Title :
A self-timed method to minimize spurious transitions in low power CMOS circuits
Author :
Ko, U. ; Balsara, P.T. ; Lee, W.
Author_Institution :
Texas Instrum. Inc., Dallas, TX, USA
Abstract :
Spurious transitions and associated power are inherent disadvantages of a static logic design. Though pre-charged dynamic logic has the advantage of one valid transition per clock cycle, it has a considerable power overhead . In this paper, a low power self-timed double pass-gate logic (DPL) circuit combining the merits of dynamic and static logic families is proposed to minimize power in a 32-bit carry look-ahead static adder. This technique can be applied to any static circuit implementation, at any level of design hierarchy where power and performance are important. For a 100 MHz, 32-bit adder implementation in a 0.6 /spl mu/m CMOS technology results on output spurious transition density, total power dissipation and energy efficiency for different loads are presented.
Keywords :
CMOS logic circuits; 0.6 micron; 100 MHz; 32 bit; carry look-ahead static adder; double pass-gate logic circuit; energy efficiency; low power CMOS circuits; power dissipation; pre-charged dynamic logic; self-timed method; spurious transitions; static logic design; Adders; CMOS logic circuits; CMOS technology; Clocks; Instruments; Logic circuits; Logic design; Page description languages; Power dissipation; Propagation delay;
Conference_Titel :
Low Power Electronics, 1994. Digest of Technical Papers., IEEE Symposium
Conference_Location :
San Diego, CA, USA
Print_ISBN :
0-7803-1953-2
DOI :
10.1109/LPE.1994.573204
