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Please use this identifier to cite or link to this item: https://repository.esi-sba.dz/jspui/handle/123456789/909
Title: Green Information Systems: An Integrated Approach for Energy Scoring and Power Consumption Optimization
Authors: OUCHENE, CHakib
Keywords: Green IT
Information System
Eco-Scoring
Optimization of Energy
Lifecycle
Green Datacenters
Sustainability
Issue Date: 2025
Abstract: In a context where ecological transition has become a major priority, optimizing the energy consumption of data centers and information systems (IS) has emerged as a critical challenge. These infrastructures, which integrate servers, storage, networking, and cooling systems consume an increasing share of global electricity and contribute significantly to the digital carbon footprint. This work proposes an integrated methodology for evaluating and optimizing the energy performance of information systems, leveraging the information system cartography platform developed by Uncia SAS. The approach is structured around two complementary dimensions: • Evaluation and energy scoring: calculation of a global score for energy consumption and carbon impact, based on the assessment of IS components (servers, applications). This scoring identifies the most energy-intensive elements and positions the overall system on an efficiency scale. • Optimization and sustainability: beyond evaluation, the methodology integrates optimization strategies covering the entire lifecycle of infrastructures (manufacturing, usage, end-of-life). It includes right-sizing of IT resources, workload management, optimized hardware configurations, adoption of low-carbon energy sources, and site selection guided by Power Usage Effectiveness (PUE) and Carbon Usage Effectiveness (CUE). The objective is to provide organizations with a decision-support tool that aligns their digital strategy with Green IT principles. By delivering clear and actionable insights into the energy and carbon footprint of applications, this methodology offers practical recommendations to reduce consumption, improve efficiency, and minimize environmental impact, while ensuring performance, availability, and security.
Description: Encadreur : M. MALKI Abdelhamid Encadreur : M. ELKHOUROUJ Rayhane
URI: https://repository.esi-sba.dz/jspui/handle/123456789/909
Appears in Collections:Ingénieur

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