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SchneiderAnnounces New Solutions to Address the Energy and Sustainability Challenges Spurred by AI
Schneider Electric, the leader in the digital transformation of energy management and automation, has today accelerated its end-to-end AI-ready data center solutions with new announcements that address the urgent energy and sustainability challenges driven by high demand for AI systems.
Latest announcements bolster company’s mission to decarbonize digital infrastructure, while enabling customers to deploy more sustainable, AI-ready data center solutions anywhere, at scale.
The first part of the announcement is a new data center reference design, co-developed with NVIDIA, which will support liquid-cooled, high-density AI clusters of up to 132 kW per rack. Optimized for NVIDIA’s GB200 NVL72 and Blackwell chips, the design streamlines planning and deployment with proven, validated architectures, addressing the unique challenges of utilizing liquid cooling at-scale.
Additionally, Schneider Electric has today introduced its new Galaxy VXL uninterruptible power supply (UPS), the industry’s most compact, high-density UPS designed for AI, data center, and large-scale electrical workloads. Galaxy VXL UPS offers 52 percent space savings compared with the industry average, and with a power density of up to 1042 kW/m², this scalable, 1.25 MW modular UPS is designed to deliver more efficient power in a smaller, high-density footprint.
Both innovations form part of Schneider Electric’s end-to-end, AI-ready data center solutions, which focus on three key areas including developing an energy strategy for the AI era; deploying advanced infrastructure; and sustainability consulting. They seek to benefit data center owners and operators as they deploy energy efficient, high-density infrastructure to support AI workloads as sustainably as possible.
Executive Vice President, Data Centers & Networks at Schneider Electric, Pankaj Sharma, said, “The energy and environmental impact of AI is growing at unprecedented pace, and it’s paramount we bend the energy curve downward by finding new ways to decarbonize data centers and the digital infrastructure. At Schneider Electric, we are committed to pushing boundaries, setting new standards, and shaping the future of AI, whilst protecting the environment. This requires a strategic approach from the grid to the chip, to the chiller, and beyond.”
Schneider Electric’s newest data center reference design has been co-developed with NVIDIA to support liquid-cooled, AI clusters, while addressing the unique challenges of deploying liquid cooling within hyperscale, colocation and enterprise data center environments.
Building on the companies’ partnership, the reference design includes options for liquid-to-liquid Coolant Distribution Units (CDUs) and direct-to-chip liquid cooling, and shares comprehensive mechanical and electrical plans to ensure more energy efficient and sustainable operations for the AI data centers of the future.
Developed using Schneider Electric’s software tools including Ecodial and EcoStruxure™ IT Design CFD, the design can be customized to meet specific requirements of the AI workload, while helping users to leverage the most sustainable and energy efficient infrastructure designs for high-density applications.
Founder and CEO of NVIDIA, Jensen Huang, said, “Building the future of accelerated computing and AI requires speed and a bedrock foundation. Our work with Schneider Electric enables customers to design the world’s technological advances on stable and resilient infrastructure. Together, we’re creating AI data centers that are purpose-built for accelerated computing, supporting complex architectures that are essential to deliver digital intelligence to every company and industry.”
The announcements made at today’s virtual event bolster Schneider Electric’s commitments to creating comprehensive, sustainable, and end-to-end AI-ready data center solutions, helping customers to decarbonize their digital infrastructure anywhere, globally.
Schneider Electric supports companies in securing renewable energy and optimizing on-site power generation with diverse sources like wind, solar, and hydrogen. It provides services such as site selection and geographical analysis based on customers’ deployment plans and enables on-site power generation through AlphaStruxure, which ensures speed to market, reliability, resilience, and sustainability of chosen power sources.
Schneider Electric has developed a comprehensive portfolio of high-density, energy-efficient infrastructure systems for a host of AI requirements exceeding 100kW per rack. This includes data center infrastructure components from grid-to-chip and chip-to-chiller, AI-powered remote monitoring and energy management software, and digital services for lifecycle optimization.
Schneider Electric’s new Galaxy VXL UPS, announced today, is the latest addition to the company’s end-to-end, advanced infrastructure portfolio. For the first time, this new UPS provides customers 1.25mw scalable and modular solution with 125kw/3U power modules in 1.2m2 footprint, while being capable of supporting up to 1.25 MW of critical load in one frame and up to 5 MW with 4 units in parallel in only 4.8 M2 space.
Additionally, to address the increased temperatures of high-density workloads, Schneider Electric recently signed an agreement to acquire a majority stake in the Motivair Corporation, enhancing its liquid cooling portfolio and strengthening its expertise in direct-to-chip liquid cooling and high-capacity thermal solutions.
Schneider Electric’s Sustainability Consulting business helps customers exceed decarbonization goals via tailored sustainability strategies, emissions assessments, and supplier engagement programs. These global consulting services offer customers data-driven insights via EcoStruxure Resource Advisor, and are supported by 2,400 experts in 100+ countries.
Schneider Electric also advocates for a science-based approach to ‘bend the curve’ of energy consumption. Central to this approach is employing ‘energy intelligence for sustainable AI’. Schneider Electric believes this can be achieved by integrating data center infrastructure with AI-driven applications.
This way, industries can not only mitigate AI’s energy footprint but also use AI monitoring capabilities and insights as tools for broader decarbonization efforts. Achieving this vision requires a united commitment to deploying sustainable solutions and leveraging AI’s potential to drive efficiency across all sectors.
Commenting Research Director, Cloud to Edge Datacenter Trends, IDC, Sean Graham, said, “By 2027, data center electricity consumption is projected to account for 2.5 percent of global demand, with the remaining 97.5 percent spread across industries such as buildings, manufacturing, transportation, and energy.
“While data centers pursue their own net-zero goals amid unprecedented growth, the real sustainability promise lies in leveraging AI to decarbonize entire value chains across industries. As Schneider Electric and NVIDIA have demonstrated, long-term collaboration and innovation are essential to driving efficiency and sustainability.”