Product Brief AMD Embedded G-Series APU Platform The worlds first combination of low-power CPU and advanced GPU intergrated into a single embedded device Product Overview The AMD Embedded G-Series processor is the world's first integrated circuit to combine a low-power CPU and a discrete-level GPU into a single embedded Accelerated Processing Unit (APU). This unprecedented level of graphics integration builds a new foundation for high performance multi-media content delivery in a small form factor and power efficient platform for a broad range of embedded designs. Based on a power-optimized core, the AMD Embedded G-Series platform delivers levels of performance in a compact BGA package that is ideal for low power designs in embedded applications such as Digital Signage, x86 Set-Top Box (xSTB), IP-TV, Thin Client, Information Kiosk, Point-of-Sale, Casino Gaming, Media Servers, and Industrial Control Systems. Low Power, Exceptional Performance The AMD G-Series platform is a flexible solution that in the same package offers scalable choices for the level of CPU performance, power efficiency, and visual experience. The AMD G-T16R APU with an average power of only 2.3 Watts1 enables very small form factor, fan-less and portable applications. APU configurations are available with single or dual x86 cores, at 4.5W, 9W or 18W thermal design power (TDP), and two levels of graphics and video performance. Each APU supports single or dual-independent high resolution displays and exceptional multi-media capability with hardware decode support for H.264, VC-1, MPEG2, WMV, DivX and Adobe(R) Flash. When paired with the AMD A50M controller hub with support for advanced interfaces such as 6Gb/s SATA, Generation 2 PCI Express(R), and HD Audio, the AMD G-Series platform delivers a low power, value-oriented solution for applications requiring a better balance of CPU and multimedia performance. For high-end, full- featured platforms, the AMD A55E controller hub is an alternative pairing choice with added features of Gigabit Ethernet MAC, RAID (0/1/5/10) support with FIS-based switching, and PCI local bus support. Headless Embedded Systems For deeply embedded headless systems, the AMD Embedded G-Series CPU models T48L and T30L enable whisper-quiet media servers and model T24L enables fanless design for factory control systems. 2 Product Brief: AMD Embedded G-Series APU Platform Features and Benefits A flexible platform that in one package offers many choices for power efficiency, visual experience with high resolution, and fully connected Internet experience with maximum multimedia capability. Delivering unprecedented high definition visual experience while still maintaining a low power design. * D irectX(R) 11 support lets you enjoy awesome graphics performance, stunning 3D visual effects and dynamic interactivity. Key Architecture Benefits APU Features * High speed device interconnect * High performance integrated x86 core(s) * Integrated cutting edge graphics processor * H igh-bandwidth, low-latency integrated memory controller * Low-latency platform interface x86 Core Architecture * A dvanced discrete-level GPU with OpenGL 4.0 and OpenCLTM 1.1 support in an integrated device provides support to build the designs of tomorrow, today * Single or dual x86 Processor * U nprecedented graphics performance/per watt thru advanced graphics and hardware acceleration delivering over 3X performance per watt of previous generation2. * Out-of-Order Instruction Execution - Full