Ampace Pioneers AI Continuity Infrastructure at DCW London 2026 Event

Ampace Highlights AI Continuity Infrastructure at DCW London 2026

As artificial intelligence (AI) workloads increase, they introduce unprecedented volatility into the power systems of data centers. At the DCW London 2026 event held at Excel London, Ampace is unveiling their cutting-edge solutions aimed at stabilizing power supply amidst these rapid changes in demand. The company is making a bold statement about the necessity of continuity in energy supply, especially for facilities that are driven by AI technologies.

The Challenges of AI Workloads

AI workloads are not just growing—they're transforming the energy landscape of modern data centers. Higher rack densities are concentrating power demands in tighter spaces, creating a need for systems that can provide reliable power outputs while maintaining optimal performance. Additionally, advances in GPU technology lead to fast and unpredictable load fluctuations that complicate power management further. This scenario presents a significant challenge to operational integrity as facilities must not only absorb sudden spikes in power but also safeguard against outages that could disrupt sensitive operations.

Ampace's Solution: The PU Series

During the exhibition at DCW London 2026, attendees had the opportunity to interact with Ampace's PU Series, a cutting-edge solution designed specifically for the erratic load patterns presented by AI workloads. This system is engineered to deliver high capacity and stable output at the cabinet level, ensuring that facilities can maintain operational continuity even under dynamic workloads. The architectural design of the PU Series allows for natural cooling of its modules, which helps data centers manage rising ambient temperatures and sustained computational loads without sacrificing performance.

The increasing thermal pressure from high computational workloads presents another layer of challenge for data centers. Ampace's innovative solution seeks to meet these demands head-on, providing essential support for managing energy performance in environments where downtime is no longer an option.

Safety First: The Semisolid LFP Cells

Ampace’s semisolid Lithium Iron Phosphate (LFP) cells mark a significant safety advancement for high-density rack environments. The technology employs a unique design that eliminates free electrolyte within the cell structure, reducing leak paths and thus minimizing the risk of safety failures over time.

In controlled testing environments, Ampace’s semisolid cells demonstrated approximately a 58% reduction in thermal gas release compared to conventional LFP architectures under similar conditions. This innovation not only augments thermal stability but also mitigates the potential for fire risks associated with high-density rack setups. Additionally, the system has earned UL 9540A certification, validating its fire safety resistance through standardized large-scale testing.

A Vision for the Future

Ampace’s commitment extends beyond a mere product launch at DCW London 2026. The company is establishing the AI continuity infrastructure as a long-term framework for addressing the evolving power needs of data centers globally. Their solutions are already in use in large-scale AI-focused data centers across various regions, including India, China, Korea, Japan, and Indonesia. These deployments cater to environments characterized by high computational demands, elevated thermal conditions, and strict continuity energy requirements, showcasing Ampace's reliability and adaptability under real operational pressure.

Conclusion

As Ampace continues to expand its global footprint in AI continuity infrastructure, it remains dedicated to delivering advanced, resilient, and scalable energy solutions. Their aim is to ensure the evolving landscape of AI-powered data centers can reliably meet peak demands while maintaining operational safety and efficiency. As seen at DCW London 2026, Ampace’s innovations signify a critical step forward in addressing the unique energy challenges posed by this rapidly advancing sector.