Hyperscale data centers have become essential infrastructure for the digital economy, but they consume massive amounts of electrical energy. The environmental impact goes far beyond just power usage - it includes manufacturing processes, shipping logistics, and disposal of old storage equipment. Traditional storage optimization only cared about performance metrics like speed and capacity. Now, sustainability requirements demand new techniques that balance operational efficiency with environmental responsibility. This article presents new techniques for cutting energy use in hyperscale data center storage systems. Three connected strategies are examined. Solid-state drive lifecycle management gets the most out of hardware while reducing environmental waste. This happens through smart purchasing, better operations, and responsible disposal practices. Advanced deduplication and compression technologies create ways to reduce storage capacity needs and energy consumption. They use sophisticated data reduction algorithms. Carbon-aware tiering strategies optimize where data gets placed based on environmental impact. Real-time renewable energy availability data helps minimize carbon footprints. Technical, operational, and organizational considerations are covered in the implementation framework for the successful deployment of sustainable storage solutions. These integrated techniques show significant potential for reducing environmental impact. They maintain operational excellence in contemporary hyperscale computing environments.
Arjun Bhargav Devan (Mon,) studied this question.