Data-centre equipment manufacturers have long been keen to take advantage of the massive parallelism possible with FPGAs to achieve the processing performance and I/O bandwidth needed to keep pace ...

Embedded designers have implemented heterogeneous architectures since the advent of commercially viable FPGAs. Initially, FPGAs acted primarily as glue logic for an interface between processing ...

Recently, Brian Bailey organized a round table that resulted in a two-part article called Supporting CPUs Plus FPGAs. The experts discussed the evolving reality of systems design based on FPGAs and ...

Fig 1. Altera’s NIOS II Embedded Evaluation Kit is a platform for checking out the 32-bit NIOS II soft-core processor. Fig 2. Microsemi’s SmartFusion Evaluation Kit has an FPGA with a hard-core Arm ...

The ubiquitous field-programmable gate array (FPGA) is finding use as a software accelerator in many applications, including the communications, image processing, biomedical, and scientific computing ...

Intel Corp. has spent a lot of effort pushing the concept of its Field Programmable Gate Arrays, which can be used to accelerate various computing tasks such as artificial intelligence and machine ...

Field-programmable gate arrays (FPGAs) are becoming an increasingly popular tool for applications where high performance, low latency and power efficiency are requires. Since an FPGA can be ...

Since their beginnings, FPGA’s have been notorious for being hard to program. That could be changing with the new Vitis Unified Software Platform from Xilinx. Five years in the making, the Vitis ...

One of the best features of using FPGAs for a design is the inherent parallelism. Sure, you can write software to take advantage of multiple CPUs. But with an FPGA you can enjoy massive parallelism ...

The quest for better throughput, faster changeover times, and less waste and downtimes has made machine-automation systems more complicated. Besides handling logic or process controls, systems today ...