Title :
True-single-phase all-N-logic differential logic (TADL) for very high-speed complex VLSI
Author :
Huang, Hong-Yi ; Cheng, Kuo-Hsin ; Chu, Yuan-Hua ; Wu, Chung-Yu
Author_Institution :
Comput. & Commun. Res. Labs., Ind. Technol. Res. Inst., Chutung, Taiwan
Abstract :
A family of new logic circuits, called true-single-phase all-N-logic differential logic (TADL), are proposed and analyzed. The logic circuits are designed with only NMOS devices in the logic tree. Two kinds of sensing techniques are used for improving the speed operation, namely, the balanced sense amplifier for the differential-input TADL and the unbalanced sense amplifier for the single-input TADL. A complex function can be implemented in a TADL gate and high operation speed can be achieved without dc power dissipation. Only a true-single-phase clock is required to form the fully pipelined systems. Simulation results show that circuits designed by the TADL have the advantages of high-speed operation and low power-delay product
Keywords :
MOS logic circuits; very high speed integrated circuits; NMOS device; balanced sense amplifier; differential-input TADL; pipelined system; power-delay product; simulation; single-input TADL; true-single-phase all-N-logic differential logic; unbalanced sense amplifier; very high-speed complex VLSI circuit; CMOS logic circuits; Clocks; Flexible printed circuits; Logic circuits; Logic devices; Logic functions; MOS devices; Operational amplifiers; Power dissipation; Very large scale integration;
Conference_Titel :
Circuits and Systems, 1996. ISCAS '96., Connecting the World., 1996 IEEE International Symposium on
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-3073-0
DOI :
10.1109/ISCAS.1996.541960
