Add to ORKGGenetic sequence alignment is an important tool for researchers. It lets them see the differences and similarities between two genetic sequences. This is used in several fields, like homology research, auto immune disease research and protein shape estimation. There are various algorithms that can perform this task and several hardware platforms suitable to deliver the necessary computation power. Given the large volume of the datasets used, throughput is nowadays the major bottleneck in sequence alignment. In this thesis we discuss some of the existing solutions for high throughput genetic sequence alignment and present a new one. Our solution implements the well known Smith-Waterman optimal local alignment algorithm on the HC-1 hybrid sup...
Genome assemblies sequenced by a Whole Genome Shotgun (WGS) project predict an organism’s fun...
Sequence alignment is a common and often repeated task in molecular biology. Typical alignment opera...
Abstract: Efficient sequence alignment is one of the most important and challenging activities in bi...
With the sequencing of DNA becoming cheaper and the resulting stack of data growing bigger, there is...
Reconfigurable computing technology has progressed to a stage where it is now pos-sible to achieve o...
Abstract — Comparing genetic sequences is a well-known prob-lem in bioinformatics. Newly determined ...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
Abstract Background To infer homology and subsequentl...
Abstract Background To infer homology and subsequentl...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
With the rapid development of DNA sequencer, the rate of data generation is rapidly outpacing the ra...
Rapid evolution in sequencing technologies results in generating data on an enormous scale. A focal ...
This paper presents the design and implementation of the most parameterisable FPGA-based skeleton fo...
Genome assemblies sequenced by a Whole Genome Shotgun (WGS) project predict an organism’s fun...
Sequence alignment is a common and often repeated task in molecular biology. Typical alignment opera...
Abstract: Efficient sequence alignment is one of the most important and challenging activities in bi...
With the sequencing of DNA becoming cheaper and the resulting stack of data growing bigger, there is...
Reconfigurable computing technology has progressed to a stage where it is now pos-sible to achieve o...
Abstract — Comparing genetic sequences is a well-known prob-lem in bioinformatics. Newly determined ...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
Biological sequence alignment is an essential tool used in molecular biology and biomedical applicat...
Abstract Background To infer homology and subsequentl...
Abstract Background To infer homology and subsequentl...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
With the rapid development of DNA sequencer, the rate of data generation is rapidly outpacing the ra...
Rapid evolution in sequencing technologies results in generating data on an enormous scale. A focal ...
This paper presents the design and implementation of the most parameterisable FPGA-based skeleton fo...
Genome assemblies sequenced by a Whole Genome Shotgun (WGS) project predict an organism’s fun...
Sequence alignment is a common and often repeated task in molecular biology. Typical alignment opera...
Abstract: Efficient sequence alignment is one of the most important and challenging activities in bi...