMD A10
Micro-6700T APU scored 582 while the “Haswell Y” Core i3 scored 571. AMD "Discovery"reference platform system using AMD A10 Micro-6700T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-1333 RAM,
Microsoft Windows 8.1 Single Language, 13.302.1301.0 - 03-Mar-2014 driver. Intel® Core™ i3-4010Y CPU @ 1.30GHz with Intel(R)HD Graphics Family Graphics, 4096 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1
Single Language, 10.18.10.3412 - 28-Jan-2014 driver. MUN-12
15. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. PCMark 8 – Home v2 is used to simulate productivity performance;
AMD A4 Micro-6400T scored 1386 while the while the “Bay Trail T” platform scored 1211. AMD "Discovery" reference platform system using AMD A4 Micro-6400T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-
1333 RAM, Microsoft Windows 8.1 Single Language, 13.302.1101.0 - 12-Feb-2014 driver. Intel “Bay Trail T” Atom CPU Z3770 @ 1.46GHz with Intel HD Graphics, 2x1024 MBytes of DDR3-1066 RAM, 1920x1200x32,
Microsoft Windows 8.1 Single Language, 10.18.10.3348 - 30-Oct-2013 driver. MUN-18
16. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;the AMD A6-
6310 APU scored 778 while the AMD A6-5200 APU scored 699. AMD "Larne" reference platform system using AMD A6-6310 15W APU with AMD Radeon™ R4 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft
Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. AMD A6-5200 25W APU with Radeon™ 8400 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.350.1005.0 - 22-
Feb-2014 driver. BMN-9
17. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;the AMD A6-
6310 APU scored 778 while the “Haswell U” Pentium part scored 518. AMD "Larne" reference platform system using AMD A6-6310 APU with AMD Radeon™ R4 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft
Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel® Pentium® 3556U @ 1.70GHz with Intel(R) HD Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 10.18.10.3412
- 28-Jan-2014 driver. BMN-16
18. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. Basemark CL is used to simulate compute performance; AMD A6-
6310 APU scored 21 while the “Haswell U” Pentium part scored 3. AMD "Larne" reference platform system using AMD A6-6310 APU with AMD Radeon™ R4 Graphics, 2x2048 MBytes of DDR3-1600 RAM, MicrosoftWindows
8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel® Pentium® 3556U @ 1.70GHz with Intel® HD Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 10.18.10.3412 - 28-Jan-
2014 driver. BMN-11

24. 24 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
FOOTNOTES
19. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. 3DMark 11 is used to simulate graphics performance;the AMD A4-
6210 APU scored 703 while the Pentium® N3510 platform scored 233. AMD "Larne" reference platform system using AMD A4-6210 APU with AMD Radeon R4 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft
Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel® Pentium® CPU N3510 @ 1.99GHz with Intel(R) HD Graphics, 2x2048 MBytes of DDR3-1333 RAM, Microsoft Windows 8.1 Single Language,
10.18.10.3366 - 25-Nov-2013 driver. BMN-22
20. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. PCMark 8 – Home v2 is used to simulate productivity performance;
the AMD A4-6210 APU scored 1817 while the Pentium N3510 platform scored 1331. AMD "Larne" reference platform system using AMD A4-6210 APU with AMD Radeon™ R3 Graphics, 2x1024 MBytes of DDR3-1600 RAM,
Microsoft Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver. Intel Pentium CPU N3510 @ 1.99GHz with Intel HD Graphics, 2x2048 MBytes of DDR3-1333 RAM, Microsoft Windows 8.1 Single Language,
10.18.10.3366 - 25-Nov-2013 driver. BMN-23
21. Testing conducted by AMD PerformanceLabs on optimizedAMD reference systems. PC manufacturersmay vary configurationyieldingdifferent results. AMD A6-6310 APU will draw 0.62W power when running an eReader
compared to AMD A6-5200 0.81W APU draw on the same workload. Video file for power testing of video playback: Video file: Big Buck Bunny; H.264/MPEG-4 Part 10; 9783 Kbps; 1920x1080@24 fps. AMD "Larne"
reference platform system representing AMD A6-6310 15W APU with AMD Radeon™ R4 Graphics, 1x4096 MBytes of DDR3L-1600 RAM, Microsoft Windows 8.1, and 13.302.1401 driver. AMD A6-5200 25W APU with
Radeon™ 8400 Graphics, 2x2048 MBytes of DDR3L-1600 RAM, Microsoft Windows 8, 12.101.0.0 driver. BMN-21

