Boost Fertility New Invention Ups Success Rates.pdf
Computex 2014 AMD Press Conference
1. 1 | AMD COMPUTEX 2014 | JUNE 5, 2014
CAUTIONARY STATEMENT
This document contains forward-looking statements concerning AMD, including, the features and functionality of new AMD products and the timing and
availability of such products; our ability to offer both X86 and ARM processors for embedded, server and client markets ; our ability to create high performance
cores for our embedded, server and low-power client markets; our ability to deliver and execute on our X86 and 64-bit ARM Ambidextrous Computing
Roadmap ; which are made pursuant to the safe harbor provisions of the Private Securities Litigation Reform Act of 1995. Forward-looking statements are
commonly identified by words such as "would," "may," "expects," "believes," "plans," "intends," "projects," and other terms with similar meaning. Investors are
cautioned that the forward-looking statements in this document are based on current beliefs, assumptions and expectations, speak only as of the date of this
document and involve risks and uncertainties that could cause actual results to differ materially from current expectations. Risks include the possibility that that
Intel Corporation's pricing, marketing and rebating programs, product bundling, standard setting, new product introductions or other activities may negatively
impact the Company's plans; that the Company will require additional funding and may be unable to raise sufficient capital on favorable terms, or at all; that
customers stop buying the Company's products or materially reduce their operations or demand for its products; that the Company 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; that the Company's third-
party foundry suppliers will be unable to transition the Company's products to advanced manufacturing process technologies in a timely and effective way or to
manufacture the Company's products on a timely basis in sufficient quantities and using competitive process technologies; that the Company will be unable to
obtain sufficient manufacturing capacity or components to meet demand for its products or will not fully utilize the Company's projected manufacturing
capacity needs at GLOBALFOUNDRIES Inc. (GF) microprocessor manufacturing facilities; that the Company's requirements for wafers will be less than the fixed
number of wafers that we agreed to purchase from GF or GF encounters problems that significantly reduce the number of functional die the Company receives
from each wafer; that the Company is unable to successfully implement its long-term business strategy; that the Company inaccurately estimates the quantity
or type of products that its customers will want in the future or will ultimately end up purchasing, resulting in excess or obsolete inventory; that the Company is
unable to manage the risks related to the use of its third-party distributors and add-in-board (AIB) partners or offer the appropriate incentives to focus them on
the sale of the Company's products; that the Company may be unable to maintain the level of investment in research and development that is required to
remain competitive; that there may be unexpected variations in market growth and demand for the Company's products and technologies in light of the
product mix that it may have available at any particular time; that global business and economic conditions, including consumer PC market conditions, will not
improve or will worsen; that demand for computers will be lower than currently expected and the effect of political or economic instability, domestically or
internationally, on the Company's sales or supply chain. 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 Annual Report on Form 10-K for the year ended December 28, 2013.
5. 5 | AMD COMPUTEX 2014 | JUNE 5, 2014
MARKET TRENDS SHAPING AMD TECHNOLOGY INVESTMENTS
Consumer tech adoption
is expanding, diversifying
and evolving
Customers seek new
approaches to innovation
to differentiate and win
New ecosystems and
architectures emerging from
the datacenter to embedded
6. 6 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD SEES CLEAR OPPORTUNITY FOR INNOVATION…
Demand increasing for more compute to
propel new capabilities and experiences
GROWTH IN COMPUTE
BRIDGING ECOSYSTEMS
Consolidation around x86 and ARM® architectures
creates need for interoperability across ecosystems
Graphics, visualization and video content on the
rise in devices and the cloud
GRAPHICS & ACCELERATION
Graphics, visualization and video content
on the rise in devices and the cloud
7. 7 | AMD COMPUTEX 2014 | JUNE 5, 2014
TRANSFORMING OUR BUSINESS
TRADITIONAL MARKETS GROWTH MARKETS
2012 Actual
~90%
~10%
2015 Y/E
~50%
~50%
2013 Actual
~70%
~30%
ATTACK IN GROWTH MARKETSEVOLVE IN CORE MARKETS
Maintain traditional PC strongholds
Grow in desktop and graphics channel
Target commercial opportunities
Professional graphics
Semi-custom
Dense Server
Embedded
Ultra low-power client
8. 8 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD RADEON™ GRAPHICS MOMENTUM
“One word – breathtaking.”
