Models which describe oscillatory metastability for several types of flip-flops are proposed. A constant-slew-rate model is first used to find the bounds on circuit parameters which discriminate between analog and oscillatory metastability. A variable-slew-rate model is then used to evaluate resolving time as a function of input timing. Two classes of flip-flops, homogeneous and inhomogeneous, are defined, and their performances in terms of resolving time are compared. It is shown that, in many cases, inhomogeneous flip-flops provide significant improvements with respect to resolving time when oscillatory metastability is involved. The analytical results are verified by comparison with SPICE simulation results
Oscillatory Metastability in Homogeneous and Inhomogeneous Flip-flops / Reyneri, Leonardo; D., DEL CORSO; B., Sacco. - In: IEEE JOURNAL OF SOLID-STATE CIRCUITS. - ISSN 0018-9200. - ELETTRONICO. - 25:(1990), pp. 254-264. [10.1109/4.50312]
Oscillatory Metastability in Homogeneous and Inhomogeneous Flip-flops
REYNERI, Leonardo;
1990
Abstract
Models which describe oscillatory metastability for several types of flip-flops are proposed. A constant-slew-rate model is first used to find the bounds on circuit parameters which discriminate between analog and oscillatory metastability. A variable-slew-rate model is then used to evaluate resolving time as a function of input timing. Two classes of flip-flops, homogeneous and inhomogeneous, are defined, and their performances in terms of resolving time are compared. It is shown that, in many cases, inhomogeneous flip-flops provide significant improvements with respect to resolving time when oscillatory metastability is involved. The analytical results are verified by comparison with SPICE simulation resultsPubblicazioni consigliate
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https://hdl.handle.net/11583/1676230
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