Performance Analysis of DNA Sequencing Using Smith-Waterman Algorithm on FPGA
By: Hakim, Anna.
Contributor(s): Kashtwari, Anam.
Publisher: New Delhi Journals Pub 2019Edition: Vol.9(2), May-Aug.Description: 8-12p.Subject(s): EXTC EngineeringOnline resources: Click here In: Journal of VLSI design tools & technology (JoVDTT)Summary: The Smith-Waterman algorithm is the most accurate and optimal alignment algorithm for DNA sequencing. It is utilized to locate the ideal local alignment between two sequences. While looking sequence databases that may contain billions of sequences, this algorithm turns out to be computationally costly and tedious. Smith-Waterman algorithm needs additional memory space and this constrains the extent of a sequence to be aligned. In this study we will implement the S-W algorithm on a FPGA board which will speed up the performance execution of the program with less utilization and more efficiency.Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
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Articles Abstract Database | School of Engineering & Technology Archieval Section | Not for loan | 2020055 |
The Smith-Waterman algorithm is the most accurate and optimal alignment algorithm for DNA sequencing. It is utilized to locate the ideal local alignment between two sequences. While looking sequence databases that may contain billions of sequences, this algorithm turns out to be computationally costly and tedious. Smith-Waterman algorithm needs additional memory space and this constrains the extent of a sequence to be aligned. In this study we will implement the S-W algorithm on a FPGA board which will speed up the performance execution of the program with less utilization and more efficiency.
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