Short Read Error Correction
Musket is an efficient multistage k-mer based corrector for Illumina short-read data. We employ the k-mer spectrum approach and introduce three correction techniques in a multistage workflow: two-sided conservative correction, one-sided aggressive correction and voting-based refinement. Our performance evaluation results, in terms of correction quality and de novo genome assembly measures, reveal that Musket is consistently one of the top performing correctors. In addition, Musket is multi-threaded using a master-slave model and demonstrates superior parallel scalability compared to all other evaluated correctors as well as a highly competitive overall execution time.
- Yongchao Liu, Jan Schroeder, Bertil Schmidt: "Musket: a multistage k-mer spectrum based error corrector for Illumina sequence data". Bioinformatics, 2013, 29(3): 308-315
DecGPU (Distributed Error Correction on GPUs) is the first parallel and distributed error correction algorithm for high-throughput short reads using CUDA C++ and MPI. Using simulated and real datasets, our algorithm demonstrates superior performance, in terms of error correction quality and execution speed, to the existing error correction algorithms. The distributed feature of our algorithm makes it feasible and flexible for the error correction of large-scale datasets.
- Yongchao Liu, Bertil Schmidt, Douglas L. Maskell: "DecGPU: distributed error correction on massively parallel graphics processing units using CUDA and MPI". BMC Bioinformatics, 2011, 12:85.
- Haixiang Shi, Bertil Schmidt, Weiguo Liu, and Wolfgang Müller-Wittig:"A Parallel Algorithm for Error Correction in High-Throughput Short-Read Data on CUDA-Enabled Graphics Hardware". Journal of Computational Biology, 2010, 17(4): 603-615
SHREC is a new error correction method based on a suffix tree running on standard multi-cores with Java.
- Jan Schröder, Heiko Schröder, Simon J. Puglisi, Ranjan Sinha and Bertil Schmidt: "SHREC: a short-read error correction method". Bioinformatics, 2009, 25(17): 2157-2163