ETC 100-CG2386

EMBEDDED
SOLUTIONS
R-SERIES APU
AMD EMBEDDED R-SERIES PLATFORM
Delivering exceptional performance in a power
efficient platform
PRODUCT OVERVIEW
The AMD Embedded R-Series platform delivers
high-performance processing coupled with a premium
high-definition visual experience in a solution that is still
power efficient. Enabling unprecedented integrated
graphics and multi-display capabilities in embedded
applications that can be compact and low power.
The AMD R-Series APU (Accelerated Processing Unit)
is designed to efficiently handle your advanced
multimedia and computational workloads. With
average power below 13 Watts5 and discrete-class
AMD Radeon™ graphics performance integrated into
the AMD R-Series APU, applications that previously
required a discrete graphics card can be developed in
smaller form factors with lower power and cost.
The third generation Unified Video Decoder the
AMD R-Series APU enables the delivery of crisp and
clear video for ad content, instructional materials, or
live teleconferencing. For more demanding graphics
applications, AMD Radeon™ Dual Graphics technology2
can combine the processing power of AMD R-Series
APUs and AMD Radeon™ Embedded 6000 Series
GPUs to more than double graphics performance3
compared to using discrete graphics alone.
The Innovative CPU architecture integrates dedicated
resources that deliver exceptional performance, with
shared resources that reduce power consumption and
die space. And through AMD Turbo CORE 3
technology the power being consumed by the APU is
allocated to accomplish the work at hand, helping to
minimize unnecessary system optimization by
automatically delivering an optimized balance between
performance and power consumption.
With between 128 and 384 compute units delivering a
calculated 172 to 563 SP GFLOPs7 of performance,
the AMD R-Series APUs help enable a wide range of
compute intensive applications to be built that are low
power and fit into small form factors. It’s support for
Open CL™ helps make it easier to take advantage of a
substantial increase in performance, for applications
that can leverage parallel processing.
FEATURES AND BENEFITS
Exceptional Performance in a Power-efficient Solution
> Innovative CPU architecture integrates a combination
of dedicated and shared resources to deliver
exceptional performance while minimizing power
consumption and cost.
> AMD Turbo CORE 3 Technology automatically
delivers an optimized balance between performance
and power consumption.
> APU Thermal Design Power (TDP) ranging from
17 to 35 Watts and average power below 13 Watts.5
Unprecedented Integrated Graphics Performance
> Discrete-class AMD Radeon™ HD 7000G Series
graphics.
> AMD Radeon™ Dual Graphics technology can more
than double graphics performance compared to
using discrete graphics alone.3
> Hardware Video Compression Engine enables
efficient encoding and fast video conversion.
> Secure Asset Management Unit lowers power/CPU
overhead when dealing with protected content.
> A wide range of parallel compute capabilities offered
to suit the requirements of many embedded
applications.
Enabling Innovative Multi-display Designs
> Drive up to 4 displays1 from a single highly integrated
processor.
> Drive multiple displays simultaneously as
independent displays, or as a single large surface
with AMD Eyefinity technology.4
> Display resolutions of up to 4k x 2k @ 30 Hz utilizing
a single display output.
