FPGAs enjoy a good reputation for highly parallel, high-throughput digital signal processing applications that have been consistently enhanced over the past generations of FPGA devices, but few have seen a revolutionary but not new generation of products . Intel acquired Altera in generous form in 2015, and Intel recently announced that it has shipped Stratix 10 SX FPGA chipsets, the only FPGAs currently with quad-core ARM A53 CPUs and Intel's acquisition of Altera After a big result.
Stratix 10 SX FPGAs feature a new HyperFlex core architecture that combines a flexible, low-latency 1.5GHz ARM processor with high-performance, high-density FPGAs and a density of more than one million logic cells (MLEs) on a single chip.
Intel claims that its performance is up to 2x faster than its predecessor and power consumption is reduced by 70%, making it ideal for 5G wireless communications, software-defined radio frequency, military safety computing, network function virtualization (NFV) and data center acceleration.
Built on an Intel 14nm process, the chip features 96 full-duplex transceiver channels with transceiver data rates up to 28.3Gbps, floating-point computing performance of 10TFlops, dedicated security device manager (SDM) support for AES-256 and SHA-256 / 384, ECDSA-256/384 encryption and decryption accelerated certification.
FPGAs enjoy a good reputation for highly parallel, high-throughput digital signal processing (DSP) applications that have been steadily enhanced in the past generations of FPGA devices, but few have been revolutionary rather than incremental New products appeared intel bought Altera in generous form in 2015, and Intel recently announced today that it has shipped Stratix 10 SX FPGA programmable chips, the only FPGAs currently with quad-core ARM A53 CPUs, Intel's acquisition of Altera after a major achievement.
Stratix 10 SX FPGAs feature a new HyperFlex core architecture that combines a flexible, low-latency 1.5GHz ARM processor with high-performance, high-density FPGAs and a density of more than one million logic cells (MLEs) on a single chip.
Intel claims that its performance is up to 2x faster than its predecessor and power consumption is reduced by 70%, making it ideal for 5G wireless communications, software-defined radio frequency, military safety computing, network function virtualization (NFV) and data center acceleration.
Built on an Intel 14nm process, the chip features 96 full-duplex transceiver channels with transceiver data rates up to 28.3Gbps, floating-point computing performance of 10TFlops, dedicated security device manager (SDM) support for AES-256 and SHA-256 / 384, ECDSA-256/384 encryption and decryption accelerated certification.
