Simulating Circuit Layout for Distributed Quantum Computing
Sen Zhang, Yipie Liu, Brian Mark, Weiwen Jiang, Zebo Yang, Lei Yang
TL;DR
This paper introduces a novel framework for simulating and compiling quantum circuits across distributed quantum processors connected via photonics, enabling scalable quantum computing with a divide-and-conquer approach.
Contribution
It presents the first tool for circuit compilation across distributed quantum processors, combining circuit partitioning, transpilation, and assembly for practical implementation.
Findings
First framework for distributed quantum circuit simulation
Effective circuit partitioning and transpilation methods
Produces implementable circuit layouts for distributed systems
Abstract
The proposed framework represents the first tool to compile a quantum circuit across photonic-connected distributed quantum processors. Its design follows a divide-and-conquer paradigm for circuit partitioning, transpilation, and assembly, producing simulable and implementable circuit layouts.
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Taxonomy
TopicsQuantum Computing Algorithms and Architecture · Neural Networks and Reservoir Computing · Quantum Information and Cryptography