> Drive up to 10 independent displays by pairing an
AMD R-Series APU with an AMD Radeon™
Embedded 6000 Series discrete
graphics processor or card.1,4
KEY ARCHITECTURE BENEFITS
APU FEATURES
> High performance integrated x86 cores
> AMD Radeon™ HD 7000G Series graphics
> Unified North Bridge
> High-bandwidth, low-latency integrated memory
controller
> Low-latency platform interface
X86 CORE ARCHITECTURE
> Dual or quad-core x86 processor
> 2nd Generation “Bulldozer” core architecture
• Combination of dedicated and shared
resources
> 256-bit shared or two dedicated 128-bit
floating-point units (FPU)
• Shared between two cores
> AMD64 64-bit ISA
> SSE, SSE2, SSE3, SSE4a, SSE4.1, SSE4.2,
SSSE3, ABM, AVX, AVX1.1, AES, BMI, XSAVE/
XRSTOR, XGETBV/XSETBV, PCLMULQDQ, FMA,
FMA4, TBM, XOP, MMX™, and legacy x86
instructions
GPU CORE ARCHITECTURE
> Dedicated graphics memory controller
• High efficiency ring bus memory controller
• Direct connection to memory
> 2D Acceleration
• Highly-optimized 128-bit engine, capable of
processing multiple pixels per clock
> 3D Acceleration
• Full DirectX® 11 support, including full speed
32-bit floating point per component
operations
• Shader Model 5
• OpenCL™ 1.1 support
• OpenGL 4.2 support
> UVD 3.2 dedicated hardware video decoder
• H.264, MPEG4 Part 2, VC-1 and MPEG2
decode6
• Simultaneous dual HD source decode
> VCE (Video Compression Engine) 1.0
• Hardware assisted encoding of HD video
streams
• H.264 (baseline + CABAC) 1080p at 60 fps
• Real time transcoding
DISPLAY INTERFACES
> Multiple DisplayPort 1.2, DVI and HDMI™
> Up to 4 independent displays1
INTEGRATED DDR3 MEMORY CONTROLLER
> Two 64-bit DDR3 SDRAM controllers operating at
frequencies up to 1600 MT/s (800 MHz)
> Two single-rank SO-DIMMs or unbuffered DIMMs
> Support for 1.5V/1.35V/1.25V DDR3
AMD VIRTUALIZATION™ TECHNOLOGY (AMD-V™)
> SVM pause count capability
> SVM disable and lock
> Rapid virtualization indexing (nested paging)
> Improved world-switch speed
I/O
> Gen2 PCI Express® x16 Interface (x8 on FP2
packaged APUs)
> Additional 4x1 or 1x4 Gen2 PCI Express® interface
on APU
> See controller hub table for detail I/O features of
A70M and A75
PACKAGE
> APU FS1r2
• 722-pin lidless µ PGA
• 35mm x 35mm
• 1.2192-mm pin pitch
> APU FP2
• 827-ball lidless µ BGA
• 27mm x 31mm
• .8mm to 1.2-mm ball pitch
> Controller Hub
• 656-ball lidless µBGA
• 24.5mm x 24.5mm
• .8mm ball pitch
AMD EMBEDDED R-SERIES APU MODELS AND KEY FEATURES
AMD Embedded R-Series APU – FS1r2 PGA
Model
R-464L
OPN
Package
RE464LDEC44HJE
CPU
Cores
4
L2
Cache
Memory
Interface
2MBx2
CPU Core
Frequency
- P2/P0
2.3/3.2 GHz
Discrete Class
Graphics
GPU Core
Frequency
Max/Base
AMD Radeon™
HD 7660G
686MHz/
497MHz
Hardware
Video
Accelerations
Display
Outputs1
Graphics
H.264 Decode
(HD+HD up to
1080p and 1080i)
4
2MBx2
1225mm2
722-PGA
R-272F
RE272FDEC23HJE
2
1MB
1.9/2.8 GHz
128 Bit
organized
as two 64 bit
channels:
DDR3 (1.5V),
LVDDR3
(1.35V),
ULVDDR3
(1.25V) up to
DDR3-1600
AMD Radeon™
HD 7640G
655MHz/
497MHz
Dual Link DVI:
[email protected]
[email protected]
24/30 bpp
H.264 Decode
(HD+HD up to
1080p and 1080i)
H.264 encode
(baseline+CABAC)
[email protected]
H/W security
including AES
Decryption
2.7/3.2 GHz
AMD Radeon™
HD 7520G