25. 25 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
AMD EXPERIENCES REQUIREMENTS / DISCLAIMER
AMD Quick Stream is a technology designed to prioritizevideo streaming over other activities requiringInternet bandwidth for a smooth, uninterrupted video stream. AMD Quick Stream technology is availableon select PCs
and requires Windows®8 or Windows 7. Not all features may be supported on all systems - check with your system manufacturer for specific model capabilities and supported technologies.
AMD Perfect Picture is a set of image, video processing and display post-processing technologies designed to provide smooth video playback, advanced de-interlacing, dynamic contrast adjustment, color vibrancy, noise
reduction and edge enhancement that provides brilliantcolors and sharp images when playing Blu-ray and other content on your PC. AMD Perfect Picture includes AMD Steady Video technology designed to eliminateshakes
and jitters during the playback of home video. It is not designed to (a) isolate overlays, logos or captions, or (b) improve the playback of letter boxed, premium/commercial, or interlacedcontent. AMD Steady Video is
recommendedfor use with videos that contain unwanted shakes and jitters. Users may turn on this technology via the AMD Catalyst Control Center™.
AMD Face Login is designed as a convenient tool to help you log into Windows and many popular web sites quickly. It should not be used to protect your computer and personal informationfrom unwanted access. Only
availableon select AMD A-Series APU-based tablets and notebooks. Requiresa webcam, and will only operate on PCs running Windows 7 or Windows 8 operating system and Internet Explorer version 9 or 10. Internet
connection is required for website login and use of other online features.
AMD Gesture Control is designed to enable gesture recognition as a tool for controllingcertain applicationson your PC. Only availableon select AMD A-Series APU-based tablets and notebooks. Requires a web camera, and will
only operate on PCs running Windows 7 or Windows 8 operating system. Supported Windows desktop apps include: Windows Media Player, Windows Photo Viewer, Microsoft PowerPointand Adobe Acrobat Reader.
Supported Windows Store apps include: Microsoft Photos, Microsoft Music, Microsoft Reader and Kindle. Performance may be degraded in low lighting or intensely-focusedlighting environments.

26. 26 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
TEST SYSTEM CONFIGURATIONS
AMD A10 Micro-6700T
AMD "Discovery" referenceplatform system using AMD A10 Micro-6700T APU with Radeon™ R6 Graphics, 2048 MBytes of DDR3-1333 RAM, Microsoft Windows 8.1 Single Language, 13.302.1301.0 - 03-Mar-2014 driver. 2W
SDP
AMD E2-6110
AMD "Larne" reference platform system using AMD E2-6110 APU with Radeon™ R2 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.300.0.0 - 13-Jan-2014 driver. Intel® Pentium® CPU
N3510 @ 1.99GHz with Intel(R)HD Graphics, 2x2048 MBytes of DDR3-1333 RAM, Microsoft Windows 8.1 Single Language, 10.18.10.3366 - 25-Nov-2013 driver.
AMD A4-6210
AMD "Larne" reference platform system using AMD A4-6210 APU with AMD Radeon™ R3 Graphics, 2x1024 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, and 13.300.0.0 - 13-Jan-2014 driver.
AMD A6-6310
AMD "Larne" reference platform system representing AMD A6-6310 15W APU with AMD Radeon™ R4 Graphics, 1x4096 MBytes of DDR3L-1600 RAM, MicrosoftWindows 8.1, and 13.302.1401 driver.
AMD A6-1450
AMD A6-1450 APU with Radeon™ HD 8250 Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.350.1005.0 - 22-Feb-2014 driver.
AMD A6-5200
AMD A6-5200 25W APU with Radeon™ 8400 Graphics, 2x2048 MBytes of DDR3L-1600 RAM, Microsoft Windows 8, 12.101.0.0 driver.
Intel Pentium N3510
Intel Pentium CPU N3510 @ 1.99GHz with Intel HD Graphics, 2x2048 MBytes of DDR3-1333 RAM, Microsoft Windows 8.1 Single Language, 10.18.10.3366 - 25-Nov-2013 driver.
Intel Atom Z3770
Intel “Bay Trail T” Atom CPU Z3770 @ 1.46GHz with Intel® HD Graphics, 2x1024 MBytes of DDR3-1066 RAM, 1920x1200x32, 10.18.10.3348 - 30-Oct-2013 driver.
Intel® Core™ i3-4010Y
Intel® Core™ i3-4010Y CPU @ 1.30GHz with Intel(R) HD GraphicsFamily Graphics, 4096 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 10.18.10.3412 - 28-Jan-2014 driver.

