Metastability in SCFL
暂无分享,去创建一个
As digital system clock rates increase, the susceptibility to failure in synchronizing asynchronous inputs increases. Because of this phenomena, the need for flip flops in high speed technologies that can resist becoming metastable and recover quickly has also increased. SONET and ATM are typical applications where there are concerns regarding metastability. This paper presents the results of characterizing a high speed GaAs digital logic family, SCFL (Source Coupled FET Logic) for metastability and the efforts to improve the metastability characteristics of the flip flops. An architecture which shows a significant reduction in failure rate was designed, simulated, fabricated, and characterized.
[1] A. J. McCamant,et al. An improved GaAs MESFET model for SPICE , 1990 .
[2] C. E. Stroud,et al. Metastability of CMOS master/slave flip-flops , 1991, Proceedings of the IEEE 1991 Custom Integrated Circuits Conference.
[3] Hendrikus J. M. Veendrick,et al. The behaviour of flip-flops used as synchronizers and prediction of their failure rate , 1980 .