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ARITH
2009
IEEE

A 32-bit Decimal Floating-Point Logarithmic Converter

14 years 7 months ago
A 32-bit Decimal Floating-Point Logarithmic Converter
This paper presents a new design and implementation of a 32-bit decimal floating-point (DFP) logarithmic converter based on the digit-recurrence algorithm. The converter can calculate accurate logarithms of 32-bit DFP numbers which are defined in the IEEE 754-2008 standard. Redundant digit e1 is obtained by look-up table in the first iteration and the rest redundant digits ej are selected by rounding the scaled remainder during the succeeding iterations. The sequential architecture of the proposed 32-bit DFP logarithmic converter is implemented on Xilinx Virtex-II Pro P30 FPGA device and then synthesized with TMSC 0.18-um standard cell library. The implementation results indicate that the maximum frequency of the proposed architecture is 47.7 MHz in FPGA and 107.9 MHz in TMSC 0.18-um technology. The faithful 32-bit DFP logarithm results can be obtained in 18 cycles.
Dongdong Chen, Yu Zhang, Younhee Choi, Moon Ho Lee
Added 18 May 2010
Updated 18 May 2010
Type Conference
Year 2009
Where ARITH
Authors Dongdong Chen, Yu Zhang, Younhee Choi, Moon Ho Lee, Seok-Bum Ko
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