Why an Intelligent HVDC Architecture is the Future of Data Center Power?
AI is reshaping data center demands—from power density to deployment speed. Our Intelligent High-voltage DC (HVDC) architecture provides a faster, cleaner, more scalable and future-proof path forward.
Grid Independence
Deploy Without the Wait
Grid bottlenecks and equipment delays are stalling new builds. With DC microgrids and on-site generation, you can launch operations before utility interconnection — accelerating time to market and enhancing resilience.
Power Density Ready
Built for Megawatt-Scale Loads
AI racks are pushing beyond 120kW. HVDC distribution supports ultra-dense compute without the bulk or loss of AC conversion —cutting I²R losses and enabling smarter cooling strategies.
Efficient by Design
Less Energy. Less Water.
By reducing unnecessary conversions and heat, DC systems lower cooling demands. In water-scarce regions, this means minimal reliance on evaporative cooling — saving both energy and resources.
What’s Changing?
Rethinking Modern Data Centers from the Ground Up
The push to pack more GPU processors into smaller spaces is driving an increase in power demand at the rack level, expected to be 6 to 10 times higher than what we see today in the next 2 to 5 years.
Traditional methods, relying on personal experience and trial-and-error with hardware, can no longer keep pace with these growing power needs. A faster development cycle is critical to support these rapid technological advancements, and power system timelines must be shortened.
Ennovria understands these challenges and, leveraging the expertise of both seasoned power design engineers and software developers, focuses on creating power systems for data centers and high-performance computing platforms.
Our approach centers on developing software and simulation models to rapidly design and iterate virtual solutions. By leveraging Power Hardware-in-the-Loop (PHIL) techniques, we create a Digital Twin that allows us to test and validate these designs using real power electronic devices. This process significantly reduces the need for time-consuming hardware prototyping and testing.
As a result, by the time we move to physical system construction, we already have a clear understanding of its expected performance.
This enables rapid adaptation to evolving requirements, allowing for the swift deployment of new solutions without starting from scratch each time.
Our Intelligent HVDC datacenter power architecture is designed for maximum uptime through a highly redundant and resilient system, featuring modular components, source independence, rapid transient response, advanced controls, robust protections, and optimized performance.
Native DC for Native Loads
GPUs and batteries, plus some energy sources and chillers, operate in DC — so why force them through AC conversion chains? With HVDC, you simplify power flow, cut losses, and unlock end-to-end efficiency.
Safer, Smarter Protection
New DC designs use solid-state breakers and modular protection systems to safely manage high-voltage loads. The future is fast, fault-tolerant, fully engineered for reliability, and mostly, controllable with software.
Redefine Your Infrastructure
Whether you're building your next hyperscale facility or upgrading for AI-readiness, DC architecture is your foundation for performance, resilience, and sustainability.