Open AccessFPGA based Implementation of High Speed Double Precision Floating Point Multiplier with Tiling Technique using Verilog
Author(s) -
Addanki PurnaRamesh,
A. V. N. Tilak,
A. Mallikarjuna Prasad
Publication year - 2012
Publication title -
international journal of computer applications
Language(s) - English
Resource type - Journals
ISSN - 0975-8887
DOI - 10.5120/9407-3814
Subject(s) - computer science , verilog , field programmable gate array , floating point , multiplier (economics) , single precision floating point format , double precision floating point format , computer hardware , parallel computing , computer architecture , algorithm , economics , macroeconomics
Floating point arithmetic is widely used in many areas, especially scientific computation and signal processing. For many signal processing, and graphics applications, it is acceptable to trade off some accuracy (in the least significant bit positions) for faster and better implementations. However, most of these modern applications need higher frequency or low latency of operations with minimal area occupancy. In this paper we describe an implementation of high speed IEEE 754 double precision floating point multiplier using tiling technique and targeted for Xilinx Virtex-6 Field Programmable Gate Array. Verilog is used to implement the design. The design achieved 436.815 MFlops with latency of seven clock cycles which is 97% fast compared to Xilinx floating point multiplier core. It handles the overflow, underflow cases and truncation rounding mode.
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