MiTAC Computing Technology Corporation, a leading server platform designer, and Belgian renewable energy innovator Tonomia have signed a Memorandum of Understanding (MOU) to establish a strategic partnership aimed at delivering sustainable AI infrastructure. The agreement was formalized during the Belgian Economic Mission to the U.S. West Coast, attended by dignitaries and HRH Princess Astrid.
The partnership combines MiTAC’s advanced GPU server platforms with Tonomia’s renewable energy solutions to create low-carbon, high-performance AI clusters. This initiative targets global enterprises seeking scalable, eco-friendly computing solutions.
Operational Details
Tonomia’s modular approach integrates solar carports, on-site battery storage, and distributed AI infrastructure. Underutilized spaces like parking lots are converted into clean energy hubs, powering AI workloads while utilizing waste heat for greater efficiency. MiTAC contributes GPU servers and advanced computing platforms optimized for HPC, AI, and cloud applications.
Community and Environmental Impact
By reducing the environmental footprint of energy-intensive AI operations, this collaboration addresses the growing demand for sustainable, high-performance computing. It benefits building owners and operators with optimized grid support and efficient energy use, while providing enterprises with powerful AI capabilities on a clean energy foundation.
Strategic Significance
“This partnership demonstrates MiTAC’s commitment to open innovation and practical sustainability in data centers,” said Rick Hwang, President of MiTAC Computing Technology. Dr. Mustapha Belhabib, CEO of Tonomia, added that the collaboration enables deployment of GPU-enabled AI clusters powered entirely by renewable energy.
About MiTAC Computing Technology Corporation
A subsidiary of MiTAC Holdings, MiTAC Computing specializes in energy-efficient servers and integrated AI, HPC, cloud, and edge computing solutions. With global R&D, manufacturing, and support capabilities, MiTAC empowers businesses with scalable, high-performance platforms optimized for sustainability.
