Realizing parallelism in quantum MISD architecture

Suvadip Batabyal, Kounteya Sarkar
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引用次数: 1

Abstract

We propose an idea to speed up instruction execution through a probabilistic approach, using the parallelism offered by quantum computers. For this, we divide the instruction set of an arbitrary quantum instruction set architecture (QISA) into separate groups and then bias certain qubits representing the group so that only the instructions within the group have a high probability of getting executed in a quantum processor. Therefore, the result generated will be the superimposition of the qubits as if all the instructions within the group were executed simultaneously. We show that we can achieve a significant design improvement compared to classical computer.
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实现量子MISD架构中的并行性
我们提出了一种利用量子计算机提供的并行性,通过概率方法加速指令执行的想法。为此,我们将任意量子指令集架构(QISA)的指令集划分为单独的组,然后对代表该组的某些量子位进行偏置,以便只有组内的指令才有高概率在量子处理器中执行。因此,产生的结果将是量子比特的叠加,就好像组内的所有指令同时执行一样。我们表明,与传统计算机相比,我们可以实现显着的设计改进。
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