FPGAs offer flexibility and cost-effectiveness that ASICs cannot match; however, their performance is quite poor in comparison, especially for arithmetic dominated circuits. To ad...
Philip Brisk, Ajay K. Verma, Paolo Ienne, Hadi Par...
To improve FPGA performance for arithmetic circuits, this paper proposes a new architecture for FPGA logic cells that includes a 6:2 compressor. The new cell features additional f...
The Field Programmable Counter Array (FPCA) was introduced to improve FPGA performance for arithmetic circuits. An FPCA is a reconfigurable IP core that can be integrated into an ...
The selective use of carry-save arithmetic, where appropriate, can accelerate a variety of arithmetic-dominated circuits. Carry-save arithmetic occurs naturally in a variety of DSP...
Hadi Parandeh-Afshar, Ajay K. Verma, Philip Brisk,...
The high unit cost of FPGA devices often deters their use beyond the prototyping stage. Efforts have been made to reduce the part-cost of FPGA devices, resulting in the developmen...
Nicola Campregher, Peter Y. K. Cheung, George A. C...