Dynamical Self-Reconfigurable Mechanism for Data-Driven Cell Array

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The utilization of computation resources and reconfiguration time has a large impact on reconfiguration system performance.In order to promote the performance,a dynamical self-reconfigurable mechanism for data-driven cell array is proposed.Cells can be fired only when the needed data arrives,and cell array can be worked on two modes:fixed execution and reconfiguration.On reconfiguration mode,cell function and data flow direction are changed automatically at run time according to contexts.Simultaneously using an H-tree interconnection network,through pre-storing multiple application mapping contexts in reconfiguration buffer,multiple applica-tions can execute concurrently and context switching time is the minimal.For verifying system performance,some algorithms are selected for mapping onto the proposed structure,and the amount of configuration contexts and execution time are recorded for statistical analysis.The results show that the proposed self-reconfigurable mechanism can reduce the number of contexts efficiently,and has a low computing time.
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