Title :
Device-deviation tolerant over-1 GHz clock distribution scheme with skew-immune race-free impulse latch circuits
Author :
Shibayama, A. ; Mizuno, M. ; Abiko, H. ; Ono, Atsushi ; Masuoka, S. ; Matsumoto, A. ; Tamura, T. ; Yamada, Y. ; Nishizawa, A. ; Kawamoto, H. ; Inoue, K. ; Nakazawa, Y. ; Sakai, I. ; Yamashina, M.
Author_Institution :
Silicon Syst. Res. Lab., NEC Corp, Kanagawa, Japan
Abstract :
Clock skew (and jitter) is becoming the major obstacle to high-frequency clock distribution in sub-quarter micron CMOS LSIs, because skew cannot be scaled down even by use of scaled devices and may significantly increase as a result of device and operating environment deviations. To overcome this obstacle, the authors present skew-immune race-free impulse latch circuits and a reduced-skew ring-type clocking scheme. The 1 GHz clock test chip is integrated into a 6/spl times/6 mm/sup 2/ die with 0.18 /spl mu/m CMOS and double-layer-metal technology. The supply voltage is 1.8 V. The threshold voltage of the nMOS transistors is about 0.3 V and that of the pMOS transistors is about -0.3 V. 1 GHz global clock distribution shows less than 50 ps clock skew for those points on the chip.
Keywords :
CMOS digital integrated circuits; clocks; large scale integration; timing circuits; 0.18 micron; 1 GHz; 1.8 V; clock distribution scheme; device-deviation tolerant scheme; double-layer-metal technology; high-frequency clock distribution; race-free impulse latch circuits; ring-type clocking scheme; skew-immune latch circuits; subquarter micron CMOS LSI; Circuits; Clocks; Delay effects; Delay lines; Detectors; Frequency; Latches; National electric code; Pipelines; Signal generators;
Conference_Titel :
Solid-State Circuits Conference, 1998. Digest of Technical Papers. 1998 IEEE International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-4344-1
DOI :
10.1109/ISSCC.1998.672553
