An FPGA-Based Computing Infrastructure Tailored to Efficiently Scaffold Genome Sequences

机译：专为高效脚手架基因组序列量身定制的基于FPGA的计算基础架构

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In the current years broad access to genomic data is leading to improve the understanding and prevention of human diseases as never before. De-novo genome assembly, represents a main obstacle to perform the analysis on a large scale, as it is one of the most time-consuming phases of the genome analysis. In this paper, we present a scalable, high performance and energy efficient architecture for the alignment step of SSPACE, a state of the art tool used to perform scaffolding also in case of de-novo assembly. The final architecture is able to achieve up to 9.83x speedup in performance when compared to the software version of Bowtie, a state of the art tool used by SSPACE to perform the alignment.

机译：近年来，对基因组数据的广泛访问正在以前所未有的方式促进人们对人类疾病的了解和预防。新基因组组装是大规模进行分析的主要障碍，因为它是基因组分析中最耗时的阶段之一。在本文中，我们为SSPACE的对准步骤提供了一种可扩展的，高性能和高能效的体系结构，这是一种用于在拆装时进行脚手架安装的先进工具。与Bowtie的软件版本（SSPACE用于执行对齐的最先进工具）相比，最终的体系结构能够实现高达9.83倍的性能提升。

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《IEEE Annual International Symposium on Field-Programmable Custom Computing Machines》|2019年|333-333|共1页
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Alberto Zeni; Matteo Crespi; Lorenzo Di Tucci; Marco D. Santambrogio;
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Genomics; Bioinformatics; Computer architecture; Field programmable gate arrays; Software algorithms; Software; Tools;

机译：基因组学;生物信息学;计算机体系结构;现场可编程门阵列;软件算法;软件;工具;

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1. Genome-wide identification of conserved and novel microRNAs in one bud and two tender leaves of tea plant ( Camellia sinensis ) by small RNA sequencing, microarray-based hybridization and genome survey scaffold sequences [J] . Anburaj Jeyaraj, Xiao Zhang, Yan Hou, BMC Plant Biology . 2017,第1期

机译：通过小RNA测序，基于微阵列的杂交和基因组研究支架序列，在全基因组范围内鉴定茶树（茶树）的一芽和两嫩叶中的保守和新型microRNA。
2. Energy-Efficient FPGA-Based Parallel Quasi-Stochastic Computing [J] . Ramu Seva, Prashanthi Metku, Minsu Choi Journal of Low Power Electronics and Applications . 2017,第4期

机译：基于FPGA的高能效并行准随机计算
3. Energy-Efficient FPGA-Based Parallel Quasi-Stochastic Computing [J] . Ramu Seva, Prashanthi Metku, Minsu Choi Journal of Low Power Electronics and Applications . 2017,第4期

机译：基于FPGA的高能效并行准随机计算
4. An FPGA-Based Computing Infrastructure Tailored to Efficiently Scaffold Genome Sequences [C] . Alberto Zeni, Matteo Crespi, Lorenzo Di Tucci, IEEE Annual International Symposium on Field-Programmable Custom Computing Machines . 2019

机译：基于FPGA的计算基础设施，以有效地支架基因组序列
5. Scoring-and-Unfolding Trimmed Tree Assembler: Algorithms for Assembling Genome Sequences Accurately and Efficiently. [D] . Narzisi, Giuseppe. 2011

机译：计分和展开修剪的树组装程序：准确有效地组装基因组序列的算法。
6. ED-BioRob: A Neuromorphic Robotic Arm With FPGA-Based Infrastructure for Bio-Inspired Spiking Motor Controllers [O] . Alejandro Linares-Barranco, Fernando Perez-Peña, Angel Jimenez-Fernandez, 2020

机译：Ed-Biorob：具有基于FPGA的基础设施的神经形状机器人用于生物启发尖刺电机控制器
7. Energy-Efficient FPGA-Based Parallel Quasi-Stochastic Computing [O] . Ramu Seva, Prashanthi Metku, Minsu Choi 2017

机译：基于能量效率FpGa的并行准随机计算

An FPGA-Based Computing Infrastructure Tailored to Efficiently Scaffold Genome Sequences

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