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Paper detail

Dependency-aware Resource Allocation for Serverless Functions at the Edge

Serverless computing allows developers to break their code into small components, known as functions, which are automatically managed by a service provider. Being lightweight and modular, serverless functions have been increasingly employed in edge computing, where quick responses and adaptability are key to meeting strict latency requirements. In particular, edge nodes are intrinsically resource-constrained, and efficient resource allocation strategies are crucial for optimizing their usage. Different approaches exist in the literature, but they often overlook the dependencies among functions, that is, how and when functions invoke other functions, obtaining suboptimal results. This paper presents NEPTUNE+, a dependency-aware resource (CPU cores) allocation solution for serverless functions deployed at the edge. The approach extends NEPTUNE, an existing framework for managing edge infrastructures, with a new theoretical model and control algorithm that take dependencies into account function. We evaluated NEPTUNE+ by using three applications and it is able to allocate up to 42% fewer cores compared to NEPTUNE.

preprint2023arXivOpen access
Luciano BaresiGiovanni QuattrocchiInacio Ticongolo
Distributed, Parallel, and Cluster Computing
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Luciano BaresiGiovanni QuattrocchiInacio Ticongolo

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