686MHz/
497MHz
H.264 Decode
(HD+HD up to
1080p and 1080i)
DirectX 11
Shader Model 5
OpenCL™ 1.1
OpenGL 4.2
®
Quad independent
display controllers
providing 4
active outputs:
4x single link DVI
4x DisplayPort 1.2
(Requires MST Hub)
1x HDMI™
1x VGA
H.264 encode
(baseline+CABAC)
[email protected]
H/W security
including AES
Decryption
R-268D
RE268DDEC23HJE
2
1MB
3.0/2.5 GHz
AMD Radeon™
HD 7420G
640MHz/
470MHz
Tdie
(Max)
Product
Release
35W
100°C
Q2-12
35W
100°C
Q2-12
35W
100°C
Q2-12
35W
100°C
Q2-12
Single Link DVI:
[email protected]
24 bpp
H/W security
including AES
Decryption
RE460HDEC44HJE
Thermal
Design
Power
DisplayPort/eDP:
[email protected]
18/24/32 bpp
H.264 encode
(baseline+CABAC)
[email protected]
R-460H
Display
Resolutions
(Maximums)
Native HDMI:
[email protected]
24/30/36 bpp
[email protected]
24 bpp
Type 1 Dual Mode
DisplayPort to
HDMI Adaptor:
[email protected]
24/30/36 bpp
[email protected]
24 bpp
Type 2 Dual Mode
DisplayPort to
HDMI Adaptor:
[email protected]
24/30/36 bpp
[email protected]
24 bpp
H.264 Decode
(HD+HD up to
1080p and 1080i)
H/W security
including AES
Decryption
AMD Embedded R-Series APU – FP2 BGA
Model
R-460L
OPN
Package
RE460LSIE44HJE
CPU
Cores
4
L2
Cache
Memory
Interface
2MBx2
CPU Core
Frequency
- P2/P0
2.0/2.8 GHz
Discrete Class
Graphics
GPU Core
Frequency
Max/Base
AMD Radeon™
HD 7620G
497MHz/
360MHz
Hardware
Video
Accelerations
Display
Outputs1
Graphics
H.264 Decode
(HD+HD up to
1080p and 1080i)
4
2MBx2
837mm2
827-BGA
R-260H
RE260HSHE24HJE
2
2MB
1.6/2.4 GHz
128 Bit
organized
as two 64 bit
channels:
DDR3 (1.5V),
LVDDR3
(1.35V),
ULVDDR3
(1.25V) up to
DDR3-1333
AMD Radeon™
HD 7600G
424MHz/
327MHz
Dual Link DVI:
[email protected]
[email protected]
24/30 bpp
H.264 Decode
(HD+HD up to
1080p and 1080i)
H.264 encode
(baseline+CABAC)
[email protected]
H/W security
including AES
Decryption
2.1/2.6 GHz
AMD Radeon™
HD 7500G
424MHz/
327MHz
H.264 Decode
(HD+HD up to
1080p and 1080i)
DirectX® 11
Shader Model 5
OpenCL™ 1.1
OpenGL 4.2
Quad independent
display controllers
4 active outputs from:
4x single link DVI
4x DisplayPort 1.2
(Requires MST Hub)
1x HDMI™
H.264 encode
(baseline+CABAC)
[email protected]
H/W security
including AES
Decryption
R-252F
RE252FSHE23HJE
2
1MB
1.9/2.4 GHz
AMD Radeon™
HD 7400G
415MHz/
333MHz
Tdie
(Max)
Product
Release
25W*
100°C
Q2-12
19W*
100°C
Q2-12
17W*
100°C
Q2-12
17W*
100°C
Q2-12
Single Link DVI:
[email protected]
24 bpp
H/W security
including AES
Decryption
RE452LSHE44HJE
Thermal
Design
Power
DisplayPort/eDP:
[email protected]
18/24/32 bpp
H.264 encode
(baseline+CABAC)
[email protected]
R-452L
Display
Resolutions
(Maximums)
Native HDMI:
[email protected]
24/30/36 bpp
[email protected]
24 bpp
Type 1 Dual Mode
DisplayPort to
HDMI Adaptor:
[email protected]
24/30/36 bpp
[email protected]
24 bpp
Type 2 Dual Mode
DisplayPort to
HDMI Adaptor:
[email protected]
24/30/36 bpp
[email protected]
24 bpp
H.264 Decode
(HD+HD up to
1080p and 1080i)
H/W security
including AES
Decryption
*Note: PCIe Gen2 operation adds ~1W to TDP
1.Support for the 4th Display Port output requires the use of DisplayPort 1.2 multi-streaming technologies with compatible monitors and/or hubs. The number and types of supported displays may vary by board design.