- Guru3D1
6 MILLION Users2
200 Games3
World’s First
4K Laptop
4 Engines
7 Developers
20+ Games
R9 295X2
MANTLE API
R7 M265
AMD GAMING
EVOLVED
9. 9 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD APU MOMENTUM
“KAVERI”
AMD’s MOST ADVANCED APU EVER
2011-2012 2014 2015+
Over 80 million
AMD APU installed base
Estimated 150+
million
AMD APU installed
base
Estimated 300+
million
AMD APU installed
base
AMD APU Units for non-PCs AMD APU Units for PCs
150+
300+
80
DEMAND FOR APUs RISING
INSTALLED BASE GROWING
10. 10 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD NEW APPLICATION MOMENTUM
11. 11 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD NEW APPLICATION MOMENTUM
12. 12 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD NEW APPLICATION MOMENTUM
13. 13 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD NEW APPLICATION MOMENTUM
14. 14 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD NEW APPLICATION MOMENTUM
15. 15 | AMD COMPUTEX 2014 | JUNE 5, 2014
Client: New Performance Mobile
and Professional APUs
Graphics: New graphics technology
in the datacenter and cloud
Embedded: New embedded
APUs and CPUs
ANNOUNCING TODAY @COMPUTEX 2014
17. 17 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD CLIENT MOMENTUM
“KAVERI” Desktop
Revolutionary Architecture
January 14th
“Kaveri is the greatest innovation
that AMD has made in the last ten
years…”
― Digital! Magazine
February issue, page 22-23
“I can also say that, given a
choice between Intel and AMD in
this particular segment, the AM1
platform clearly wins.”
― Tom’s Hardware
http://bit.ly/1nz52yu
“The APUs codenamed “Mullins”
and “Beema” are set to deliver more
than twice the performance-per-
watt of the previous generation”
― CIO-Today
http://bit.ly/1nsoX4N
AM1 Desktop
First AMD Athlon™ & Sempron™ APUs
April 9th
“BEEMA” /“MULLINS” Notebook
2X Performance-Per-Watt1
April 29th
18. 18 | AMD COMPUTEX 2014 | JUNE 5, 2014
INTRODUCING THE 2014 MOBILE PERFORMANCE APUs
Revolutionary Architecture
Maximum Compute Performance
Enabling New Experiences
Up to 12
Compute Cores*
HSA
Features
Graphics Core Next
(GCN) with Mantle
*Includes 4 CPU cores + 8 GPU cores.
Visit amd.com/ComputeCores for more information.
AMD
TrueAudio2
19. 19 | AMD COMPUTEX 2014 | JUNE 5, 2014
GOES MOBILE!
Extreme Performance
Amazing Mobile Gaming
20. 20 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD FX TAKES ON INTEL CORE i7
BASEMARK CL
SYSTEMGRAPHICSCOMPUTE
Intel i7-4500U "Haswell"
AMD FX-7500 "Kaveri"
Intel i7-4500U "Haswell"
AMD FX-7500 "Kaveri"
Intel i7-4500U "Haswell"
AMD FX-7500 "Kaveri" UP TO 19% BETTER5
UP TO 58% BETTER4
COMPARABLE3
22. 22 | AMD COMPUTEX 2014 | JUNE 5, 2014
ADDRESSING THE CHANGING NEEDS OF COMMERCIAL
Yesterday Today
23. 23 | AMD COMPUTEX 2014 | JUNE 5, 2014
INTRODUCING THE
P E R F O R M A N C E
L O N G E V I T Y
S T A B I L I T Y
24. 24 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD PRO SERIES VERSUS INTEL CORE i5
100%
108%
Intel Core i5-4200U
"Haswell"
AMD PRO A10-7350B
"Kaveri" Up to 8% Better6
PCMARK 8 V2 WORK
