Vu Manh Tuan scite author profile

SUMMARY The multi-process execution in dynamically reconfigurable processors is a technique to enhance throughput by trying to exploit more inherent parallelism of applications. Basically, a total process for an application is divided into small processes, assigned into limited areas of a reconfigurable array, and concurrently executed in a pipelined manner. In order to improve the efficiency of the multi-process execution, a systematic method for mapping processes onto a reconfigurable array consisting of multiple hardware execution units is essential. This paper proposes and investigates a systematic method for mapping an application modeled as a Kahn Process Network onto a dynamically reconfigurable processing array. In order to execute streaming applications in a pipelined manner, the size of Tiles, which is a unit area of dynamically reconfigurable array, and the grouping of processes are adjusted. Using real applications such as DCT, JPEG encoder and Turbo encoder, the impact of different versions mapped onto the NEC Dynamically Reconfigurable Processor on performance is evaluated. Evaluation results show that our proposed mapping algorithm achieves the best performance in terms of the throughput and the execution time.

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A Preemption Algorithm for a Multitasking Environment on Dynamically Reconfigurable Processor

Tuan

Amano

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Vu Manh Tuan

A cost-effective context memory structure for dynamically reconfigurable processors

Evaluation of a multicore reconfigurable architecture with variable core sizes

A Mapping Method for Multi-Process Execution on Dynamically Reconfigurable Processors

A Preemption Algorithm for a Multitasking Environment on Dynamically Reconfigurable Processor

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