基于门的音乐硬件量子计算机编程

IF 0.2 0 MUSIC Muzikologija-Musicology Pub Date : 2018-01-01 DOI:10.2298/MUZ1824021K
Alexis Kirke
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引用次数: 4

摘要

在此之前,人们曾尝试用量子力学方程来产生声音,并模拟量子过程。为了在计算机音乐中应用新的计算形式,最终必须利用硬件。这种情况很少发生在量子计算机音乐上。其中一个原因是,目前还不容易获得这样的硬件。其次,可用的硬件需要对量子计算理论有一定的了解。本文利用IBMQASM v1.1和D-Wave 2X两种硬件量子计算系统推进了这一过程。它还介绍了基于门的IBM系统背后的思想,希望以一种更容易被懂计算机的读者理解的方式。这是第一个混合量子计算机算法的演示,涉及两个硬件机器。虽然这两种算法都没有明确地利用承诺的量子加速,但它们是将QC引入音乐领域的重要第一步。文章还介绍了一些关键的量子计算机算法,并讨论了它们未来可能对计算机音乐的贡献。
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Programming Gate-based Hardware Quantum Computers for Music
There have been significant attempts previously to use the equations of quantum mechanics for generating sound, and to sonify simulated quantum processes. For new forms of computation to be utilized in computer music, eventually hardware must be utilized. This has rarely happened with quantum computer music. One reason for this is that it is currently not easy to get access to such hardware. A second is that the hardware available requires some understanding of quantum computing theory. This paper moves forward the process by utilizing two hardware quantum computation systems: IBMQASM v1.1 and a D-Wave 2X. It also introduces the ideas behind the gate-based IBM system, in a way hopefully more accessible to computerliterate readers. This is a presentation of the first hybrid quantum computer algorithm, involving two hardware machines. Although neither of these algorithms explicitly utilize the promised quantum speed-ups, they are a vital first step in introducing QC to the musical field. The article also introduces some key quantum computer algorithms and discusses their possible future contribution to computer music.
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来源期刊
CiteScore
0.20
自引率
0.00%
发文量
5
审稿时长
12 weeks
期刊最新文献
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