Litcius/Paper detail

Carbon-Aware Spatio-Temporal Workload Shifting in Edge–Cloud Environments: A Review and Novel Algorithm

Nasir Asadov, Vlad C. Coroamă, Matteo Franzil, Stefano Galantino, Matthias Finkbeiner

2025Sustainability12 citationsDOIOpen Access PDF

Abstract

Due to its rising carbon footprint, new paradigms for carbon-efficient computing are needed. For distributed computing systems, one option is to shift computing loads in space or time to take advantage of low-carbon electricity, a paradigm known as carbon-aware computing. We present a literature review of carbon-aware scheduling techniques, which shows that most of the literature carried out either spatial or temporal shifting but not both. Of the 28 analyzed studies, 11 considered both spatial and temporal shifting, and only 2 developed a combined optimization algorithm. Additionally, existing approaches typically focus on operational electricity alone. With the growing decarbonization of electricity, however, device production (which involves various industrial processes and cannot be easily decarbonized) is bound to become more relevant and needs to be considered. We thus suggest a novel spatio-temporal scheduling algorithm for cloud and edge computing. Our algorithm performs simultaneous spatio-temporal shifting while taking into consideration both device production and operation. As temporal shifting requires forecasts of future workloads, we also put forward a workload predictor. Although not fully implemented yet, we bring various theoretical arguments in support of our proposed algorithm.

Topics & Concepts

Cloud computingWorkloadEnhanced Data Rates for GSM EvolutionComputer scienceCarbon fibersAlgorithmDistributed computingArtificial intelligenceOperating systemComposite numberCloud Computing and Resource ManagementIoT and Edge/Fog ComputingDistributed and Parallel Computing Systems