AMD R-Series Platform Controller Hubs
Model
OPN
CPU Interface
Package
PCI
Express®
PCI
SATA
FIS-Based
Switching
USB
HD Audio
LPC
SPI
SMBus
Max GPIOs
APU Fan
Control
APU Clock
Gen
Power16
A70M
100-CG2389
Unified Media
Interface (UMI)
x4 Gen1 +DP
656-BGA
600mm2
4 x1 or 1x4
Gen2
No
6x 6Gb/s
Raid 0,1
No
4 v3.0
10 v 2.0
2 v1.1
Up to
4-channels
Yes
32
Yes
Yes
Configuration
Specific
A75
100-CG2386
Unified Media
Interface (UMI)
x4 Gen1 +DP
656-BGA
600mm2
4 x1 or 1x4
Gen2
33MHz
3 Slots
6x 6Gb/s Raid
0,1,10
Yes with RAID
0,1,10
4 v3.0
10 v 2.0
2 v1.1
Up to
4-channels
Yes
32
Yes
Yes
7.8W
AMD EMBEDDED R-SERIES PLATFORM BLOCK DIAGRAM
1S
upport for the 4th display requires the use of DisplayPort 1.2 multi-streaming technologies with compatible monitors and/or hubs. The number and
types of supported displays may vary by board design.
2 A MD Radeon™ Dual Graphics technology combines the processing power of select AMD APUs and select AMD Radeon GPUs and can support
displays connected to either the APU or the discrete GPU. Windows Vista® or Windows ® 7 operating system required.
3 3 DMark™ Vantage P score for AMD Radeon E6460 alone is 2162. The combined 3DMark Vantage P score for the E6460+R-464L is 4538. System
configuration: AMD R-464L APU, “Parmer” development platform, AMD Radeon E6760 6XMDP graphics adapter, 4 GB RAM, Windows 7 Home
Premium.
4 A MD Eyefinity technology works with applications that support non-standard aspect ratios, which is required for panning across multiple displays.
AMD Eyefinity technology can support up to 4 displays using a single enabled AMD R-Series APU or up to 6 displays using a single enabled
AMD graphics card with Windows Vista or Windows 7 operating systems – the number and type of displays may vary by board design. Some
implementations may require DisplayPort 1.2 multi-streaming technologies with compatible monitors and/or hubs. SLS (“Single Large Surface”)
functionality requires an identical display resolution on all configured displays.
5 The average power for the 35W TDP AMD R-464L APU when system is running one iteration of 3DMark 06 default run was 12.861 Watts. R-464L
testing was performed on an equivalent A10 Series APU. System configuration: AMD A10 2.3GHz 4/1/D, “Pumori” development platform, 4 GB RAM,
Windows 7 Ultimate.
6 A MD does not provide a license/sublicense to any intellectual property rights relating to any to any standards, including but not limited to any audio
and/or video codec technologies such as AVC/H.264/MPEG-4, AVC, VC-1, MPEG-2, and DivX/xVid.
7 Calculated SP GFLOPs = (# of x86 cores x (128 bit (FPUs) / 32-bit (SP Operation)) * CPU Base Frequency) + (# of shader units * (64 bit (shader) / 32bit (SP Operation)) * GPU Max Frequency)
www.amd.com/embedded
©2012 AMD, the AMD Arrow logo, Radeon and combinations thereof, are trademarks of Advanced Micro Devices. DirectX and Windows Vista are
registered trademarks of Microsoft Corporation in the U.S. and/or other jurisdictions. HDMI is a trademark of HDMI Licensing, LLC. OpenCL is a trademark
of Apple Inc. used by permission by Khronos. PCIe and PCI Express are registered trademarks of PCI-SIG. 3DMark is a trademark of Futuremark
Corporation. Other names are for informational purposes only and may be trademarks of their respective owners. 51954-A