Abstract—Rapid analysis of DNA sequences is important in preventing the evolution of different viruses and bacteria during an early phase, early diagnosis of genetic predispositions to certain diseases (cancer, cardiovascular diseases), and in DNA forensics. However, real-world DNA sequences may comprise several Gigabytes and the process of DNA analysis demands adequate computational resources to be completed within a reasonable time. In this paper we present a scalable approach for parallel DNA analysis that is based on Finite Automata, and which is suitable for analyzing very large DNA segments. We evaluate our approach for real-world DNA segments of mouse (2.7GB), cat (2.4GB), dog (2.4GB), chicken (1GB), human (3.2GB) and turkey (0.2GB)....
Pattern matching forms the core of many applications and contributes to a significant fraction of th...
As DNA sequencing accelerates and the sequence databases grow, many problems in sequence analysis ar...
The growing volume of generated DNA sequencing data makes the problem of its long-term storage incre...
Rapid analysis of DNA sequences is important in preventing the evolution of different viruses and ba...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
Abstract—Genetic information is increasing exponentially, dou-bling every 18 months. Analyzing this ...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this infor-mati...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
In the post-genomic era, one of the main tasks is deciphering the meaning of the DNA sequences of co...
Abstract. Finite State Automata are useful for string searching problems mostly because they are fas...
As a result of the human genome project and advancements in DNA sequencing technology, we can utiliz...
A DNA sequence analysis parallelization in large databases using cluster, multi-cluster, and GRID is...
This paper describes a non-deterministic finite-state automaton based on DNA strands. The automaton ...
DNA sequencing technologies keep getting faster and cheaper leading to massive availability of entir...
Biological sequence comparison is one of the most important tasks in Bioinformatics. Due to the grow...
Pattern matching forms the core of many applications and contributes to a significant fraction of th...
As DNA sequencing accelerates and the sequence databases grow, many problems in sequence analysis ar...
The growing volume of generated DNA sequencing data makes the problem of its long-term storage incre...
Rapid analysis of DNA sequences is important in preventing the evolution of different viruses and ba...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
Abstract—Genetic information is increasing exponentially, dou-bling every 18 months. Analyzing this ...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this infor-mati...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
In the post-genomic era, one of the main tasks is deciphering the meaning of the DNA sequences of co...
Abstract. Finite State Automata are useful for string searching problems mostly because they are fas...
As a result of the human genome project and advancements in DNA sequencing technology, we can utiliz...
A DNA sequence analysis parallelization in large databases using cluster, multi-cluster, and GRID is...
This paper describes a non-deterministic finite-state automaton based on DNA strands. The automaton ...
DNA sequencing technologies keep getting faster and cheaper leading to massive availability of entir...
Biological sequence comparison is one of the most important tasks in Bioinformatics. Due to the grow...
Pattern matching forms the core of many applications and contributes to a significant fraction of th...
As DNA sequencing accelerates and the sequence databases grow, many problems in sequence analysis ar...
The growing volume of generated DNA sequencing data makes the problem of its long-term storage incre...