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ASPDAC
2006
ACM

Programmable numerical function generators based on quadratic approximation: architecture and synthesis method

14 years 5 months ago
Programmable numerical function generators based on quadratic approximation: architecture and synthesis method
— This paper presents an architecture and a synthesis method for programmable numerical function generators (NFGs) for trigonometric, logarithmic, square root, and reciprocal functions. Our NFG partitions a given domain of the function into non-uniform segments using an LUT cascade, and approximates the given function by a quadratic polynomial for each segment. Thus, we can implement fast and compact NFGs for a wide range of functions. Implementation results on an FPGA show that: 1) our NFGs require only 4% of the memory needed by NFGs based on the linear approximation with non-uniform segmentation; and 2) our NFGs require only 22% of the memory needed by NFGs based on the 5th-order approximation with uniform segmentation. Our automatic synthesis system generates such compact NFGs quickly.
Shinobu Nagayama, Tsutomu Sasao, Jon T. Butler
Added 13 Jun 2010
Updated 13 Jun 2010
Type Conference
Year 2006
Where ASPDAC
Authors Shinobu Nagayama, Tsutomu Sasao, Jon T. Butler
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