The Advanced Vector Extensions 2 (AVX2) instruction set architecture was introduced by Intel’s Haswell microarchitecture that features improved processing power, wider vector registers, and a rich instruction set. This study presents an implementation of the Hyyrö’s bit-vector algorithm for pairwise Deoxyribonucleic Acid (DNA) sequence alignment that takes advantage of Single-Instruction-Multiple-Data (SIMD) computing capabilities of AVX2 on modern processors. It investigated the effects of the length of the query and reference sequences to the I/O load time, computation time, and memory consumption. The result reveals that the experiment has achieved an I/O load time of ϴ(n), computation time of ϴ(n*⌈m/64⌉), and memory consumption of ϴ(n)....
This paper presents a high performance systolic array (SA) core architecture design for Deoxyribonuc...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
Genome assemblies sequenced by a Whole Genome Shotgun (WGS) project predict an organism’s fun...
The Advanced Vector Extensions 2 (AVX2) instruction set architecture was introduced by Intel’s Haswe...
With the sequencing of DNA becoming cheaper and the resulting stack of data growing bigger, there is...
Precision medicine holds promise for improving healthcare by leveraging genomic information. Due to ...
We have designed a special hardware board to calculate optimal alignments of two sequences based on ...
honors thesisCollege of EngineeringElectrical & Computer EngineeringRajeev Balsubramonian,Precision ...
Abstract: Efficient sequence alignment is one of the most important and challenging activities in bi...
With the rapid development of DNA sequencer, the rate of data generation is rapidly outpacing the ra...
The paper presents the implementation of the q-gram counting filter using x86-AVX/AVX2 SIMD instruct...
String matching is the searching of patterns in a very long string called text. It is involved in DN...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
The alignment of short DNA read sequencing data to a human reference genome sequence has become a st...
The paper presents the results of design explorations for the implementation of the Smith-Waterman (...
This paper presents a high performance systolic array (SA) core architecture design for Deoxyribonuc...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
Genome assemblies sequenced by a Whole Genome Shotgun (WGS) project predict an organism’s fun...
The Advanced Vector Extensions 2 (AVX2) instruction set architecture was introduced by Intel’s Haswe...
With the sequencing of DNA becoming cheaper and the resulting stack of data growing bigger, there is...
Precision medicine holds promise for improving healthcare by leveraging genomic information. Due to ...
We have designed a special hardware board to calculate optimal alignments of two sequences based on ...
honors thesisCollege of EngineeringElectrical & Computer EngineeringRajeev Balsubramonian,Precision ...
Abstract: Efficient sequence alignment is one of the most important and challenging activities in bi...
With the rapid development of DNA sequencer, the rate of data generation is rapidly outpacing the ra...
The paper presents the implementation of the q-gram counting filter using x86-AVX/AVX2 SIMD instruct...
String matching is the searching of patterns in a very long string called text. It is involved in DN...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
The alignment of short DNA read sequencing data to a human reference genome sequence has become a st...
The paper presents the results of design explorations for the implementation of the Smith-Waterman (...
This paper presents a high performance systolic array (SA) core architecture design for Deoxyribonuc...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
Genome assemblies sequenced by a Whole Genome Shotgun (WGS) project predict an organism’s fun...