AbstractNowadays, High Performance Computing (HPC) systems commonly used in bioinformatics, such as genome sequencing, incorporate multi-processor architectures. Typically, most bioinformatics applications are multi-threaded and dominated by memory-intensive operations, which are not designed to take full advantage of these HPC capabilities. Therefore, the application end-user is responsible for optimizing the application performance and improving scalability with various performance engineering concepts. Additionally, most of the HPC systems are operated in a multi-user (or multi-job) environment; thus, Quality of Service (QoS) methods are essential for balancing between application performance, scalability and system utilization. We propo...
The bioinformatics research area is now faced with an obstacle of ever-increasing biological data to...
High-throughput technologies, such as next-generation sequencing, have turned molecular biology into...
As of 2012, the world creates 2.5 quintillion bytes of data every day. Much of this data generated i...
AbstractNowadays, High Performance Computing (HPC) systems commonly used in bioinformatics, such as ...
Next Generation Sequencing has brought genomic analysis within the range of a great number of labor...
Exponential growth in biological sequence data combined with the computationally intensive nature of...
A b s t r a c t The rapid advances in high-throughput biotechnologies such as DNA microarrays and ma...
As bioinformatics is an emerging application of high performance computing, this paper first evaluat...
We live in a big-data era and simple serial bioinformatic pipelines can’t efficiently handle huge in...
The Genomic Data Commons (GDC) is a data platform for managing, processing, analyzing, and sharing c...
High Performance Computing has been very useful to researchers in the Bioinformatics, Medical and re...
In this dissertation, we address the challenges of performance scaling for bioinformatics applicatio...
Abstract — Nowadays, multicore processor and GPUs have entered the mainstream of microprocessor dev...
The exponential growth in the amount of genomic information has spurred growing interest in large sc...
Langenkämper D, Jakobi T, Feld D, Jelonek L, Goesmann A, Nattkemper TW. Comparison of Acceleration T...
The bioinformatics research area is now faced with an obstacle of ever-increasing biological data to...
High-throughput technologies, such as next-generation sequencing, have turned molecular biology into...
As of 2012, the world creates 2.5 quintillion bytes of data every day. Much of this data generated i...
AbstractNowadays, High Performance Computing (HPC) systems commonly used in bioinformatics, such as ...
Next Generation Sequencing has brought genomic analysis within the range of a great number of labor...
Exponential growth in biological sequence data combined with the computationally intensive nature of...
A b s t r a c t The rapid advances in high-throughput biotechnologies such as DNA microarrays and ma...
As bioinformatics is an emerging application of high performance computing, this paper first evaluat...
We live in a big-data era and simple serial bioinformatic pipelines can’t efficiently handle huge in...
The Genomic Data Commons (GDC) is a data platform for managing, processing, analyzing, and sharing c...
High Performance Computing has been very useful to researchers in the Bioinformatics, Medical and re...
In this dissertation, we address the challenges of performance scaling for bioinformatics applicatio...
Abstract — Nowadays, multicore processor and GPUs have entered the mainstream of microprocessor dev...
The exponential growth in the amount of genomic information has spurred growing interest in large sc...
Langenkämper D, Jakobi T, Feld D, Jelonek L, Goesmann A, Nattkemper TW. Comparison of Acceleration T...
The bioinformatics research area is now faced with an obstacle of ever-increasing biological data to...
High-throughput technologies, such as next-generation sequencing, have turned molecular biology into...
As of 2012, the world creates 2.5 quintillion bytes of data every day. Much of this data generated i...