量子退火仿真器中稀疏矩阵的输入数据格式

IF 0.4 4区 计算机科学 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Sohei SHIMOMAI, Kei UEDA, Shinji KIMURA
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引用次数: 0

摘要

近年来,量子退火算法作为一种有效的组合优化算法受到了广泛的关注。在QA中,由于可用的内存大小和带宽有限,输入数据大小变得很大,减小它对于硬件仿真的加速非常重要。提出了QA仿真器输入稀疏矩阵的压缩方法。该方法利用了系数矩阵的稀疏性和相同值的再现性。引入独立表,采用值表中两个连续数据的查找配准方法对数据进行压缩。将该方法应用于具有32、64和96个城市的旅行商问题(TSP)和护士调度问题(NSP)。该方法可将96城市TSP的数据量减少1/40,并可在硬件模拟器上对96城市TSP进行管理。当应用于NSP时,我们通过压缩比在1/4到1/11.8范围内证实了所提出方法的有效性。当直接使用压缩数据时,数据缩减对模拟/仿真性能也很有用,并且在96城市TSP上可以发现比基于csr的方法快1.9倍的速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Input Data Format for Sparse Matrix in Quantum Annealing Emulator
Recently, Quantum Annealing (QA) has attracted attention as an efficient algorithm for combinatorial optimization problems. In QA, the input data size becomes large and its reduction is important for accelerating by the hardware emulation since the usable memory size and its bandwidth are limited. The paper proposes the compression method of input sparse matrices for QA emulator. The proposed method uses the sparseness of the coefficient matrix and the reappearance of the same values. An independent table is introduced and data are compressed by the search and registration method of two consecutive data in the value table. The proposed method is applied to Traveling Salesman Problem (TSP) with 32, 64 and 96 cities and Nurse Scheduling Problem (NSP). The proposed method could reduce the amount of data by 1/40 for 96 city TSP and could manage 96 city TSP on the hardware emulator. When applied to NSP, we confirmed the effectiveness of the proposed method by the compression ratio ranging from 1/4 to 1/11.8. The data reduction is also useful for the simulation/emulation performance when using the compressed data directly and 1.9 times faster speed can be found on 96 city TSP than the CSR-based method.
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来源期刊
CiteScore
1.10
自引率
20.00%
发文量
137
审稿时长
3.9 months
期刊介绍: Includes reports on research, developments, and examinations performed by the Society''s members for the specific fields shown in the category list such as detailed below, the contents of which may advance the development of science and industry: (1) Reports on new theories, experiments with new contents, or extensions of and supplements to conventional theories and experiments. (2) Reports on development of measurement technology and various applied technologies. (3) Reports on the planning, design, manufacture, testing, or operation of facilities, machinery, parts, materials, etc. (4) Presentation of new methods, suggestion of new angles, ideas, systematization, software, or any new facts regarding the above.
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