动态危害与速度无关延迟模型

Proceedings Second International Symposium on Advanced Research in Asynchronous Circuits and Systems Pub Date : 1996-03-18 DOI:10.1109/ASYNC.1996.494441

N. Tabrizi, M. Liebelt, K. Eshraghian

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引用次数: 1

摘要

在有界门和线延迟模型下，对不同类型的危险进行了广泛的研究。众所周知，在这种延迟模型下，并非所有两级组合逻辑电路都能消除所有的多输入动态逻辑危害。本文将延迟模型限制为众所周知的惯性门延迟或速度无关模型，并证明在该模型下，两级逻辑电路中不再发生一半的动态逻辑危害。然后，我们削弱了零线延迟限制，并找到了沿关键互连线的延迟上界，从而提出了互连网络的虚拟等时分叉模型。

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Dynamic hazards and speed independent delay model

Different types of hazards have been studied extensively under the bounded gate and wire delay model. It is well known that under this delay model not all multiple input dynamic logic hazards can be removed from all two stage combinational logic circuits. In this paper we restrict the delay model to the well-known inertial gate delay or speed independent model and show that under this model half of the dynamic logic hazards can no longer occur in two level logic circuits. We then weaken the zero wire delay restriction and find an upper bound for the delay along critical interconnection wires and hence propose a virtual isochronic fork model for interconnection networks.

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Proceedings Second International Symposium on Advanced Research in Asynchronous Circuits and Systems

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