The summit brought together more than 300 industry experts from around the world, focusing on the transformation of power supply technologies for AIDC. Against the backdrop of the global energy transition, discussions centered on pathways for integrating green energy, as well as the application of emerging energy technologies—such as hydrogen energy, energy storage, and nuclear power—in AIDC environments. Innovative technologies including distributed power supply, high-voltage direct current (HVDC), AI-driven optimization, and coordinated power supply systems emerged as key highlights, collectively outlining a new energy blueprint for the intelligent computing era.

As AI computing power demand continues to grow exponentially, traditional power supply architectures are approaching their physical limits. During discussions on technological transformations in key AIDC power supply systems, Huang Yinfang, General Manager of the Technology Systems Division at Nader, shared insights into the evolution of HVDC distribution solutions and the technical advantages of Solid-State Transformers (SSTs).

Mr. Huang noted that the increasing density of AIDC facilities clearly positions DC power distribution as a major trend, with its core advantage being significant reductions in busbar usage. However, large-scale adoption still faces uncertainties, including the maturity of standards and challenges related to DC interruption and arc extinguishing. Only through collaborative design and joint innovation across the entire industry value chain, along with collective evaluation of technological pathways, can system-level optimization be achieved—transforming a clear directional trend into mature, reliable solutions.
 

Faced with the industry consensus that "the limit of AI is computing power, and the limit of computing power is electricity," in recent years, Nader has focused on the core concept of “compute-electricity synergy”, leveraging technological innovation and strategic planning to address the trends of high-density, green, and intelligent systems.

Against this backdrop, we have developed solid-state circuit breakers—the new AIDC800V architecture solid-state solution. This solution offers intelligent management, high reliability, stringent breaking capacity, and low maintenance costs, providing ultimate protection for modern power distribution systems while supporting efficient energy utilization and safe operation.
 

Building an Innovation Ecosystem: Nader has established the “Two Intelligences, One Innovation” strategy, positioning intelligent power distribution as its core development focus and driving the transformation from a component supplier to a comprehensive provider of intelligent solutions.

The company has established the Xi’an Research Institute to strengthen capabilities in power electronics systems and software development. In addition, Nader has engaged in deep research collaborations with multiple universities, including Shanghai Jiao Tong University and Xi’an Jiao Tong University, leveraging academic and research platforms to continuously advance technological breakthroughs in key products such as DC circuit breakers and solid-state circuit breakers.
 

As computing centers shift from merely enhancing computing power to achieving green and efficient operations, Nader will continue to focus on technological innovation and the practical application of breakthroughs in the AIDC field, providing reliable support for its high-quality development.