Allocation and Binding in Data Path Synthesis Using a Genetic Algorithm Approach

9th International Conference on VLSI Design: VLSI in Mobile Communication p. 122
Allocation and Binding in Data Path Synthesis Using a Genetic Algorithm Approach
C. A. Mandal
P. P. Chakrabarti
S. Ghose

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DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/ICVD.1996.489470
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Abstract
A technique for allocation and binding for data path synthesis (DPS) using a Genetic Algorithm (GA) approach has been developed. The proposed genetic algorithm uses a non-conventional crossover mechanism, relying on a novel force directed data path binding completion algorithm. The proposed technique has a number of features such as acceptance of some design parameters from the user, use of a bus based topology, use of multi-port memories and provision for multi-cycling and pipelining, among other features. The results obtained on the standard examples are promising. Keywords: Data Path Synthesis, Binding, Multi-port Memory, Genetic Algorithm, VLSI.
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Citation: C. A. Mandal, P. P. Chakrabarti, S. Ghose, "Allocation and Binding in Data Path Synthesis Using a Genetic Algorithm Approach," vlsid, p. 122, 9th International Conference on VLSI Design: VLSI in Mobile Communication, 1996

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