Phylogenetic inference is considered to be one of the grand challenges in Bioinformatics due to the immense computational requirements. RAxML is currently among the fastest and most accurate programs for phylogenetic tree inference under the Maximum Likelihood (ML) criterion. First, we introduce new tree search heuristics that accelerate RAxML by a factor of 2.43 while returning equally good trees. The performance of the new search algorithm has been assessed on 18 real-world datasets comprising 148 up to 4,843 DNA sequences. We then present the implementation, optimization, and evaluation of RAxML on the IBM Cell Broadband Engine. We address the problems and provide solutions pertaining to the optimization of floating point code, control f...
Phylogenetics is the study of the evolutionary relationships among species. It is derived from the a...
AbstractThe field of bioinformatics is witnessing a rapid and overwhelming accumulation of molecular...
Abstract Phylogenetic analysis is an area of computational biology concerned with the reconstructio...
Phylogenetic inference is considered to be one of the grand challenges in Bioinformatics due to the ...
Phylogenetic tree reconstruction is one of the grand challenge problems in Bioinformatics. The searc...
Despite recent advances achieved by application of high-performance computing methods and novel algo...
Summary: RAxML-VI-HPC (randomized axelerated maximum likelihood for high performance computing) is a...
Abstract. Inference of phylogenetic trees comprising hundreds or even thousands of organisms based o...
Phylogenetic inference is a grand challenge in Bioinformatics due to immense computational requireme...
Abstract Background The rapid accumulation of molecul...
Motivation: Phylogenies are increasingly used in all fields of medical and biological research. M...
The computation of ever larger as well as more accurate phylogenetic trees with the ultimate goal to...
Summarization: The Phylogenetic Likelihood Function (PLF) is one of the cornerstone functions in mos...
The computation of ever larger as well as more accurate phylogenetic trees with the ultimate goal to...
The Phylogenetic Likelihood Function (PLF) is one of the cornerstone functions in most phylogenetic ...
Phylogenetics is the study of the evolutionary relationships among species. It is derived from the a...
AbstractThe field of bioinformatics is witnessing a rapid and overwhelming accumulation of molecular...
Abstract Phylogenetic analysis is an area of computational biology concerned with the reconstructio...
Phylogenetic inference is considered to be one of the grand challenges in Bioinformatics due to the ...
Phylogenetic tree reconstruction is one of the grand challenge problems in Bioinformatics. The searc...
Despite recent advances achieved by application of high-performance computing methods and novel algo...
Summary: RAxML-VI-HPC (randomized axelerated maximum likelihood for high performance computing) is a...
Abstract. Inference of phylogenetic trees comprising hundreds or even thousands of organisms based o...
Phylogenetic inference is a grand challenge in Bioinformatics due to immense computational requireme...
Abstract Background The rapid accumulation of molecul...
Motivation: Phylogenies are increasingly used in all fields of medical and biological research. M...
The computation of ever larger as well as more accurate phylogenetic trees with the ultimate goal to...
Summarization: The Phylogenetic Likelihood Function (PLF) is one of the cornerstone functions in mos...
The computation of ever larger as well as more accurate phylogenetic trees with the ultimate goal to...
The Phylogenetic Likelihood Function (PLF) is one of the cornerstone functions in most phylogenetic ...
Phylogenetics is the study of the evolutionary relationships among species. It is derived from the a...
AbstractThe field of bioinformatics is witnessing a rapid and overwhelming accumulation of molecular...
Abstract Phylogenetic analysis is an area of computational biology concerned with the reconstructio...