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Staged event-driven architecture

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The staged event-driven architecture (SEDA) refers to an approach to software architecture that decomposes a complex, event-driven application into a set of stages connected by queues.[1] It avoids the high overhead associated with thread-based concurrency models (i.e. locking, unlocking, and polling for locks), and decouples event and thread scheduling from application logic. By performing admission control on each event queue, the service can be well-conditioned to load, preventing resources from being overcommitted when demand exceeds service capacity.

SEDA employs dynamic control to automatically tune runtime parameters (such as the scheduling parameters of each stage) as well as to manage load (like performing adaptive load shedding). Decomposing services into a set of stages also enables modularity and code reuse, as well as the development of debugging tools for complex event-driven applications.

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References

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  1. ^ "An Architecture for Highly Concurrent, Well-Conditioned Internet Services" (PDF). University of California at Berkeley. Archived from the original (PDF) on 2012-07-04. Retrieved 2023-03-02. By partitioning an application into a set of stages with explicit queues between them, application designers can focus on the service logic and concurrency management for individual stages, "plugging" them together into a complete service later. Queues decouple the execution of each stage, allowing stages to be developed independently..

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