任意有限状态机的双目标映射

2014 International Conference on High Performance Computing and Applications (ICHPCA) Pub Date : 2014-12-01 DOI:10.1109/ICHPCA.2014.7045351

Satrajit Ghosh, Biswanath Sen, R. Das

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引用次数: 0

摘要

可逆计算很有趣，因为它与超低功耗计算有关。可逆顺序电路的设计与分析是一个有趣的研究问题。最先进的设计将顺序电路分解成更小的模块。然后每个模块都使用已知的可逆电路，如Toffoli门、Peres门、Fredkin门、Picton门和Rice门来实现。这种方法本质上是难以处理的。在这项工作中，提出了一种更有效的方法，对状态图进行详细分析。如果从多个“当前状态”获得“下一状态”，状态图中的冗余就会出现。如果每个状态都用二进制数编码，并使用一些辅助位来区分“相同状态”，则可以对这种状态图进行无冗余描述。这对于设计包含大量顺序电路的复杂互连的复杂系统是有帮助的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bijective mapping of arbitrary finite state machine

Reversible Computation is of interest, because it is associated with ultra low power computing. Design and analysis of a reversible sequential circuit is an interesting research problem. State of the art design decomposes a sequential circuit into smaller modules. Then each module is implemented using known reversible circuits like Toffoli Gate, Peres Gate, Fredkin Gate, Picton Gate, and Rice Gate. This approach is inherently intractable in nature. In this work a more efficient approach is proposed that performs a detail analysis of the State Diagram. Redundancy in a state diagram arises if a “next-state” is attained from more than one “present state”. Irredundant description of such a state diagram is possible, if each state is encoded with a binary number and some ancillary bits are used to distinguish the “identical states”. This is helpful in designing a complex system that involves complex interconnection of a large number of sequential circuits.

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2014 International Conference on High Performance Computing and Applications (ICHPCA)

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