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A Novel High-Throughput Acceleration Engine for Read Alignment

机译：一种用于读取对齐的新型高通量加速引擎

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摘要

The Smith-Waterman (S-W) algorithm is widely adopted by the state-of-the-art DNA sequence aligners. Existing wave front-based methods ignored the fact that the S-W algorithm is fed with significantly varied-size inputs in modern aligners, in which the S-W algorithm is further optimized by exerting extensive pruning. In this paper, we propose an architecture, tailored for varied input sizes as well as harnessing software pruning strategies, to accelerate S-W. Our implementation demonstrates a 26.4x speedup over a 24-thread Intel Has well Xeon server, and outperforms wave front-based implementations by up to 6x with the same FPGA resource.

机译：史密斯 - 水工（S-W）算法被最先进的DNA序列对准器广泛采用。现有的基于波前的方法忽略了S-W算法在现代对准器中具有显着变化的尺寸输入，其中通过施加广泛的修剪进一步优化S-W算法。在本文中，我们提出了一种架构，针对各种输入尺寸量身定制以及利用软件修剪策略，加速S-W。我们的实现演示了26.4倍的加速在24线程英特尔上，具有良好的Xeon Server，并且使用相同的FPGA资源优于6倍的Wave Frone的实现。

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来源
《International Symposium on Field-Programmable Custom Computing Machines 》|2015年||共4页
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作者
Yu-Ting Chen; Cong Jason; Jie Lei; Peng Wei;
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正文语种
中图分类电子数字计算机（不连续作用电子计算机） ;
关键词
FPGA; HLS; Smith-Waterman; multilevel scheduling; read alignment;

机译：FPGA;HLS;史密斯 - 水工;多级调度;读对齐;

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1. Hardware-Acceleration of Short-Read Alignment Based on the Burrows-Wheeler Transform [J] . H. M. Waidyasooriya, M. Hariyama IEEE Transactions on Parallel and Distributed Systems . 2016 ,第5期

机译：基于Burrows-Wheeler变换的短读比对的硬件加速
2. GPU acceleration of Darwin read overlapper for de novo assembly of long DNA reads [J] . Nauman Ahmed, Tong Dong Qiu, Koen Bertels, BMC Bioinformatics . 2020 ,第S13期

机译：长期读取重叠的GPU加速达到长DNA读取的Novo集装
3. rMFilter: acceleration of long read-based structure variation calling by chimeric read filtering [J] . Bioinformatics . 2017 ,第17期

机译：RMFilter：通过嵌合读取滤波加速长读取的结构变体变体调用
4. A Novel High-Throughput Acceleration Engine for Read Alignment [C] . Yu-Ting Chen, Cong Jason, Jie Lei, International Symposium on Field-Programmable Custom Computing Machines . 2015

机译：用于读取对齐的新型高通量加速引擎
5. Improving quality of high-throughput sequencing reads. [D] . Heo, Yun. 2015

机译：提高高通量测序读段的质量。
6. RAMICS: trainable high-speed and biologically relevant alignment of high-throughput sequencing reads to coding DNA [O] . Imogen A. Wright, Simon A. Travers 2014

机译：RAMICS：高通量测序读段与编码DNA的可训练的高速且生物学相关的比对
7. Arioc: high-throughput read alignment with GPU-accelerated exploration of the seed-and-extend search space [O] . Richard Wilton, Tamas Budavari, Ben Langmead, 2015

机译：arioc：通过GpU加速探索种子和扩展搜索空间的高吞吐量读取对齐

A Novel High-Throughput Acceleration Engine for Read Alignment

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