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 ...

To make FPGAs accessible to DSP engineers without hardware design expertise, FPGA and tool vendors have developed tools that allow FPGAs to be programmed in high-level behavioral languages such as ...

MyHDL is a Python module that brings FPGA programming into the Python environment. [Christopher Felton] tipped us off about a simple tutorial he just finished that gives an overview of how the module ...

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 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 ...

High-level synthesis to the rescue? You might be surprised at how hardware designers are getting new value from HLS when designing systems with FPGAs. The numbers of applications using FPGAs are on ...

This course will give you the foundation for using Hardware Description Languages, specifically VHDL and Verilog for Logic Design. You will learn the history of both VHDL and Verilog and how to use ...

A field programmable gate array (FPGA) is a user-programmable piece of silicon constructed in very large-scale integration (VLSI) technology. The VLSI transistor-level detail is absolutely predefined ...

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 ...