26. 26 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD A-SERIES MOBILE PERFORMANCE APUs REDEFINE COMPUTE
8 GCN GPU Cores
CU
CU
CU
CU
CU
CU
CU
CU
Connectivity
hUMASharedMemoryController
Display
4 “Steamroller” CPU Cores Multimedia
PCIe
Gen 3
PCIe
Gen 2
DisplayPort
1.2
HDMI
1.4a
DVI
VGA
AMD
TrueAudio
UVD
VCE
ENABLING SUPERIOR EXPERIENCES
MAXIMUM COMPUTE PERFORMANCE
REVOLUTIONARY ARCHITECTURE
30. 30 | AMD COMPUTEX 2014 | JUNE 5, 2014
THIN CLIENT
DIGITAL SIGNAGE
INFOTAINMENT
COMMUNICATIONS
& NETWORKING
INDUSTRIAL
CONTROLS &
AUTOMATION
SECURITY
BUSINESS
AUTOMATION
AUDIO & VIDEO
OIL & GAS
DIGITAL
SURVEILLANCE
WEARABLES
TRANSPORTATION
RETAIL
AUTOMATION
STORAGE
MEDICAL IMAGING
GATEWAY
EQUIPMENT
HOME &
COMMERCIAL
APPLIANCES
GAMING
MACHINES
DEFENSE &
MILITARY
ENERGY
INDUSTRIAL
TABLETS
AEROSPACESMART PHONES
AUTOMOTIVE
INSTRUMENTATION
31. 31 | AMD COMPUTEX 2014 | JUNE 5, 2014
THIN CLIENT
DIGITAL SIGNAGE
INFOTAINMENT
COMMUNICATIONS
& NETWORKING
INDUSTRIAL
CONTROLS &
AUTOMATION
SECURITY
BUSINESS
AUTOMATION
AUDIO & VIDEO
OIL & GAS
DIGITAL
SURVEILLANCE
WEARABLES
TRANSPORTATION
RETAIL
AUTOMATION
STORAGE
MEDICAL IMAGING
GATEWAY
EQUIPMENT
HOME &
COMMERCIAL
APPLIANCES
GAMING
MACHINES
DEFENSE &
MILITARY
ENERGY
INDUSTRIAL
TABLETS
AEROSPACESMART PHONES
AUTOMOTIVE
INSTRUMENTATION
32. 32 | AMD COMPUTEX 2014 | JUNE 5, 2014
WE ARE COMPUTE PIONEERS
33. 33 | AMD COMPUTEX 2014 | JUNE 5, 2014
*AMD roadmaps are subject to change without notice or obligations to notify of changes. Placement of boxes
is not intended to represent first year of product shipment.
20142013
HIGH-
PERFORMANCE
LOW-POWER
DISCRETE
GRAPHICS
“Adelaar” GPU
“Bald Eagle” APU/CPU
“Hierofalcon” CPU
“Steppe Eagle” APU
“Crowned Eagle” CPU
2 or 4 “Steamroller” CPU Cores
GCN Graphics Compute
17W-35W TDPHSA28nm
28nm SoC
28nm SoC
28nm SoC
28nm
4 or 8 ARM “A57” CPU Cores
10 Gig Ethernet
15W-30W TDP
2 or 4 Enhanced “Jaguar” CPU Cores
GCN Graphics Compute Units
5W-25W TDP
2 or 4 Enhanced “Jaguar” CPU Cores
5W-25W TDP
GCN Graphics Compute Units
2GB GDDR5
72GB/s Memory Throughput
AMD Radeon™ E6760 GPU
AMD R-Series APU/CPU
AMD G-Series APU SOC
2 or 4 “Piledriver” CPU Cores
AMD Radeon™ HD 7000 Series GPU
17W-35W TDP32nm
28nm SoC
40nm
2 or 4 “Jaguar” CPU Cores
AMD Radeon™ HD 8000 Series GPU
6W-25W TDP
“Turks” Compute Units
1GB GDDR5
51GB/s Memory Throughput
34. 34 | AMD COMPUTEX 2014 | JUNE 5, 2014
1ST EMBEDDED SOLUTION
WITH HSA FEATURES
DRIVE UP TO 9 DISPLAYS WHEN
PAIRED WITH E8860 GPU
UP TO 66% MORE COMPUTE
PERFORMANCE THAN PREVIOUS GENERATION1
2.2 – 3.6 GHz CPU &
464 – 600 MHz GPU
3D, HD AND 4K VIDEO CONTENT
35. 35 | AMD COMPUTEX 2014 | JUNE 5, 2014
Call-out or headline
IC&A
DIGITAL
SIGNAGE
MEDICAL
IMAGING
GAMING MACHINES
*Part availability is planned for ten years from date of announcement, subject to change without notice. Further support available under contract
36. 36 | AMD COMPUTEX 2014 | JUNE 5, 2014
*AMD roadmaps are subject to change without notice or obligations to notify of changes. Placement of boxes
is not intended to represent first year of product shipment.
