DocumentCode
124071
Title
A logic cell architecture exploiting the shannon expansion for the reduction of configuration memory
Author
Qian Zhao ; Yanagida, Koji ; Amagasaki, Motoki ; Iida, Michihisa ; Kuga, Morihiro ; Sueyoshi, Tetsuro
Author_Institution
Grad. Sch. of Sci. & Technol., Kumamoto Univ., Kumamoto, Japan
fYear
2014
fDate
2-4 Sept. 2014
Firstpage
1
Lastpage
6
Abstract
Most modern field-programmable gate arrays (FPGAs) employ a look-up table (LUT) as their basic logic cell. Although a k-input LUT can implement any k-input logic, its functionality relies on a large amount of configuration memory. As FPGA scales improve, the increased quantity of configuration memory cells required for FPGAs will require a larger area and consume more power. Moreover, the soft-error rate per device will also increase as more configuration memory cells are embedded. We propose scalable logic modules (SLMs), logic cells requiring less configuration memory, reducing configuration memory by making use of partial functions of Shannon expansion for frequently appearing logics. Experimental results show that SLM-based FPGAs use much less configuration memory and have smaller area than conventional LUT-based FPGAs.
Keywords
field programmable gate arrays; table lookup; Shannon expansion; configuration memory cells; field-programmable gate arrays; k-input LUT; logic cell architecture; look-up table; scalable logic modules; soft-error rate; Benchmark testing; Delays; Field programmable gate arrays; Memory management; Microprocessors; Table lookup;
fLanguage
English
Publisher
ieee
Conference_Titel
Field Programmable Logic and Applications (FPL), 2014 24th International Conference on
Conference_Location
Munich
Type
conf
DOI
10.1109/FPL.2014.6927460
Filename
6927460
Link To Document