Title :
Low-power FPGA routing switches using adaptive body biasing technique
Author :
Leming, George V. ; Nepal, Kundan
Author_Institution :
Dept. of Electr. Eng., Bucknell Univ., Lewisburg, PA, USA
Abstract :
As technology scales and the geometries of the transistors shrink, leakage current and subsequently total power consumption increase considerably. Many of the benefits brought forth by the smaller transistors will be lost if the high power consumption problem cannot be solved. The leakage power consumption problem is especially relevant to an FPGA because of the amount of unused interconnect and logic fabric in the chip during any operation. In this paper, we propose to lower the power consumption of a standard SRAM based FPGA by using half-width transistor stacks and adaptive body biasing techniques. SPICE simulation on a standard pass-transistor based switch block and a switch matrix from the Xilinx XC4000 FPGA show that the leakage power can be reduced by up to 46% for a 45 nm technology node and up to 10% for a 70 nm technology node when a switch-matrix is fully loaded.
Keywords :
SRAM chips; field programmable gate arrays; low-power electronics; network routing; Xilinx XC4000 FPGA; adaptive body biasing technique; half-width transistor stacks; leakage current; logic fabric; low-power FPGA routing switches; size 45 nm; size 75 nm; standard SRAM based FPGA; standard pass-transistor based switch block; switch matrix; total power consumption; transistors shrink; Energy consumption; Fabrics; Field programmable gate arrays; Geometry; Leakage current; Logic; Random access memory; Routing; Switches; Transistors;
Conference_Titel :
Circuits and Systems, 2009. MWSCAS '09. 52nd IEEE International Midwest Symposium on
Conference_Location :
Cancun
Print_ISBN :
978-1-4244-4479-3
Electronic_ISBN :
1548-3746
DOI :
10.1109/MWSCAS.2009.5236058
