A high-performance MEMRISTOR-based Smith-Waterman DNA sequence alignment   Using FPNI structure

Mahdi Taheri; Hamed Zandevakili; Ali Mahani

arXiv:2009.09787·cs.AR·September 22, 2020·1 cites

A high-performance MEMRISTOR-based Smith-Waterman DNA sequence alignment Using FPNI structure

Mahdi Taheri, Hamed Zandevakili, Ali Mahani

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Open Access

TL;DR

This paper introduces a high-performance DNA sequence alignment method using memristor technology and a novel FPNI structure to improve re-configuration for varying read lengths in sequencing.

Contribution

It presents a new memristor-based approach with FPNI structure for efficient DNA sequence alignment accommodating different read lengths.

Findings

01

Enhanced alignment speed with memristor implementation

02

Improved re-configuration for variable read lengths

03

Potential for more accurate DNA sequencing

Abstract

This paper aims to present a new re-configuration sequencing method for difference of read lengths that may take place as input data in which is crucial drawbacks lay impact on DNA sequencing methods.

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Taxonomy

TopicsGenomics and Phylogenetic Studies · Cancer Genomics and Diagnostics · Algorithms and Data Compression