20142013
HIGH-
PERFORMANCE
LOW-POWER
DISCRETE
GRAPHICS
“Adelaar” GPU
“Bald Eagle” APU/CPU
“Hierofalcon” CPU
“Steppe Eagle” APU
“Crowned Eagle” CPU
2 or 4 “Steamroller” CPU Cores
GCN Graphics Compute
17W-35W TDPHSA28nm
28nm SoC
28nm SoC
28nm SoC
28nm
4 or 8 ARM “A57” CPU Cores
10 Gig Ethernet
15W-30W TDP
2 or 4 Enhanced “Jaguar” CPU Cores
GCN Graphics Compute Units
5W-25W TDP
2 or 4 Enhanced “Jaguar” CPU Cores
5W-25W TDP
GCN Graphics Compute Units
2GB GDDR5
72GB/s Memory Throughput
AMD Radeon™ E6760 GPU
AMD R-Series APU/CPU
AMD G-Series APU SOC
2 or 4 “Piledriver” CPU Cores
AMD Radeon™ HD 7000 Series GPU
17W-35W TDP32nm
28nm SoC
40nm
2 or 4 “Jaguar” CPU Cores
AMD Radeon™ HD 8000 Series GPU
6W-25W TDP
“Turks” Compute Units
1GB GDDR5
51GB/s Memory Throughput
37. 37 | AMD COMPUTEX 2014 | JUNE 5, 2014
NEW AMD EMBEDDED
G-SERIES SOC & CPU
Pin
Compatible
cTDP
AMD platform
security processor
(PSP) built upon
TrustZone®
architecture
Up to
53%
more overall
performance2
AMD G-SERIES:
WORLD’S FIRST EMBEDDED
QUAD-CORE X86 SOC
28nm
Single-chip
SoC
“Jaguar” core
AMD
Radeon™ HD
8000 Series
39. 39 | AMD COMPUTEX 2014 | JUNE 5, 2014
34 PERCENT MORE
PERFORMANCE-PER-DOLLAR THAN
COMPETING INTEL SOLUTION3
40. 40 | AMD COMPUTEX 2014 | JUNE 5, 2014
UP TO 96 PERCENT MORE OVERALL
PERFORMANCE-PER-WATT
THAN PREVIOUS GENERATION4
41. 41 | AMD COMPUTEX 2014 | JUNE 5, 2014
DATA CENTER SWITCH - CONTROL PLANE
OUTSTANDING PERFORMANCE/$
LOW POWER CONSUMPTION
PACKETS IN PACKETS OUT
“CROWNED EAGLE” FOR NETWORKING CONTROL PLANE
42. 42 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD IS POWERING INNOVATION AND BUILDING
PARTNERSHIPS TO TRANSFORM EMBEDDED EXPERIENCES
THE EMBEDDED MARKET IS GROWING AND NEEDS TECHNOLOGY SOLUTIONS
TO ADDRESS VERTICAL MARKET AND SYSTEMS CHALLENGES.
