A Fast, Low-Power Logarithm Approximation with CMOS VLSI Implementation

Authors

Samuel L. SanGregory, Cedarville UniversityFollow
Charles Brothers
David Gallagher, Cedarville UniversityFollow
Raymond Siferd

Document Type

Conference Presentation

Event Date

8-1999

Conference/Event

Midwest Symposium on Circuits and Systems

Location

Las Cruces, NM

Abstract

A new technique and CMOS VLSI implementation for computing approximate logarithms (base 2, and 10) for binary integers is presented. The approximation is performed using only combinational logic and requires no multiplications. Additionally, as implemented a ROM of only N*log2(N) bits is used to convert N bit integers. The maximum error of the approximation is 1.5% when the input value is 3, and decays exponentially to less than 0.5% for input values greater than 25.

Recommended Citation

SanGregory, Samuel L.; Brothers, Charles; Gallagher, David; and Siferd, Raymond, "A Fast, Low-Power Logarithm Approximation with CMOS VLSI Implementation" (1999). Engineering and Computer Science Faculty Presentations. 13.
https://digitalcommons.cedarville.edu/engineering_and_computer_science_presentations/13