27. 27 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
DISCLAIMER & ATTRIBUTION
The information presented in this document is for informational purposes only and may contain technical inaccuracies, omissions and typographical errors.
The information contained herein is subject to change and may be rendered inaccurate for many reasons, including but not limited to product and roadmap
changes, component and motherboard version changes, new model and/or product releases, product differences between differing manufacturers, software
changes, BIOS flashes, firmware upgrades, or the like. AMD assumes no obligation to update or otherwise correct or revise this information. However, AMD
reserves the right to revise this information and to make changes from time to time to the content hereof without obligation of AMD to notify any person of
such revisions or changes.
AMD MAKES NO REPRESENTATIONS OR WARRANTIES WITH RESPECT TO THE CONTENTS HEREOF AND ASSUMES NO RESPONSIBILITY FOR ANY INACCURACIES,
ERRORS OR OMISSIONS THAT MAY APPEAR IN THIS INFORMATION.
AMD SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT WILL AMD BE
LIABLE TO ANY PERSON FOR ANY DIRECT, INDIRECT, SPECIAL OR OTHER CONSEQUENTIAL DAMAGES ARISING FROM THE USE OF ANY INFORMATION
CONTAINED HEREIN, EVEN IF AMD IS EXPRESSLY ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
ATTRIBUTION
© 2014 Advanced Micro Devices, Inc. All rights reserved. AMD, Radeon, the AMD Arrow logo and combinations thereof are trademarks of Advanced Micro
Devices, Inc. in the United States and/or other jurisdictions. DirectX is a registered trademark of Microsoft Corporation. OpenCL is a trademark of Apple, Inc.
used by permission from Khronos. PCI Express is a registered trademark of PCI-SIG. HDMI is a trademark of HDMI Licensing, LLC. ARM is a registered
trademark of ARM Limited. 3DMark is a registered trademark of Futuremark Corporation. Other names are for informational purposes only and may be
trademarks of their respective owners.

28. 28 | AMD 2014 LOW-POWERAND MAINSTREAM MOBILE APUs
FORWARD LOOKING STATEMENT
This document contains forward-looking statements, which are made pursuant to the safe harbor provisions of the U.S. Private Securities Litigation Reform Act
of 1995. These forward-looking statements are based on risks and uncertainties that could cause actual results to differ materially from expectations. These
forward-looking statements should not be relied upon as predictions of future events as we cannot assure you that the events or circumstances reflected in
these statements will be achieved or will occur. You can identify forward-looking statements by the use of forward-looking terminology including “believes,”
“expects,” “may,” “will,” “should,” “seeks,” “intends,” “plans,” “pro forma,” “estimates,” or “anticipates” or the negative of these words and phrases or other
variations of these words and phrases or comparable terminology. These forward-looking statements relate to, among other things, our product roadmap; and
the expected growth in the markets in which we participate. The material factors that could cause actual results to differ materially from current expectations
include, without limitation, the following: (1) that Intel Corporation’s pricing, marketing and rebating programs, product bundling, standard setting, new product
introductions or other activities may negatively impact our plans; (2) that we may be unable to develop, launch and ramp new products and technologies in the
volumes that are required by the market at mature yields on a timely basis; (3) that we may be unable to obtain sufficient capacity or components to meet
demand for our products or the underutilization of GLOBALFOUNDRIES (GF) manufacturing facilities; (4) that GF will be unable to manufacture our products on a
timely basis and on competitive process technologies; (5) that our substantial indebtedness could adversely affect our financial position and prevent us from
implementing our strategy or fulfilling our contractual obligations; (6) that we will require additional funding and may be unable to raise sufficient capital on
favorable terms, or at all; (7) that we may be unable to realize the anticipated benefits of our asset smart strategy or the GF manufacturing joint venture
because, among other things, the synergies expected from the transaction may not be fully realized or may take longer to realize than expected; (8) that
customers stop buying our products or materially reduce their operations or demand for our products; (9) that we may be unable to maintain the level of
investment in research and development that is required to remain competitive; (10) that there may be unexpected variations in market growth and demand for
our products and technologies in light of the product mix that we may have available at any particular time or a decline in demand; (11) that macroeconomic
conditions and credit market conditions will be worse than currently expected; (12) that demand for computers will be lower than currently expected; and
(13) the effect of political or economic instability, domestically or internationally, on our sales or production. Investors are urged to review in detail the risks and
uncertainties in the company’s Securities and Exchange Commission filings, including but not limited to the latest Quarterly Report on Form 10-Q.