44. 44 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD FIREPRO™ GRAPHICS LEADERSHIP
RELENTLESS MOMENTUM IN THE PROFESSIONAL GRAPHICS MARKET
Apple Mac Pro AMD FirePro™ W9100 SPECviewperf® 12
OpenCL™ Adoption
45. 45 | AMD COMPUTEX 2014 | JUNE 5, 2014
COMPUTING
AMD FIREPRO™ S-SERIES FOR THE DATA CENTER
VISUAL CLOUD
46. 46 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD FIREPRO™
S4000X GRAPHICS
Shipping in the HP ProLiant
WS460c Graphics Server Blade
Remote workstation for CAD
and Financial Services
AMD FIREPRO™ GRAPHICS IN THE DATA CENTER
47. 47 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD FIREPRO™ GRAPHICS IN THE DATA CENTER
AMD FIREPRO
S4000X GRAPHICS
AMULET
GPU-only mezzanine card for
Dell M-series blade servers
DELL
PowerEdge™ M520 & M620
Blade Servers
Enhanced parallel processing performance for GPU
Compute, and Remote & Virtual Workstations
48. 48 | AMD COMPUTEX 2014 | JUNE 5, 2014
DELIVERING THE RIGHT TECHNOLOGIES FOR KEY WORKLOADS
VISUAL CLOUDCOMPUTING
49. 49 | AMD COMPUTEX 2014 | JUNE 5, 2014
Enabling Key Use Cases
ACCELERATING GRAPHICS IN THE CLOUD
Remote workstation
Virtual desktops and applications
Cloud gaming
Robust Features and Ecosystem
AMD RapidFire API
Shared graphics support
Hypervisor partnerships
50. 50 | AMD COMPUTEX 2014 | JUNE 5, 2014
BARRY CHEN
GENERAL MANAGER, TAIWAN
52. 52 | AMD COMPUTEX 2014 | JUNE 5, 2014
Give Customers
New Paths to
Innovation
Harness the Best
of the x86 and ARM
Global Ecosystems
Offer Compute
Leadership in Both x86
and 64-bit ARM through
APU design
2015 AND BEYOND
53. 53 | AMD COMPUTEX 2014 | JUNE 5, 2014
$0B
$50B
$100B
0%
50%
100%
2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018
x86 Other ARM x86 + ARM TAM
ARM + x86 DOMINATE THE FUTURE OF COMPUTING
HISTORICAL AND PROJECTED COMBINED REVENUE SHARE ACROSS
PROCESSOR ARCHITECTURES FOR MOBILE, EMBEDDED, PCS, CONSOLES, SERVERS
x86 + ARM TAM
is now approaching
$80B
Source: AMD internal estimates
54. 54 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD “PROJECT SKYBRIDGE” AMBIDEXTROUS DESIGN FRAMEWORK
2015
Starting in 2015, families of 20nm APUs and
SoCs with pin-compatible x86/ARM compute
Designed for Full HSA support
AMD Graphics Core Next (GCN)
Next-Gen “Puma+” x86 Cores
Low-power A57 64-bit ARM Cores
AMD‘s first HSA Android platform
AMBIDEXTROUS
COMPUTING
ROADMAP
55. 55 | AMD COMPUTEX 2014 | JUNE 5, 2014
2014 2015 2016
AMD’S ARM CORE ROADMAP
ARM A57 ARM
Combined “Seattle”
software and ARM IP
ARM A57
Low Power
ARM
AMD “K12”
ARM Core
ARM
AMD-Developed
ARM Core Design
Elevating 64-bit ARM
performance to
new levels
AMD roadmaps are subject to change without notice or obligations to notify of changes.
Placement of boxes intended to represent first year of production shipments.
