Ampace Advances AI Continuity Infrastructure for Data Centers at DCW London 2026

Ampace is set to showcase its innovative AI continuity infrastructure at the DCW London 2026 event, taking place at Excel London. With the increasing complexity of the workloads generated by artificial intelligence, data centers today face unprecedented challenges concerning power supply continuity. Factors such as higher rack densities, rapid fluctuations in GPU loads, and rising thermal demands necessitate more advanced solutions to ensure the stability and reliability of power systems.

The Challenge of AI Workloads

AI workloads create significant volatility in data center power systems. As these workloads become more intensive, they demand greater energy supplies packed into smaller spaces. This concentration of power requirements necessitates compact systems that can deliver consistent performance without compromising reliability. Moreover, GPU clusters can introduce unpredictable spikes in power demand, leaving conventional power supply systems struggling to maintain a constant backup capacity during these fluctuations.

As machinery heats up with increased ambient temperatures and sustained computing loads, the resilience of these systems is put to the test. However, the PU Series from Ampace is engineered to tackle these challenges head-on. Designed specifically to handle frequent load swings, this series stabilizes peak power demands while maintaining operational integrity under dynamically changing workloads.

Ampace's PU Series Solutions

At DCW London, visitors can engage with the PU Series, a revolutionary power supply solution tailored for the volatilities inherent in AI workloads. This series not only showcases high-performance capabilities but also ensures stable power delivery at the cabinet level, vital for continuity amidst fluctuating AI workloads. One of the key features included in the PU Series is its semi-solid Lithium Iron Phosphate (LFP) cell technology.

The semi-solid LFP technology eliminates free electrolytes within the cell structure, significantly reducing the chances of leakage over the product lifecycle. This design drastically minimizes isolation-related failure mechanisms compared to traditional LFP architecture. Controlled tests have shown that this innovative design results in approximately 58% less thermal gas release under similar conditions, thereby enhancing thermal stability and mitigating fire risks in high-density rack systems.

This system has received UL 9540A certification, which confirms its ability to withstand fire spread through standardized large-scale tests. Besides improving safety, the semi-solid structure also contributes to longer lifespan and higher operational reliability—critical attributes for AI data centers running under continuous high-load conditions.

Looking Ahead: Global Expansion of AI Continuity Infrastructure

At DCW London 2026, it’s clear that the AI continuity infrastructure from Ampace is not just a product launch; it represents a comprehensive framework designed to meet evolving technological demands. The approach focuses on stable dynamic responses, thermal resilience, and intrinsic safety, setting the foundation for Ampace’s energy solutions for AI-driven data centers.

Currently, Ampace's solutions are already operational in large-scale, AI-heavy data centers across various regions, including India, China, Korea, Japan, and Indonesia. These installations exemplify how Ampace systems adapt and perform under real-world conditions characterized by high computational density and strict power continuity requirements.

Looking forward, Ampace seeks to expand its AI continuity infrastructure significantly, aiming to provide even more advanced, resilient, and scalable power solutions tailored to the rapidly transforming landscape of AI data centers worldwide.