TLDR
- Vertiv & NVIDIA power the AI era with 800V DC next-gen data centers.
- Vertiv redefines AI infrastructure using high-voltage 800V DC power.
- Powering the AI future: Vertiv unveils scalable 800V DC data systems.
- Vertiv’s 800V DC leap sets new standards for AI data center efficiency.
- Vertiv and NVIDIA advance 800V DC design to fuel AI factory growth.
Vertiv Holdings Co. (NYSE: VRT) advanced 5.91% to close at $179.00, gaining an additional 0.84% in after-hours trading.
The company announced a significant milestone in its collaboration with NVIDIA to accelerate next-generation AI factories using an 800 VDC power architecture. This milestone marks Vertiv’s progression from concept to engineering readiness as it prepares for large-scale deployment by 2026.
Driving AI Infrastructure Transformation
Vertiv is redefining power distribution in data centers to meet the demands of modern AI workloads. Traditional 54 VDC systems are inadequate for megawatt-scale computing, prompting Vertiv to introduce scalable 800 VDC power solutions. The company is integrating energy storage directly into these architectures to enhance stability and efficiency.
This shift supports NVIDIA’s AI factory blueprint, designed to synchronize thousands of GPUs for large-scale, high-performance computing. By aligning with NVIDIA’s platform rollout strategy, Vertiv aims to provide the critical power foundation for future AI infrastructure. This partnership ensures both scalability and energy efficiency across emerging compute environments.
Vertiv’s approach focuses on delivering system-level power solutions with centralized rectifiers and high-efficiency DC busways. These innovations are built to handle megawatt-scale rack power demands. The move demonstrates Vertiv’s deep expertise in DC architectures and its readiness to support industrial-scale AI deployment.
The Rise of 800 VDC Power Systems
The 800 VDC architecture offers a simpler, more efficient power distribution path compared to conventional AC systems. It allows data centers to reduce conversion losses and optimize power delivery at scale. By eliminating multiple conversion stages, it improves efficiency and minimizes heat generation across the power chain.
This design also significantly reduces copper use and installation costs by carrying more power through fewer conductors. The streamlined setup minimizes complexity while increasing reliability and safety in high-density computing environments. The concept draws inspiration from the electric vehicle and solar industries, which already use 800 VDC for efficiency and density.
Vertiv plans to deploy these solutions globally, reinforcing its position as a trusted partner in power infrastructure. Its engineering teams are validating designs through ongoing AI factory projects. These efforts are shaping a new standard for next-generation data center architecture.
Building Resilience with Energy Storage Integration
To manage the volatility of synchronized GPU workloads, Vertiv’s system integrates multi-timescale energy storage. This approach balances rapid load swings and stabilizes power delivery in AI factories. It also reduces grid instability caused by sudden fluctuations in power demand.
Short-duration storage using capacitors manages millisecond-scale spikes near compute racks, while battery systems handle larger load transitions. Together, they create a smooth and reliable power environment optimized for intensive AI workloads. The combination of high-voltage DC and layered storage ensures efficiency without sacrificing stability.
Vertiv’s design readiness underscores its commitment to operational safety and serviceability. Backed by over 4,000 field engineers, the company provides consistent support for critical AI infrastructure worldwide. The 800 VDC platform thus represents a pivotal advancement in powering the next generation of AI-driven data centers.
