the date of receipt and acceptance should be inserted later Abstract Many-task computing is a well-established paradigm for implementing loosely coupled applications (tasks) on large-scale computing systems. However, few of the model’s existing implementations provide efficient, low-latency support for executing tasks that are tightly coupled multiprocessing applications. Thus, a vast array of parallel applications cannot readily be used effectively within many-task workloads. In this work, we present JETS, a middleware component that provides high performance support for many-parallel-task computing (MPTC). JETS is based on a highly concurrent approach to parallel task dispatch and on new capabilities now available in the MPICH2 MPI implem...
Editors: Michael Klemm; Bronis R. de Supinski et al.International audienceHeterogeneous supercompute...
We present the design and first performance and usability evaluation of GeMTC, a novel execution mod...
Individual processor frequencies have reached an upper physical and practical limit. Processor desig...
Many-task computing is a well-established paradigm for implementing loosely coupled applications on ...
Today's supercomputers gain their performance through a rapidly increasing number of cores per node....
Efficiently utilizing the rapidly increasing concurrency of multi-petaflop computing systems is a si...
Abstract. Efficiently utilizing the rapidly increasing concurrency of multi-petaflop computing sys-t...
Efficiently utilizing the rapidly increasing concurrency of multi-petaflop computing systems is a si...
Abstract—Current software and hardware limitations prevent ManyTask Computing (MTC) from leveraging ...
Many-Task Computing (MTC) is a widely used computing paradigm for large-scale task-parallel processi...
It has become common knowledge that parallel programming is needed for scientific applications, part...
Abstract. Parallel programming models on large-scale systems require a scalable system for managing ...
Parallel task-based programming models like OpenMP support the declaration of task data dependences....
Many-task computing (MTC) is a widely used computing paradigm for complex scientific applications, w...
Many scientific applications can be efficiently expressed with the parallel scripting (many-task com...
Editors: Michael Klemm; Bronis R. de Supinski et al.International audienceHeterogeneous supercompute...
We present the design and first performance and usability evaluation of GeMTC, a novel execution mod...
Individual processor frequencies have reached an upper physical and practical limit. Processor desig...
Many-task computing is a well-established paradigm for implementing loosely coupled applications on ...
Today's supercomputers gain their performance through a rapidly increasing number of cores per node....
Efficiently utilizing the rapidly increasing concurrency of multi-petaflop computing systems is a si...
Abstract. Efficiently utilizing the rapidly increasing concurrency of multi-petaflop computing sys-t...
Efficiently utilizing the rapidly increasing concurrency of multi-petaflop computing systems is a si...
Abstract—Current software and hardware limitations prevent ManyTask Computing (MTC) from leveraging ...
Many-Task Computing (MTC) is a widely used computing paradigm for large-scale task-parallel processi...
It has become common knowledge that parallel programming is needed for scientific applications, part...
Abstract. Parallel programming models on large-scale systems require a scalable system for managing ...
Parallel task-based programming models like OpenMP support the declaration of task data dependences....
Many-task computing (MTC) is a widely used computing paradigm for complex scientific applications, w...
Many scientific applications can be efficiently expressed with the parallel scripting (many-task com...
Editors: Michael Klemm; Bronis R. de Supinski et al.International audienceHeterogeneous supercompute...
We present the design and first performance and usability evaluation of GeMTC, a novel execution mod...
Individual processor frequencies have reached an upper physical and practical limit. Processor desig...