1 research outputs found
An Open Framework for Extensible Multi-Stage Bioinformatics Software
In research labs, there is often a need to customise software at every step
in a given bioinformatics workflow, but traditionally it has been difficult to
obtain both a high degree of customisability and good performance.
Performance-sensitive tools are often highly monolithic, which can make
research difficult. We present a novel set of software development principles
and a bioinformatics framework, Friedrich, which is currently in early
development. Friedrich applications support both early stage experimentation
and late stage batch processing, since they simultaneously allow for good
performance and a high degree of flexibility and customisability. These
benefits are obtained in large part by basing Friedrich on the multiparadigm
programming language Scala. We present a case study in the form of a basic
genome assembler and its extension with new functionality. Our architecture has
the potential to greatly increase the overall productivity of software
developers and researchers in bioinformatics.Comment: 12 pages, 1 figure, to appear in proceedings of PRIB 201