Ampace Advances AI Continuity Infrastructure at DCW London 2026

Ampace Revolutionizes AI Continuity Infrastructure at DCW London 2026

During the recent DCW London 2026 event held at Excel London, Ampace introduced groundbreaking advancements in AI continuity infrastructure. As the industry faces unprecedented volatility in power supply systems due to the increasing workloads generated by artificial intelligence, the significance of continuous energy supply becomes paramount, particularly for AI-driven operations.

AI Workloads Create New Challenges

AI workloads are becoming increasingly demanding, which creates notable challenges in data center environments. The pressing necessity for stable and uninterrupted power supply is underscored by several factors, including heightened rack density, quick fluctuations in GPU loads, and escalating thermal constraints. These elements combine to ensure that power supply systems must be exceedingly reliable and capable of adapting swiftly to the fluctuating demands.

At the Ampace booth (Stand C145) at the conference, attendees explored the PU series, a product specifically engineered to handle the frequent load variations characteristic of AI operations. This technology is designed to deliver high throughput capacity with a stable output, ensuring that continuous operational continuity is maintained amid changing computational tasks.

Innovative Features of the PU Series

The PU series stands as a testament to Ampace’s commitment to meeting the extreme energy demands of modern data centers. One of its key innovations is its ability to absorb sudden power spikes while concurrently providing a reliable backup supply. This capability is crucial, especially in scenarios where unpredictable load changes occur, which is typical in AI environments. In addition to powerful performance, the PU series architecture integrates natural cooling solutions to manage thermal pressures, thus maintaining consistent operational performance.

The advancements in this product make it an essential component for data centers where downtime is unacceptable. The design focuses on ensuring a robust, continuous power supply, which is crucial in today's AI-driven landscape.

Enhancing Safety with Innovative Battery Technology

The PU series also emphasizes safety with its semi-solid LFP cell technology that eliminates free electrolyte in the battery structure. This design significantly reduces the risk of leaks and failure mechanisms typically associated with conventional battery technologies. Testing under controlled conditions demonstrated that this semi-solid design can decrease gas emissions from thermal runaway by approximately 58% compared to traditional LFP architectures, thereby enhancing fire safety in high-density rack systems.

With UL 9540A certification, the Ampace system proves its fire propagation resistance through rigorous testing, thereby solidifying its reliability in demanding environments.

Next Steps: Global Expansion in AI Infrastructure

Ampace's role at DCW London extends beyond mere product showcasing; it represents a long-term vision for AI continuity infrastructure. Their solutions are already supporting large-scale AI-centric data centers across various regions, including projects in India, China, Korea, Japan, and Indonesia. These implementations occur in environments characterized by high computing density and strict power continuity requirements, demonstrating Ampace’s adaptability in real-world conditions.

As the demand for reliable power solutions continues to grow in AI-driven data centers worldwide, Ampace remains dedicated to advancing effective, resilient, and scalable energy solutions that meet the evolving challenges of the industry. This commitment encapsulates the essence of what was unveiled at DCW London 2026 and marks a significant step towards the future of AI infrastructure.