OOO Instruction Execution - Full OOO Load/Store Engine * S elective models, T56N and T40N, have additional boost capability enabled by AMD Turbo CORE technology without additional power draw. * High Performance Floating Point * E nabling Innovative Small Form Factor Designs Smaller foot print and low power solution reduces overall system costs. * T he integration of the APU reduces the foot print of a traditional three-chip platform to two chips, the APU and its companion controller hub. This simplifies the design, requiring fewer board layers and a smaller power supply, thereby driving down system costs. * R educed Costs over the Product Life Cycle - A single, scalable platform design that allows OEMs to reduce development costs, optimize solutions and increase product stability. * A single APU architecture with an array of performance options, the AMD Embedded G-Series platform lets OEMs utilize a single board design to enable solutions that span from entry level to high end. The commonality of the scalable platform design across multiple product variants can help reduce development costs, simplify the supply chain and reduce operational complexity. * A MD's embedded lifecycle, with planned availability of at least 5 years, helps to ensure a long life for an OEM design. * Advanced Branch Prediction * AMD64 64-bit ISA * SSE1,2,3, SSSE3 ISA, SSE4A, MMXTM * Secure Advanced Virtualization 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(R) 11 support, including full speed 32-bit floating point per component operations - Shader Model 5 - OpenCLTM 1.1 support - OpenGL 4.0 support * Motion Video Acceleration - Dedicated hardware (UVD 3) for H.264, VC-1 and MPEG2 decode - HD HQV and SD HQV support: noise removal, detail enhancement, color enhancement, cadence detection, sharpness, and advanced de-interlacing - Super up-conversion for SD to HD resolutions 3 Product Brief: AMD Embedded G-Series APU Platform Integrated DDR3 Memory Controller AMD VirtualizationTM Technology (AMD-VTM) * S upport for solder-down, SODIMM and DIMM memory, two slots, non-ECC type * * * * * * * * 6 4-bit DDR3 SDRAM controller operating at frequencies up to 1333MT/s (667MHz) Large High-Performance On-Chip Cache * 32KB I-Cache, 32KB D-Cache * 512KB L2 per core SVM lock and unlock Nested paging Next RIP LBR virtualization 8 Address space identifiers Performance counter guest/host bit Nested page table fault info I/O Enabling Fan-Less, High Reliability, Low Cost Solutions * * * * * T he two low power models, dual-core T40E and singlecore T40R, deliver up to 40% power savings compared to the other models in the AMD Embedded G-Series product family. They expand the fanless design options for system architects and design engineers who want to build a more reliable, lower cost solution with smaller foot print without compromising on features for video, graphics and support for multiple displays. 4x1 or 1x4 PCI Express(R) interface on APU See controller hub table for detail I/O features of A50M and A55E Full ISA bus support available, please see Delivering Full ISA Support with the AMD Embedded G-Series Platform and the ITE Tech, ITE888 PCI to ISA Bridge posted on the AMD Embedded Developers Web site PID (51762) Package * APU - 413-pin lidless micro BGA - 19mm x 19mm * Controller Hub - 605-pin lidless AMD Embedded G-Series platform with dual display options Display One Resolution Extended Display Resolution1 DisplayPort / eDP2 2560 x 1600 at 60Hz (1920 x 1200 at 60Hz) DisplayPort 