Abstract Benchmarking is an essential step in the development of computational tools. We take this opportunity to pitch in our opinions on tool benchmarking, in light of two correspondence articles published in Genome Biology. Please see related Li et al. and Newman et al. correspondence articles: www.dx.doi.org/10.1186/s13059-017-1256-5 and www.dx.doi.org/10.1186/s13059-017-1257-
Arel-Bundock, Blais and Dassonneville (2018, ABD hereafter) offer an unusual critique of our 12 arti...
In metagenome analysis, computational methods for assembly, taxonomic profiling and binning are key ...
In metagenome analysis, computational methods for assembly, taxonomic profiling and binning are key ...
Computational omics methods packaged as software have become essential to modern biological research...
In computational biology and other sciences, researchers are frequently faced with a choice between ...
There have been several papers published relating to the practice of benchmarking in machine learnin...
In bioinformatics there often exist a wide selection of different algorithms to solve a given proble...
The dependence of life scientists on software has steadily grown in recent years. For many tasks, re...
Computational biology has provided widely used and powerful software tools for testing and making in...
Benchmarking has received extensive coverage in recent publications, but the topic has often describ...
Computational methods represent the lifeblood of modern molecular biology. Benchmarking is important...
11siGenetic programming (GP) is not a field noted for the rigor of its benchmarking. Some of its ben...
This note marshals arguments for three points. First, it is better to test on small benchmark insta...
In this article benchmarking subject is taken into consideration. Benchmarking is a comparison proce...
With the advancement of high-throughput technologies, data and computing have become key components ...
Arel-Bundock, Blais and Dassonneville (2018, ABD hereafter) offer an unusual critique of our 12 arti...
In metagenome analysis, computational methods for assembly, taxonomic profiling and binning are key ...
In metagenome analysis, computational methods for assembly, taxonomic profiling and binning are key ...
Computational omics methods packaged as software have become essential to modern biological research...
In computational biology and other sciences, researchers are frequently faced with a choice between ...
There have been several papers published relating to the practice of benchmarking in machine learnin...
In bioinformatics there often exist a wide selection of different algorithms to solve a given proble...
The dependence of life scientists on software has steadily grown in recent years. For many tasks, re...
Computational biology has provided widely used and powerful software tools for testing and making in...
Benchmarking has received extensive coverage in recent publications, but the topic has often describ...
Computational methods represent the lifeblood of modern molecular biology. Benchmarking is important...
11siGenetic programming (GP) is not a field noted for the rigor of its benchmarking. Some of its ben...
This note marshals arguments for three points. First, it is better to test on small benchmark insta...
In this article benchmarking subject is taken into consideration. Benchmarking is a comparison proce...
With the advancement of high-throughput technologies, data and computing have become key components ...
Arel-Bundock, Blais and Dassonneville (2018, ABD hereafter) offer an unusual critique of our 12 arti...
In metagenome analysis, computational methods for assembly, taxonomic profiling and binning are key ...
In metagenome analysis, computational methods for assembly, taxonomic profiling and binning are key ...