Cores Methodology
and Verification
“Project SkyBridge”
56. 56 | AMD COMPUTEX 2014 | JUNE 5, 2014
2014 2015 2016+
AMBIDEXTROUS COMPUTING ROADMAP
Ambidextrous
Computing Leadership
x86 and 64-bit ARM for:
“Kaveri”
“Beema” and “Mullins"
“Seattle”
“Project SkyBridge”
family of 20nm APUs
and SoCs
Developing 64-bit ARM
cores alongside new
64-bit x86 cores
Dense Server
Embedded
Semi-Custom
Ultra-Low
Power Client
57. 57 | AMD COMPUTEX 2014 | JUNE 5, 2014
AMD INNOVATIONS ANNOUNCED TODAY @COMPUTEX 2014
Graphics, visualization and video content on the
rise in devices and the cloud
CLIENT ANNOUNCEMENTS
New AMD FX-Series Mobile APUs
New AMD PRO Series Mobile and Desktop APUs
EMBEDDED & ECOSYSTEM
ANNOUNCEMENTS
New AMD performance R-Series & low-power G-Series
“Project SkyBridge” enables Ambidextrous Computing era
GRAPHICS ANNOUNCEMENTS
New AMD FirePro S4000X technology in the datacenter
New AMD SKY Technology for accelerating
graphics in the cloud
61. 61 | AMD COMPUTEX 2014 | JUNE 5, 2014
ENDNOTES
1. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results. 3DMark 11 is used to simulate graphics performance; the AMD
A8-6410 APU (15W TDP) scored 880 while the AMD A6-5200 APU (25W TDP) scored 699. BMN-36
2. AMD TrueAudio technology is offered by select AMD Radeon™ R9 and R7 200 Series GPUs and select AMD A-Series APUs and is designed to improve acoustic realism. Requires enabled game or application. Not all
audio equipment supports all audio effects; additional audio equipment may be required for some audio effects. Not all products feature all technologies—check with your component or system manufacturer for
specific capabilities.
3. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results. PCMark 8 - Home score is used to simulate productivity
performance; the AMD FX-7500 APU scored 2591 while the i7-4500U processor scored 2530. KVN-46
4. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results. 3DMark 11 is used to simulate graphics performance; the AMD
FX-7500 APU scored 1473 while the i7-4500U processor scored 932. KVN-45
5. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results. Basemark CL score is used to simulate system performance;
the AMD FX-7500 APU scored 44 while the i7-4500U processor scored 37. KVN-67
6. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results. PCMark 8 - Work score is used to simulate productivity
performance; the AMD PRO A10-7350B APU scored 3507 while the Core i5-4200U processor scored 3248. KVN-69
62. 62 | AMD COMPUTEX 2014 | JUNE 5, 2014
CLIENT FOOTNOTES
1. AMD TrueAudio technology is offered by select AMD Radeon™ R9 and R7 200 Series GPUs and select AMD A-Series APUs and is designed to improve
acoustic realism. Requires enabled game or application. Not all audio equipment supports all audio effects; additional audio equipment may be required
for some audio effects. Not all products feature all technologies—check with your component or system manufacturer for specific capabilities.
2. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results.
PCMark 8 - Home score is used to simulate productivity performance; the AMD FX-7500 APU scored 2591 while the i7-4500U processor scored 2530.
KVN-46
3. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results.
3DMark 11 is used to simulate graphics performance; the AMD FX-7500 APU scored 1473 while the i7-4500U processor scored 932. KVN-45
4. Testing conducted by AMD Performance Labs on optimized AMD reference systems. PC manufacturers may vary configuration yielding different results.
Basemark CL score is used to simulate system performance; the AMD FX-7500 APU scored 44 while the i7-4500U processor scored 37. KVN-47
63. 63 | AMD COMPUTEX 2014 | JUNE 5, 2014
CONFIGS
AMD
AMD “Ballina” reference platform
‒ AMD FX-7500 APU with Radeon™ R7 Graphics featuring 10 Compute Cores (4C+6G), 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.350.0.0 -
10-Mar-2014 drive.
‒ AMD A10 PRO-7350B APU with Radeon™ R6 Graphics, 10 Compute Cores (4C+6G), 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.350.0.0 -
10-Mar-2014 drive.
‒ AMD A10-7400P APU with Radeon™ R6 Graphics featuring 10 Compute Cores (4C+6G), 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language,
13.350.0.0 - 24-Feb-2014 driver.
‒ AMD A10-7300 APU with Radeon™ R6 Graphics featuring 10 Compute Cores (4C+6G), 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language,
13.350.0.0 - 24-Feb-2014 driver.
‒ AMD A8-7100 APU with Radeon™ R5 Graphics featuring 8 Compute Cores (4C+4G), 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.350.0.0 -
24-Feb-2014 driver.
