使用内存处理器架构的DNA映射

D. Lavenier, Jean-François Roy, David Furodet
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引用次数: 18

摘要

本文介绍了一种映射算法在UPMEM公司开发的一种新的内存处理(PIM)体系结构上的实现。UPMEM的解决方案包括在DRAM中添加处理单元,以最大限度地减少数据访问时间和最大限度地提高带宽,从而大大加快数据消耗算法。UPMEM开发的技术可以在一个标准的DIMM模块上结合256核和16gb的DRAM。在人类基因组数据集上进行的DNA制图实验表明,与运行在16个Intel线程上的BWA、Bowtie2或NextGenMap等快速制图软件相比,UPMEM技术可获得25倍的加速。实验还表明,从存储设备传输数据限制了实现的性能。使用SSD驱动器可以将加速提升到80。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DNA mapping using Processor-in-Memory architecture
This paper presents the implementation of a mapping algorithm on a new Processing-in-Memory (PIM) architecture developed by UPMEM Company. UPMEM's solution consists in adding processing units into the DRAM, to minimize data access time and maximize bandwidth, in order to drastically accelerate data-consuming algorithms. The technology developed by UPMEM makes it possible to combine 256 cores with 16 GBytes of DRAM, on a standard DIMM module. An experimentation of DNA Mapping on Human genome dataset shows that a speed-up of 25 can be obtained with UPMEM technology compared to fast mapping software such as BWA, Bowtie2 or NextGenMap running on 16 Intel threads. Experimentation also highlight that data transfer from storage device limits the performances of the implementation. The use of SSD drives can boost the speed-up to 80.
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