Title :
A regenerative push-pull differential logic family
Author :
Partovi, H. ; Draper, D.
Abstract :
A new differential logic family is described. Complex Boolean functions are realized at one-third the propagation delay of static differential logic and up to 40% faster than existing dynamic logic. Using this logic, a 1.5 ns 64-bit adder is achieved in a 0.70 micron, 3.0 V process technology. The relative performance of this circuit technology at the fundamental power supply limit is also analyzed and discussed.<>
Keywords :
Boolean functions; adders; delay-differential systems; differential amplifiers; integrated logic circuits; stochastic processes; 0.70 micron; 1.5 ns; 3.0 V; 64 bit; 64-bit adder; Boolean functions; circuit technology; fundamental power supply limit; process technology; propagation delay; regenerative push-pull differential logic family; relative performance; Adders; Boolean functions; Logic circuits; MOS devices; Power supplies; Propagation delay; Switches; Variable structure systems; Voltage; Zinc;
Conference_Titel :
Compcon Spring '94, Digest of Papers.
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-8186-5380-9
DOI :
10.1109/CMPCON.1994.282912
