For several years, GPU acceleration matched with Intel Xeon processors were the dominating news items in hardware at the annual Supercomputing Conference. However, this year that trend shifted in ...
FPGAs are being chosen more and more frequently to comprise the heart of the modern electronic system. There are several possible reasons for this – low cost, ready availability and increasing ...
Getting into FPGA design isn’t a monolithic experience. You have to figure out a toolchain, learn how to think in hardware during the design, and translate that into working Verliog. The end goal is ...
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 ...
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 ...
This course will give you the foundation for FPGA design in Embedded Systems. You will learn what an FPGA is and how this technology was developed, how to select the best FPGA architecture for a given ...
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 ...
The Field Programmable Gate Array (FPGA) is one of the most exciting tools in the modern hacker’s arsenal. If you can master the FPGA, you can create hardware devices that not only morph and change ...
FPGAs can meet the performance demands of artificial intelligence and big data which are seeing exponential global growth FPGAs increase processing speeds and reduce hardware costs by running massive ...