Complete Layout, Design and Optimization of a FPGA Configurable Logic Block for minimum energy and delay: The CLB can function as one 8-bit adder, two 4-bit adders, a subtractor, multiplier, counter ...

An ASIC's or FPGA's ability to meet an application's demands comes down to a complex tradeoff between performance, density, time-to-market, and cost. Yet Leopard Logic combines FPGA flexibility with ...

The first FPGA 'XC2064' developed by Xilinx in 1985 was said to have a much simpler structure than modern FPGAs. Nowadays, FPGAs can be programmed in standardized languages such as Verilog, but at ...

Today, FPGA designers are using these flexible devices to perform everything from simple glue logic tasks to implementing complicated system on a chip (SoC) functions. The efficiency and ease of ...

Today’s marketplace is getting heavily disrupted by the current semiconductor chip shortage that has hampered our manufacturing production lines. This is evident by the limited supply of products ...

San Jose, California, April 30, 2002-- eASIC Corporation, a provider of innovative configurable logic cores for System-on-Chip, today announced the award of six patents for very high-density ...

For the most part, embedded FPGA can be viewed as a “black box,” which is effectively as an RTL engine. However, sometimes it’s helpful to understand what’s going on underneath the hood to evaluate ...

Designers of digital systems are familiar with implementing the 'leftovers' of their digital design by using FPGAs and CPLDs to glue together various processors, memories, and standard function ...

The guys over at hackshed have been busy. [Carl] is making programmable logic design easy with an 8 part CPLD tutorial. (March 2018: Link dead. Try the Wayback Machine.) Programmable logic devices are ...