2560 x 1600 at 60Hz (1900 x 1200 at 60Hz) HDMI 1920 x 1200 at 60Hz (1900 x 1200 at 60Hz) Single-link DVI 1920 x 1200 at 60Hz (1900 x 1200 at 60Hz) VGA 2048 x 1536 at 60Hz (1900 x 1200 at 60Hz) DisplayPort 2560 x 1600 at 60Hz (1900 x 1200 at 60Hz) HDMITM 1920 x 1200 at 60Hz (1900 x 1200 at 60Hz) Single-link DVI 1920 x 1200 at 60Hz (1900 x 1200 at 60Hz) VGA 2048 x 1536 at 60Hz (1900 x 1200 at 60Hz) Single-link LVDS 3,4 Single-link DVI VGA 1440 x 900 or 1400 x 1050 at 60Hz (1024 x 600 at 60Hz) 1920 x 1200 at 60Hz (1920 x 1200 at 60Hz) 2048 x 1536 at 60Hz (1920 x 1200 at 60Hz) TM HDMI 1920 x 1200 at 60Hz (1900 x 1200 at 60Hz) Single-link DVI 1920 x 1200 at 60Hz (1900 x 1200 at 60Hz) VGA 2048 x 1536 at 60Hz (1900 x 1200 at 60Hz) HDMITM 1920 x 1200 at 60Hz (1900 x 1200 at 60Hz) TM 4 Product Brief: AMD Embedded G-Series APU Platform AMD G-Series Accelerated Processing Units CPU Cores L2 Cache /Core GET56NGBB22GVE 2 GET56EGBB22GVE 2 Model OPN T56N T56E Pckg Hardware Discrete Class GPU Core Video Graphics Frequency Acceleration12 Memory Interface CPU Core Frequency 512KB DDR3-1333, Unbuffered 1.65GHz17 AMD RadeonTM HD 6320 500MHz UVD 3 for H.264, VC-1 and MPEG2 with Blu-ray support 512KB DDR3-1333, Unbuffered 1.65GHz17 AMD RadeonTM HD 6250 275MHz UVD 3 for H.264, VC-1 and MPEG2 Graphics Display Outputs13 VGA: 2560x1600 (HD 6320, HD 6310) or 1920x1200 (HD 6290, HD 6250) 30 bpp T52R GET52RGBB12GVE 1 512KB DDR3-1333, Unbuffered 1.5GHz AMD RadeonTM HD 6310 500HMz UVD 3 for H.264, VC-1 and MPEG2 with Blu-ray support T48E GET48EGBB22GVE 2 512KB DDR3-1066, Unbuffered 1.4GHz AMD RadeonTM HD 6250 280MHz UVD 3 for H.264, VC-1 and MPEG2 T44R GET44RFPB12GVE 1 512KB DDR3-1066,15 Unbuffered 1.2GHz AMD RadeonTM HD 6250 280MHz DirectX(R) 11 2 active outputs from: 1x VGA DDR3-1066,15 Unbuffered 1.0GHz17 AMD RadeonTM HD 6290 280MHz Shader Model 5 OpenCL 1.1 1x single link LVDS OpenGL 4.0 2x DisplayPort 1.1a T48N GET48NGBB22GVE T40E GET40EFSB22GVE T40R GET40RFSB12GVE T16R GET16RFWB12GVE 2 512KB Dual independent display controllers TM 2 512KB DDR3-1066, Unbuffered 1.4GHz AMD RadeonTM HD 6310 520MHz 2 512KB DDR3-1066,15 Unbuffered 1.0GHz AMD RadeonTM HD 6250 280MHz 1 512KB DDR3-1066,15 Unbuffered 1.0GHz AMD RadeonTM HD 6250 280MHz 1 512KB LVDDR3-1066 615MHz AMD RadeonTM HD 6250 276MHz 2x single link DVI Single link DVI: 1920x1200 24 bpp HDMITM: 1920x1080p 36 bpp Single link LVDS14: 1400x1050 18 bpp DisplayPort 1.1a: 2560x1600 (HD 6310) or 1920x1200 (HD 6250) @ 30 bpp 1x HDMI 1x DVO UVD 3 for H.264, VC-1 and MPEG2 GET40NFPB22GVE FT1 413-pin BGA 19mm2 T40N Display Resolutions VGA: 1920x1200 (HD 6290, HD 6250) 30 bpp Thermal Design Tdie Power Product Release 18W 90C Q2-11 18W 90C Q2-12 18W 90C Q2-11 18W 90C Q2-12 9W 90C Q2-11 9W 90C Q2-11 18W 90C Q2-11 6.4W 90C Q2-11 5.5W 90C Q2-11 4.5W 90C Q2-12 Single link DVI: 1920x1200 24 bpp DisplayPort 1.1a: 1920 x 1200 (HD 6250) @ 30 bpp T48L GET48LGBB22GVE 2 512KB DDR3-1066, Unbuffered 1.4GHz N/A N/A N/A N/A N/A N/A 18W 90C Q2-11 T30L GET30LGBB12GVE 1 512KB DDR3-1066, Unbuffered 1.4GHz N/A N/A N/A N/A N/A N/A 18W 90C Q2-11 T24L GET24LFQB12GVE 1 512KB DDR3-1066,15 Unbuffered 1.0GHz N/A N/A N/A N/A N/A N/A 5W 90C Q2-11 AMD G-Series Platform Controller Hubs CPU Interface Model OPN A50M 100CG2198 1x4 Gen 1 A55E 100CG2293 1x4 Gen 2 PCI Express(R) PCI SATA FIS-Based Switching Ethernet MAC FCBGA 605-pin lidless BGA 2mm2 4x1 Gen 2 No 6x 6Gb/s No FCBGA 605-pin lidless BGA 2mm2 4x1 Gen 2 33MHz 4 Slots 6x 6Gb/s with RAID 0,1,5,10 Yes Package