Title :
A reconfigurable low-power high-performance matrix multiplier architecture with borrow parallel counters
Author_Institution :
Dept. of Comput. Sci., SUNY, Geneseo, NY, USA
Abstract :
A novel run-time reconfigurable matrix processor and its prototype implementation with new circuits, called borrow parallel counters, achieving low power, high speed, simple inter-connections and extra compact design, are presented. For typical graphics and image applications, the multiplier can produce in parallel the products of four 4×4 matrix pairs of 8-bit data, or two matrices X(4×4) and Y(4×4) of 16-bit data, or two matrices X(4×4) and Y(4×4) of 32-bit data, or two 64-b numbers. The proposed parallel counters utilize 4-bit 1-hot integer encoding and borrow bits, i.e. input bits of weight 2, effectively merging type-conversions and additions through using a unique embedded full adder circuit.
Keywords :
adders; computer graphics; embedded systems; image processing; matrix multiplication; parallel architectures; performance evaluation; reconfigurable architectures; borrow parallel counters; compact design; embedded full adder circuit; graphics applications; high-performance architecture; image applications; matrix multiplier architecture; reconfigurable low-power architecture; run-time reconfigurable matrix processor; simple inter-connections; type-conversions; Application software; Computer architecture; Computer graphics; Computer science; Counting circuits; Merging; Pipelines; Runtime; Signal processing; Very large scale integration;
Conference_Titel :
Parallel and Distributed Processing Symposium, 2003. Proceedings. International
Print_ISBN :
0-7695-1926-1
DOI :
10.1109/IPDPS.2003.1213336
