Altera Corporation announced that its Stratix 10 SoC devices, manufactured on Intel’s 14 nm Tri-Gate process, will incorporate a high-performance, quad-core 64-bit ARM Cortex™-A53 processor system, complementing the device’s floating-point digital signal processing (DSP) blocks and high-performance FPGA fabric. Coupled with Altera’s advanced system-level design tools, including OpenCL, this versatile heterogeneous computing platform will offer exceptional adaptability, performance, power efficiency and design productivity for a broad range of applications, including data center computing acceleration, radar systems and communications infrastructure.
The ARM Cortex-A53 processor, the first 64-bit processor used on a SoC FPGA, is an ideal fit for use in Stratix 10 SoCs due to its performance, power efficiency, data throughput and advanced features. The Cortex-A53 is among the most power efficient of ARM’s application-class processors, and when delivered on the 14 nm Tri-Gate process will achieve more than six times more data throughput compared to today’s highest performing SoC FPGAs. The Cortex-A53 also delivers important features, such as virtualization support, 256TB memory reach and error correction code (ECC) on L1 and L2 caches. Furthermore, the Cortex-A53 core can run in 32-bit mode, which will run Cortex-A9 operating systems and code unmodified, allowing a smooth upgrade path from Altera’s 28 nm and 20 nm SoC FPGAs.
