AMD's range includes two x86 accelerated processing units (APUs) and central processing units (CPUs), a first look at a high-performance ARM system-on-chip (SoC) and a new family of discrete AMD Embedded Radeon graphics processing units (GPUs) expected to launch in 2014. These additions provide the embedded industry's engineering community with more choices to match their exact design needs, and are designed to offer improvements in performance-per-watt and performance-per-dollar. Together with the recent launch of the AMD Embedded G-Series SoC family with its high performance-per-watt low-power multicore APUs, these latest additions to the embedded product roadmap further signify, the company says, a strategic push by AMD to focus on the high-growth embedded market.
In 2014, AMD plans to bring to market two new high-performance AMD Embedded R-Series processor families: the "Hierofalcon" CPU SoC family based on the ARM Cortex-A57 architecture and the "Bald Eagle" APU and CPU offering based on the x86 microprocessor architecture codenamed "Steamroller." The upcoming "Steppe Eagle" APU SoC is designed to provide improved performance while extending the low-power characteristics of the current AMD Embedded G-Series SoC family. In addition, "Adelaar" will bring to market the first discrete GPU based on AMD Graphics Core Next architecture for embedded systems.
"Hierofalcon" is the first 64-bit ARM-based platform from AMD targeting embedded data centre applications, communications infrastructure and industrial solutions. It will include up to eight ARM Cortex-A57 CPUs expected to run up to 2.0 GHz, and provides high-performance memory with two 64-bit DDR3/4 channels with error correction code (ECC) for high reliability applications. The highly integrated SoC includes 10 Gb KR Ethernet and PCI-Express Gen 3 for high-speed network connectivity, making it ideal for control plane applications. The "Hierofalcon" series also provides enhanced security with support for ARM TrustZone technology and a dedicated cryptographic security co-processor, aligning to the increased need for networked, secure systems. "Hierofalcon" is expected to be sampling in the second quarter of 2014 with production