A Tensor Network based Decision Diagram for Representation of Quantum Circuits

ACM Transactions on Design Automation of Electronic Systems (TODAES) Pub Date : 2020-09-06 DOI:10.1145/3514355

Xin Hong, Xiang-Yu Zhou, Sanjiang Li, Yuan Feng, M. Ying

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引用次数: 18

Abstract

Tensor networks have been successfully applied in simulation of quantum physical systems for decades. Recently, they have also been employed in classical simulation of quantum computing, in particular, random quantum circuits. This article proposes a decision diagram style data structure, called Tensor Decision Diagram (TDD), for more principled and convenient applications of tensor networks. This new data structure provides a compact and canonical representation for quantum circuits. By exploiting circuit partition, the TDD of a quantum circuit can be computed efficiently. Furthermore, we show that the operations of tensor networks essential in their applications (e.g., addition and contraction) can also be implemented efficiently in TDDs. A proof-of-concept implementation of TDDs is presented and its efficiency is evaluated on a set of benchmark quantum circuits. It is expected that TDDs will play an important role in various design automation tasks related to quantum circuits, including but not limited to equivalence checking, error detection, synthesis, simulation, and verification.

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基于张量网络的量子电路表示决策图

张量网络已经成功地应用于量子物理系统的模拟中。最近，它们也被用于量子计算的经典模拟，特别是随机量子电路。本文提出了一种决策图风格的数据结构，称为张量决策图(TDD)，用于更有原则和更方便的张量网络应用。这种新的数据结构为量子电路提供了一种紧凑和规范的表示。利用电路划分，可以有效地计算量子电路的TDD。此外，我们证明了张量网络在其应用中必不可少的操作(例如加法和收缩)也可以在tdd中有效地实现。提出了tdd的概念验证实现，并在一组基准量子电路上对其效率进行了评估。预计tdd将在与量子电路相关的各种设计自动化任务中发挥重要作用，包括但不限于等效检查，错误检测，合成，仿真和验证。

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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ACM Transactions on Design Automation of Electronic Systems (TODAES)

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