Fast Genome-Wide Third-order SNP Interaction Tests with Information Gain on a Low-cost Heterogeneous Parallel FPGA-GPU Computing Architecture

Lars Wienbrandt; Jan Christian Kassens; Matthias Hübenthal; David Ellinghaus

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Fast Genome-Wide Third-order SNP Interaction Tests with Information Gain on a Low-cost Heterogeneous Parallel FPGA-GPU Computing Architecture

机译：在低成本异构并行FPGA-GPU计算架构上获得信息的快速全基因组三阶SNP交互测试

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Complex diseases may result from many genetic variants interacting with each other. For this reason, genome-wide interaction studies (GWIS) are currently performed to detect pairwise SNP interactions. While the computations required here can be completed within reasonable time, it has been inconvenient yet to detect third-order SNP interactions for large-scale datasets due to the cubic complexity of the problem. In this paper we introduce a feasible method for third-order GWIS analysis of genotyping data on a low-cost heterogeneous computing system that combines a Virtex-7 FPGA and a GeForce GTX 780 Ti GPU, with speedups between 70 and 90 against a CPU-only approach and a speedup of approx. 5 against a GPU-only approach. To estimate effect sizes of third-order interactions we employed information gain (IG), a measure that has been applied on a genome-wide scale only for pairwise interactions in the literature yet.

机译：复杂的疾病可能是由于许多遗传变异相互影响而导致的。因此，目前正在进行全基因组相互作用研究（GWIS），以检测成对的SNP相互作用。尽管此处所需的计算可以在合理的时间内完成，但是由于问题的立方复杂性，对于大型数据集检测三阶SNP交互作用仍然很不方便。在本文中，我们介绍了一种在低成本异构计算系统上对基因分型数据进行三阶GWIS分析的可行方法，该系统将Virtex-7 FPGA和GeForce GTX 780 Ti GPU结合在一起，相对于CPU-而言，加速比在70到90之间唯一的办法，加速约。 5仅针对GPU方法。为了估计三阶相互作用的影响大小，我们采用了信息增益（IG），这是一种仅在文献报道中用于全基因组相互作用的方法，已在全基因组范围内应用。

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《Procedia Computer Science》 |2017年第1期|共10页
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Lars Wienbrandt; Jan Christian Kassens; Matthias Hübenthal; David Ellinghaus;
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中图分类计算技术、计算机技术;
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1. Fast Genome-Wide Third-order SNP Interaction Tests with Information Gain on a Low-cost Heterogeneous Parallel FPGA-GPU Computing Architecture [J] . Lars Wienbrandt, Jan Christian Kassens, Matthias Hübenthal, Procedia Computer Science . 2017,第1期

机译：在低成本异构并行FPGA-GPU计算架构上获得信息的快速全基因组三阶SNP交互测试
2. Heterogeneous computing architecture for fast detection of SNP-SNP interactions [J] . Davor Sluga, Tomaz Curk, Blaz Zupan, BMC Bioinformatics . 2014,第1期

机译：用于快速检测SNP-SNP相互作用的异构计算架构
3. Parallel and serial computing tools for testing single-locus and epistatic SNP effects of quantitative traits in genome-wide association studies [J] . Li Ma, H Birali Runesha, Daniel Dvorkin, BMC Bioinformatics . 2008,第1期

机译：并行和串行计算工具，用于测试全基因组关联研究中数量性状的单位和上位SNP效应
4. Detection of SNP-SNP Interactions in Genome-wide Association Data Using Random Forests and Association Rules [C] . Tung Nguyen, Ly Le International Conference on Software, Knowledge Information Management and Applications . 2018

机译：使用随机森林和关联规则检测全基因组关联数据中的SNP-SNP相互作用
5. SNP-set Tests for Sequencing and Genome-Wide Association Studies. [D] . Barnett, Ian James. 2014

机译：用于测序和全基因组关联研究的SNP设置测试。
6. Heterogeneous computing architecture for fast detection of SNP-SNP interactions [O] . Davor Sluga, Tomaz Curk, Blaz Zupan, 2014

机译：用于快速检测SNP-SNP相互作用的异构计算架构
7. Heterogeneous computing architecture for fast detection of SNP-SNP interactions [O] . 2014

机译：用于快速检测SNP-SNP相互作用的异构计算架构

Fast Genome-Wide Third-order SNP Interaction Tests with Information Gain on a Low-cost Heterogeneous Parallel FPGA-GPU Computing Architecture

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