Abstract
Reconfigurable devices, such as FPGAs, have been known to offer an excellent performance and a high efficiency in computation. Due to their improving capacity and more efficient architecture recently, there are growing interests in using FPGAs as coprocessors in reconfigurable systems. However, FPGAs still lack the support in dynamic scheduling, e.g. to manage multiple tasks or users in a system. Performing runtime task relocation or load distribution is not possible unless the reconfigurable system supports dynamic task migration. Such ability requires the automation of configuration and context management in reconfigurable architecture, which is not available in the existing solutions.
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