In some cases, the design team is well-versed in DSP systems but has little FPGA background, or vice-versa. In such cases, the team skill-set may drive the choice between FPGA and DSP. For example, ...

Study examines implementing floating-point DSP on Altera FPGAs Altera announced results of a benchmark study performed by Berkeley Design Technology Inc.

"But fpgas don't offer a viable alternative if you need performance with low power." The Zynq family will be competing with three existing design options: asics; assps; and what Monboisset called two ...

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.

So now you can add DSP firms to the suppliers of FPGAs and SoC devices who are all converging on the same market for embedded processing with internet-level communications. The common connection is ...

The Agilex 5 FPGA family with its dual-core A55 and dual-core A76 Arm processors, is optimized for high performance with lower power consumption.

Utilizing Intel’s 14nm tri-gate process along with an innovative new HyperFlex architecture, the Stratix 10 FPGA is capable of up to 10 TFLOPS of single-precision floating point DSP performance ...

Altera is the first programmable logic company to integrate hardened IEEE 754-compliant, floating-point operators in an FPGA, delivering unparalleled levels of DSP performance, designer productivity ...

It offers up to 10 TFLOPS of single-precision floating point DSP performance and has four stacks of on-die HBM2 memory pumping 1TB/s of bandwidth to ensure a steady flow of data to the FPGA chip.

Even when the flexibility and high-level performance of commercial configurable DSP chips come up short, you can still create your own DSP solution using custom ASIC designs or FPGAs. Today, just ...