C - to - D-Wave:量子退火器的高级C编译框架

Mohamed W. Hassan, S. Pakin, Wu-chun Feng
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引用次数: 5

摘要

量子退火炉利用量子效应来解决最优化问题。问题用哈密顿函数表示,它定义了一个能源格局。量子退火硬件松弛到与能量景观的基态相对应的解。用实值哈密顿函数系数来表示任意规划问题是不直观和具有挑战性的。本文通过提出一个编译框架来解决量子退火炉编程的困难,该框架将C代码子集编译为量子机器指令(QMI),以便在量子退火炉上执行。我们的工作基于模块化软件堆栈,该软件堆栈通过将C语言到Verilog的代码依次降低到象征性的“量子宏汇编语言”,最后降低到特定于设备的哈密顿函数,从而促进了D-Wave量子退火程序的编程。我们在一组用C语言编写并在D-Wave 2000Q量子退火机上执行的问题上展示了我们的软件堆栈的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
C to D-Wave: A High-level C Compilation Framework for Quantum Annealers
A quantum annealer solves optimization problems by exploiting quantum effects. Problems are represented as Hamiltonian functions that define an energy landscape. The quantum-annealing hardware relaxes to a solution corresponding to the ground state of the energy landscape. Expressing arbitrary programming problems in terms of real-valued Hamiltonian-function coefficients is unintuitive and challenging. This paper addresses the difficulty of programming quantum annealers by presenting a compilation framework that compiles a subset of C code to a quantum machine instruction (QMI) to be executed on a quantum annealer. Our work is based on a modular software stack that facilitates programming D-Wave quantum annealers by successively lowering code from C to Verilog to a symbolic “quantum macro assembly language” and finally to a device-specific Hamiltonian function. We demonstrate the capabilities of our software stack on a set of problems written in C and executed on a D-Wave 2000Q quantum annealer.
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