In this paper, we introduce a new model for the representation of distributed asynchronous implementations of synchronous specifications. The model covers classical implementations, where a notion of global synchronization is preserved by means of signaling, and globally asynchronous, locally synchronous (GALS) implementations where the global clock is removed. The new model offers a unified framework for reasoning about two essential correctness properties of an implementation: the preservation of semantics and the absence of deadlocks. We use it to derive criteria ensuring the correct deployment of synchronous specifications over GALS architectures. As the model captures the internal concurrency of the synchronous specification, our criteria support implementations that are less constrained and more efficient than existing ones. Our work also reveals strong ties between abstract semantics-preservation properties and more operational ones like the absence of deadlocks.
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