The Arria® V FPGA family offers the highest bandwidth and delivers the lowest total power for midrange applications, such as remote radio units, 10G/40G line cards, and broadcast studio equipment. There are five targeted variants, including SoC variants with a dual-core ARM® Cortex®-A9 hard processor system (HPS) to best meet your performance, power, and integration needs.
Arria V GZ FPGAs offer the lowest power-per-bandwidth for midrange applications, and are ideal for power-sensitive designs that require transceivers up to 12.5 Gbps. At 10G data rates, Arria V GZ FPGAs consume less than 180 mW per channel and at 12.5 Gbps consume less than 200 mW per channel. Arria V GZ FPGAs also offer a lower static power offering with a -3L speed grade.
Arria V GX and GT FPGAs offer the lowest total power for mid-range applications by using the 28 nm low power process to deliver the lowest static power, offering the lowest power transceivers for speeds up to 10.3125 Gbps, and providing superior fabric with hard IP designed to lower dynamic power. Arria V devices provide a 40% on average power reduction compared to the previous generation of midrange FPGAs.
Intel SoCs let you reduce system power, system cost, and board space by integrating a hard processor system (HPS) – consisting of processors, peripherals, and memory controller – with the FPGA fabric using a high-bandwidth interconnect backbone. The combination of the HPS with Intel's 28 nm low-power FPGA fabric provide the performance and ecosystem of an applications-class ARM processor with the flexibility and digital signal processing (DSP) richness of the Arria V FPGAs.
Intel provides the tools you need to build low-power designs for Arria V FPGAs.
Multiple design examples and reference designs are available for Arria V FPGA kits.
For a list of all Arria V FPGA designs, visit the Design Store.
Find technical documentation, videos, and training courses for your Arria® V designs.