Abstract
In FPGA-based control system design, partial reconfiguration is especially well suited to implement preemptive systems. In real-time systems, the deadline for critical task can compel the preemption of noncritical one. Besides, an asynchronous event can demand immediate attention and, then, force launching a reconfiguration process for high-priority task implementation. If the asynchronous event is previously scheduled, an explicit activation of the reconfiguration process is performed. If the event cannot be previously programmed, such as in dynamically scheduled systems, an implicit activation to the reconfiguration process is demanded. This paper provides a hardware-based approach to explicit and implicit activation of the partial reconfiguration process in dynamically reconfigurable SoCs and includes all the necessary tasks to cope with this issue. Furthermore, the reconfiguration service introduced in this work allows remote invocation of the reconfiguration process and then the remote integration of off-chip components. A model that offers component location transparency is also presented to enhance and facilitate system integration.
Highlights
FPGAs are used increasingly in control applications
Some FPGAs offer the ability to reconfigure some of its architecture at runtime without stopping the entire system, which increases their potential for use in control applications, especially for critical systems
A component designed to manage off-chip communication adapting different communication protocols was presented to facilitate the remote activation of the reconfiguration process
Summary
FPGAs are used increasingly in control applications. Their processing power, reconfiguration facility, and short design time have made them very suitable for this kind of applications. In the case of tasks that are executed only under certain conditions, these tasks are candidates to be implemented in the reconfigurable area, in order to be instantiated only when required In this way, it is possible to save resources avoiding components that work sporadically being permanently implemented in the static part of the FPGA.
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