Vena Energy (VENA) and Quantum Mesh Inc. Quantum Mesh has signed a Memorandum of Understanding (MOU) for a partnership. They plan to develop scalable edge-green AI infrastructure in Japan. Under this agreement, future next-generation edge data centers will share space with or get some power from VENA’s renewable energy projects. This will support sustainable, high-performance computing and help with Japan’s digital transformation.
The rise of artificial intelligence (AI) and AIoT (AI-powered Internet of Things) is boosting the global need for secure, energy-efficient green data centers. VENA and Quantum Mesh will work together to evaluate a set of edge-green AI infrastructure projects. They will use VENA’s strong background in building and running big energy and data center projects. Also, they will combine this with Quantum Mesh’s advanced technology. Quantum Mesh’s own immersion cooling tech boosts efficiency for computing. It will be essential for energy and computing solutions in future edge data centers.
This initiative will help build a secure, stable, and scalable digital infrastructure. It will strengthen Japan’s solid regulatory framework and data protection standards. Also, it shows Japan’s ongoing commitment to tech innovation. The project positions Japan to emerge as a leading AI computing hub in the region.
VENA is a leading developer and operator of green AI infrastructure. Their portfolio includes about 40GW of green energy projects and 1GW of data centers. These projects are at different stages. Some are operational, while others are under construction or in development. They are located throughout the Asia-Pacific region. VENA leverages its expertise in green energy and infrastructure. It supports low-carbon, high-efficiency AI computing. This aligns with Japan’s energy shift and AI-focused economy.
Quantum Mesh focuses on creating and running portable edge data centers. They provide secure data protection and advanced computing power. The company’s unique immersion cooling technology cuts energy use. It also makes better use of space than traditional air-cooled systems. This fresh approach improves computing efficiency, sustainability, and security. It sets up an ideal space for high-performance AI applications.