LPC SPI SMBus Max GPIOs APU Fan Control APU Clock Gen Up to 4-channels Yes 102 Yes Yes 2.7W5.9W Up to 4-channels Yes 102 Yes Yes 2.7W5.9W USB HD Audio No 14 v2.0 2 v1.1 Yes (non-EEE PHY only) 14 v2.0 2 v1.1 Power16 5 Product Brief: AMD Embedded G-Series APU Platform AMD G-Series Platform Block Diagram DDR3, 1-ch AMD G-Series Processor PCIe x4 Gen 2 DDI1 4x1 or 1x4 x4 UMI CPU1 512kB L2 DDI0 DirectX(R) 11 Capable GPU CPU0 512kB L2 VGA 14x USB 2.0 4x1 or 1x4 Clock Gen BIOS ROM SPI RTC SIO TMP LPC Watchdog Gen 2 A50M/A55E* Controller Hub ITE 8888 (Option) 6x SATA 6Gbs [Raid 0,1,5,10*] SMBus HD Audio HD Codec Ethernet MAC* Ethernet PHI CIR GPIO Full ISA Bus with DMA Support Fan CTRL www.amd.com/embedded Notes: 1. Extended displays connected to any interface of the AMD RadeonTM HD 6290/6250 graphics support a maximum resolution of 1920 x 1200 at 60Hz. 2. Internal LCD panel. 3. Internal LCD panel, DP0 only. 4. 24-bit, dual-channel, LVDS support option available. See the AMD FT1 Processor Display Option Schematic (PID 48601) on the AMD Embedded Developer Support Web Site (wwwd.amd.com/dev). 1When comparing the AMD Embedded G-Series T44R platform to the AMD SempronTM 210U/780E platform running 3DMarkTM 06. Internal testing of current vs. previous generation AMD processor-based embedded systems as of October 13, 2010 showed more than 3X graphics performance-per-watt advantage for the current generation. Current system: AMD G-T44R APU (9W TDP), Inagua development platform, 2 GB RAM, Windows(R) 7. Previous generation: AMD SempronTM 2010U processor (15W TDP), MSI 9858 motherboard, 2 GB RAM, Windows 7. Graphics performance-per-watt calculated based on 3DMarkTM 06 benchmark divided by solution thermal design power (TDP). 2While running a Winbench 99 business graphics benchmark the AMD G-T16R APU consumed an average of 2.284W. I/O Controller Hub power is estimated based on the measured average power drawn by the I/OCH of .965W during a run of 3DMark 06. System Configuration: AMD G-T16R APU (DVT) at 30C, "Inagua" Development Board, 4GB 1.35V DDR3, Windows 7 Ultimate. EMB-26 2Low voltage (1.35V) DDR3 is assumed for the 9W TDP processors. The use of 1.5V DDR3 will incur a power adder. Always refer to the processor/chipset data sheets for technical specifications. Feature information in this document is provided for reference only. 3Models enabled by AMD Turbo CORE technology, up to 10% clock speed increase is planned. For CPU boost, only one processor core of a dual-core has boost enabled. 12Refer to the Brazos Platform Minimum System Recommendations for HD Video Playback, order# 48826 to view the minimum system configurations required to enable HD playback and the maximum resolution supported for each advanced video quality feature. 13 Other resolutions available that do not oversubscribe link bandwidth. Display resolutions limited by available memory bandwidth. 14 eDP translator option supporting 2048x1536 (HD 6310) or 1920x1200 (HD 6250) at 18 or 24 bpp. 15 Low voltage (1.35V) DDR3 is assumed for the 9W TDP processors. The use of 1.5V DDR3 will incur a power adder. 16 Configuration dependent. See product databook for configurations. 17 Models enabled by AMD Turbo CORE technology, up to 10% clock speed increase is planned. For CPU boost, only one processor core of a dual-core has boost enabled. (c)2013 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. Other names are for informational purposes only and may be trademarks of their respective owners. Ethernet