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Performance Evaluation of a Novel Direct Table Lookup Method and Architecture with Application to 16-bit Integer Functions

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4 Author(s)
Li, L. ; Southern Methodist University ; Fit-Florea, A. ; Thornton, M.A. ; Matula, D.W.

We describe several integer function properties which in combination allow direct lookup tables to be reduced in size and structure to simpler lookup trees. Our principal result is a novel table lookup method based on a mapping of a lookup tree to a row-by-column ROM with pre and post processing logic substantially reducing the table size. Our lookup architecture allows common 16-bit integer functions such as multiplicative inverse, square, and the discrete log to be realized with table size of order 2-8 Kbytes, in comparison to the 128 Kbyte size of an arbitrary 16-bits-in 16-bits-out function table. The lookup methodology is illustrated with specific development of the 16-bit integer discrete-log function. Implementation for both unnormalized and normalized indices are synthesized into standard cell netlists and performance and area results are given that demonstrate their effectiveness.

Published in:

Application-specific Systems, Architectures and Processors, 2006. ASAP '06. International Conference on

Date of Conference:

Sept. 2006