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ERSA
2004
130views Hardware» more  ERSA 2004»
13 years 5 months ago
Computing Lennard-Jones Potentials and Forces with Reconfigurable Hardware
Abstract-- Technological advances have made FPGAs an attractive platform for the acceleration of complex scientific applications. These applications demand high performance and hig...
Ronald Scrofano, Viktor K. Prasanna
FPL
2008
Springer
120views Hardware» more  FPL 2008»
13 years 5 months ago
An FPGA-based implementation of the MINRES algorithm
Due to continuous improvements in the resources available on FPGAs, it is becoming increasingly possible to accelerate floating point algorithms. The solution of a system of linea...
David Boland, George A. Constantinides
ASAP
2006
IEEE
127views Hardware» more  ASAP 2006»
13 years 5 months ago
A Cost Effective Pipelined Divider for Double Precision Floating Point Number
Abstract--The growth of high-performance application in computer graphics, signal processing and scientific computing is a key driver for high performance, fixed latency, pipelined...
Sandeep B. Singh, Jayanta Biswas, S. K. Nandy
ARITH
1999
IEEE
13 years 8 months ago
Complex Logarithmic Number System Arithmetic Using High-Radix Redundant CORDIC Algorithms
This paper describes the application of high radix redundant CORDIC algorithms to complex logarithmic number system arithmetic. It shows that a CLNS addition can be performed with...
David Lewis