Increasingly FPGAs are being used to perform signal-processing tasks, particularly in computationally demanding application areas such as video processing and communications. Their massive parallelism ...

For developers using FPGAs for the implementation of floating-point DSP functions, one key challenge is how to decompose the computation algorithm into sequences of parallel hardware processes while ...

Using a design flow put together by Mentor Graphics and Altera, designers can implement complex DSP algorithms in high-performance FPGAs directly from ANSI C++ code. The flow, which is based on Altera ...

Cofer and Harding discuss how to implement DSP functionality, covering when FPGAs are a good fit for DSP algorithm implementation and important design decisions and considerations. Each of these ...

AI is beginning to make inroads into designing and managing programmable logic, where it can be used to simplify and speed up ...

San Jose, Calif., September 3, 2002 — Altera Corporation (NASDAQ: ALTR) today launched Code:DSP, a major initiative to extend the reach of FPGAs from multi-channel, high-performance signal ...

In considering the design option for DSP vs. FPGA it is helpful to compare both architectures in a FIR filter application, writes Reg Zatrepalek One of the most widely used digital signal-processing ...

Synplicity has introduced its Synplify DSP software, which allows designers to implement DSP designs in FPGAs. The software also allows designs specified at the algorithmic level in the Simulink ...

Why are so many designers turning to FPGA implementation for DSP designs? Considering the price/performance ratio for today's high-end FPGAs, not to mention the large numbers of DSP blocks and ...

Field Programmable Gate Arrays (FPGAs) have emerged as a versatile platform for implementing cryptographic algorithms, offering a balance between flexibility, performance and energy efficiency. Recent ...