ESOP minimization

Quantum Inf. Comput. Pub Date : 2023-02-01 DOI:10.26421/qic23.3-4-2

Hrithik Ketineni, Marek Perkowski doi

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Abstract

The Exclusive-OR Sum-of-Product (ESOP) minimization problem has long been of interest to the research community because of its importance in classical logic design (including low-power design and design for test), reversible logic synthesis, and knowledge discovery, among other applications. However, no exact minimal minimization method has been presented for more than seven variables on arbitrary functions. This paper presents a novel quantum-classical hybrid algorithm for the exact minimal ESOP minimization of incompletely specified Boolean functions. This algorithm constructs oracles from sets of constraints and leverages the quantum speedup offered by Grover's algorithm to find solutions to these oracles, thereby improving over classical algorithms. Improved encoding of ESOP expressions results in substantially fewer decision variables compared to many existing algorithms for many classes of Boolean functions. This paper also extends the idea of exact minimal ESOP minimization to additionally minimize the cost of realizing an ESOP expression as a quantum circuit. To the extent of the authors' knowledge, such a method has never been published. This algorithm was tested on completely and incompletely specified Boolean functions via quantum simulation.

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ESOP最小化

异或积和(ESOP)最小化问题长期以来一直受到研究界的关注，因为它在经典逻辑设计(包括低功耗设计和测试设计)、可逆逻辑综合和知识发现等应用中具有重要意义。然而，对于任意函数的7个以上变量，还没有提出精确的最小化方法。提出了一种求解不完全指定布尔函数的精确最小ESOP最小化的量子-经典混合算法。该算法从约束集构建预言，并利用Grover算法提供的量子加速来找到这些预言的解，从而改进经典算法。与许多布尔函数类的许多现有算法相比，改进的ESOP表达式编码大大减少了决策变量。本文还扩展了精确最小ESOP最小化的思想，以额外地最小化实现ESOP表达式作为量子电路的成本。就作者所知，这种方法从未被发表过。通过量子模拟对该算法在完全指定布尔函数和不完全指定布尔函数上进行了测试。

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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Quantum Inf. Comput.

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