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Hauptverfasser: Fabra, Javier, Molina-Giménez, Enrique, García-López, Pedro
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2605.22778
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author Fabra, Javier
Molina-Giménez, Enrique
García-López, Pedro
author_facet Fabra, Javier
Molina-Giménez, Enrique
García-López, Pedro
contents Cloud service platforms increasingly rely on elastic infrastructures to support dynamic workloads. Spot instances provide discounted computing resources but introduce uncertainty due to dynamic pricing, resource availability, and interruption risks that vary across geographical regions. In Amazon Web Services, the EC2 Spot Service simplifies fleet provisioning through allocation strategies, but it cannot estimate fleet costs before deployment and restricts provisioning to a single region. This paper presents an AI-driven provisioning service for multi-region spot fleets. The proposed approach combines monitoring of provisioning plans with predictive models to estimate fleet configurations and prices before launch, enabling cost-aware deployment decisions across regions while preserving the operational behavior of the EC2 Spot Service. The system was validated with fleets of up to 1500 vCPUs. Experimental results show a prediction accuracy of 99.79% compared to the EC2 Spot Service and potential cost savings of up to 64% by exploiting regional price variability.
format Preprint
id arxiv_https___arxiv_org_abs_2605_22778
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle AI-Driven Multi-Region Provisioning for Cloud Services Using Spot Fleets
Fabra, Javier
Molina-Giménez, Enrique
García-López, Pedro
Distributed, Parallel, and Cluster Computing
Cloud service platforms increasingly rely on elastic infrastructures to support dynamic workloads. Spot instances provide discounted computing resources but introduce uncertainty due to dynamic pricing, resource availability, and interruption risks that vary across geographical regions. In Amazon Web Services, the EC2 Spot Service simplifies fleet provisioning through allocation strategies, but it cannot estimate fleet costs before deployment and restricts provisioning to a single region. This paper presents an AI-driven provisioning service for multi-region spot fleets. The proposed approach combines monitoring of provisioning plans with predictive models to estimate fleet configurations and prices before launch, enabling cost-aware deployment decisions across regions while preserving the operational behavior of the EC2 Spot Service. The system was validated with fleets of up to 1500 vCPUs. Experimental results show a prediction accuracy of 99.79% compared to the EC2 Spot Service and potential cost savings of up to 64% by exploiting regional price variability.
title AI-Driven Multi-Region Provisioning for Cloud Services Using Spot Fleets
topic Distributed, Parallel, and Cluster Computing
url https://arxiv.org/abs/2605.22778