INTEL
‒ Dell Inspiron 5537, Intel(R) Core(TM) i7-4500U CPU @ 1.80GHz with Intel HD Graphics 4600, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language,
13.300.0.0 - 18-Dec-2013
‒ Dell Inspiron 5537, ntel(R) Core(TM) i5-4200U CPU @ 1.60GHz with Intel HD Graphics 4600, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language,
13.300.0.0 - 18-Dec-2013
‒ Hewlett-Packard HP ProBook 430 G1, ntel(R) Core(TM) i3-4010U CPU @ 1.70GHz with Intel HD Graphics 4600, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1
Single Language, 13.300.0.0 - 18-Dec-2013
‒ Acer Aspire E1-532P, Intel(R) Pentium(R) 3556U @ 1.70GHz with Intel HD Graphics, 2x2048 MBytes of DDR3-1600 RAM, Microsoft Windows 8.1 Single Language, 13.300.0.0 -
18-Dec-2013
64. 64 | AMD COMPUTEX 2014 | JUNE 5, 2014
EMBEDDED DISCLAIMERS
1 The AMD Bald Eagle RX-427BB scored 76 and AMD R-Series 464L scored 46, when running BasemarkCL 1.0 benchmark. The performance delta of 66% was
calculated based on RX-427BB’s performance score of 76 and R-464L’s performance score of 46. The AMD Bald Eagle RX-427BB used an AMD Ballina
motherboard with 8GB DDR3 SO-DIMM memory and 256GB SanDisk HDD. The R-464L used an AMD DB-FS1r2 development board with 8GB DDR3 memory
and 160GB Hitachi HDD. Both systems ran Windows® 7 Ultimate. EMB-95
2 Overall performance was measured using a suite of industry benchmarks consisting of 3DMark06, 3DMark11, POVRay v3.7, Passmark v7, PCMark8 v2.0,
and BasemarkCL 1.0. The GX-412HC’s TDP is 7W and GX-210HA’s TDP is 9W. The performance delta of 53% was calculated based on GX-412HC’s geometric
mean of 555.3 and GX-210HA’s geometric mean of 363.6. The performance-per-watt delta of 96% was calculated based on GX-412HC’s performance-per-
watt ratio of 79.3 and GX-210HA’s performance-per-watt ratio of 40.4. The AMD Steppe Eagle GX-412HC and G-S SOC GX-210HA used an AMD Larne
motherboard with 4GB DDR3-1333 memory and 320GB Toshiba HDD. The system ran Windows® 7 Ultimate. EMB-104
3 Performance comparison is based on the EEMBC CoreMark v1.0 benchmark. The kit price of GX-416RA is $25 and the kit price of Celeron 1037U is $25. The
performance delta of 34% was calculated based on GX-416RA’s CoreMark score of 24699 and Celeron 1037U’s CoreMark score of 18461. The performance-
per-$ delta of 34% was calculated based on the GX-416RA’s performance-per-$ ratio of 987.96 and 1037U’s performance-per-$ ratio of 738.44. The AMD
Steppe Eagle GX-416RA used an AMD Larne development board with 4GB DDR3-1600 memory and 80GB Hitachi HDD. The Intel Celeron 1037U used a
Toshiba Satellite C55-A5220 motherboard with 8GB DDR3-1600 memory and 256GB Sandisk HDD. Both systems ran Ubuntu Linux 11.1. EMB-105
4 Overall performance was measured using a suite of industry benchmarks consisting of 3DMark06, 3DMark11, POVRay v3.7, Passmark v7, PCMark8 v2.0,
and BasemarkCL 1.0. The GX-412HC’s TDP is 7W and GX-210HA’s TDP is 9W. The performance delta of 53% was calculated based on GX-412HC’s geometric
mean of 555.3 and GX-210HA’s geometric mean of 363.6. The performance-per-watt delta of 96% was calculated based on GX-412HC’s performance-per-
watt ratio of 79.3 and GX-210HA’s performance-per-watt ratio of 40.4. The AMD Steppe Eagle GX-412HC and G-S SOC GX-210HA used an AMD Larne
motherboard with 4GB DDR3-1333 memory and 320GB Toshiba HDD. The system ran Windows® 7 Ultimate. EMB-104