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Huawei's Next-Generation Innovations in Site Power and AI Data Centers

During the Mobile World Congress (MWC) held in Barcelona from March 3 to 6, 2025, Huawei's He Bo, President of the Data Center Facility & Critical Power Product Line, unveiled a groundbreaking architecture for site power installations known as Single SitePower. This announcement is pivotal as it introduces advanced guidelines aimed at constructing AI Data Centers, designed to meet the increasing demands of today’s digital landscape.

Addressing Evolving Energy Needs

In his presentation, He Bo emphasized the rapidly growing need for innovative architectures centered around data centers, particularly in the context of emerging AI technologies. He noted that digital and intelligent energy demands are rising sharply, necessitating a shift in how operators manage energy. As such, Huawei's mission is to empower these operators to evolve into “prosumer” energy providers, effectively managing their energy production and consumption.

What is Single SitePower?

The Single SitePower architecture represents a significant evolution in the design of power installations, integrating a unique three-level synergy mechanism among site power installations, wireless networks, and electrical networks. This design enables a bi-directional flow of energy and information throughout the entire process—from the energy source, through the network, to storage. The architecture maximizes energy efficiency and availability, while also minimizing the carbon intensity of the network.

Key Features of Single SitePower

1. Resilience: By incorporating wireless networks and on-site electrical installations, Single SitePower achieves synergy between energy sources, storage, and loads, thereby creating resilient energy infrastructures.

2. Eco-Friendliness: Utilization of advanced technologies, such as high-voltage series connections and intelligent algorithms, enables the construction of sustainable installations that capitalize on the value of green energy.

3. Reliability: Huawei prioritizes high-quality lithium batteries is necessary for ensuring effective and dependable communication within the energy network.

RASTM Guidelines for AI Data Centers

Transitioning from traditional computing to AI-driven processes introduces several challenges for data centers, including reliability and electricity demand. In response, Huawei has crafted the RASTM guidelines: Reliable, Agile, Sustainable, and Transformed objectives that address these challenges.

• - Reliable: The increasing value placed on AI installations makes their reliability a priority. AI data centers must adopt advanced architecture and management techniques to sustain reliability throughout their lifecycle.
• - Agile: Flexibility is vital in responding to the evolving demands of AI computing, necessitating modular designs that allow for rapid adjustments and deployments.
• - Sustainable: Enhancing energy efficiency must transition from focusing on individual device performance to a holistic system approach, implementing super-economical operational modes to maximize efficiency.

Commitment to Innovation and Sustainability

He Bo concluded his remarks by underscoring Huawei’s commitment to technological innovation that fosters deeper integration of digital technologies, low-carbon emissions, and effective energy solutions. Huawei’s vision encapsulates a transition where operators shift from being mere consumers of energy to becoming active prosumers within the energy ecosystem.

At the MWC 2025, Huawei exhibited its latest products and solutions at booth 1H50 in Hall 1 of the Fira Gran Via, reinforcing its ambition to assist operators worldwide in navigating the swift transformation towards intelligent environments.

To stay updated on Huawei's initiatives and innovations, visit Huawei's Event Page.