Title :
Optimal timing for skew-tolerant high-speed domino logic
Author :
Jung, Seong-Ook ; Kim, Ki-Wook ; Kang, Sung-Mo
Author_Institution :
Illinois Univ., Urbana, IL, USA
Abstract :
When low threshold voltage (Vt) is applied to domino logic to improve the performance, the tradeoff between performance and noise margin is a major design issue. To resolve the tradeoff we propose Skew-Tolerant High-Speed (STHS) domino logic, which incorporates a dual keeper structure and delay logic gates. Detailed timing analysis of STHS domino logic induces optimal timing conditions wherein contention-free skew-tolerant window is maximized. We show that dual keeper structure increases innate noise-tolerance, and clock delay control logic fortifies signal skew-tolerance. Simulation results show that STHS domino logic is more robust to noise and signal skew than High-Speed (HS) domino logic, while presenting better performance and power efficiency
Keywords :
MOS logic circuits; VLSI; circuit simulation; high-speed integrated circuits; integrated circuit noise; logic gates; logic simulation; timing; STHS; clock delay control logic; contention-free skew-tolerant window; delay logic gates; dual keeper structure; noise margin; power efficiency; signal skew; skew-tolerant high-speed domino logic; threshold voltage; timing analysis; Circuit noise; Clocks; Degradation; Delay; Energy consumption; Logic gates; Strontium; Threshold voltage; Timing; Very large scale integration;
Conference_Titel :
VLSI, 2002. Proceedings. IEEE Computer Society Annual Symposium on
Conference_Location :
Pittsburgh, PA
Print_ISBN :
0-7695-1486-3
DOI :
10.1109/ISVLSI.2002.1016871
