Add to ORKGThe dependence of life scientists on software has steadily grown in recent years. For many tasks, researchers have to decide which of the available bioinformatics software are more suitable for their specific needs. Additionally researchers should be able to objectively select the software that provides the highest accuracy, the best efficiency and the highest level of reproducibility when integrated in their research projects. Critical benchmarking of bioinformatics methods, tools and web services is therefore an essential community service, as well as a critical component of reproducibility efforts. Unbiased and objective evaluations are challenging to set up and can only be effective when built and implemented around community driven ef...
Background: The concept of reproducibility is a foundation of the scientific method. With the arriva...
This is an Open Access article distributed under the terms of the Creative Commons Attribution Licen...
Improvements in technology often drive scientific discovery. Therefore, research requires sustained ...
The dependence of life scientists on software has steadily grown in recent years. For many tasks, re...
Computational omics methods packaged as software have become essential to modern biological research...
Computational biology has provided widely used and powerful software tools for testing and making in...
In bioinformatics there often exist a wide selection of different algorithms to solve a given proble...
To make use of Big Data software tools and computer analytics are essential. However, academic softw...
In computational biology and other sciences, researchers are frequently faced with a choice between ...
In this paper, we propose BIOPERF, a definitive benchmark suite of representative applications from...
Open source software is a key ingredient of modern science. Hundreds of software packages, libraries...
In science, the relationship between methods and discovery is symbiotic. As we discover more, we are...
Appropriate benchmark design is a requirement for assessing and improving bioinformatics methods and...
Information is key in producing knowledge. We undoubtedly live in time of massive information; parti...
Abstract Benchmarking is an essential step in the development of computational tools. We take this o...
Background: The concept of reproducibility is a foundation of the scientific method. With the arriva...
This is an Open Access article distributed under the terms of the Creative Commons Attribution Licen...
Improvements in technology often drive scientific discovery. Therefore, research requires sustained ...
The dependence of life scientists on software has steadily grown in recent years. For many tasks, re...
Computational omics methods packaged as software have become essential to modern biological research...
Computational biology has provided widely used and powerful software tools for testing and making in...
In bioinformatics there often exist a wide selection of different algorithms to solve a given proble...
To make use of Big Data software tools and computer analytics are essential. However, academic softw...
In computational biology and other sciences, researchers are frequently faced with a choice between ...
In this paper, we propose BIOPERF, a definitive benchmark suite of representative applications from...
Open source software is a key ingredient of modern science. Hundreds of software packages, libraries...
In science, the relationship between methods and discovery is symbiotic. As we discover more, we are...
Appropriate benchmark design is a requirement for assessing and improving bioinformatics methods and...
Information is key in producing knowledge. We undoubtedly live in time of massive information; parti...
Abstract Benchmarking is an essential step in the development of computational tools. We take this o...
Background: The concept of reproducibility is a foundation of the scientific method. With the arriva...
This is an Open Access article distributed under the terms of the Creative Commons Attribution Licen...
Improvements in technology often drive scientific discovery. Therefore, research requires sustained ...