TI unveils complete 800 VDC power architecture for future generation AI data centers with NVIDIA

Published

TI's complete power solution includes multiple breakthrough reference designs with industry-leading specification

News highlights:

  • TI has developed a complete 800 VDC power solution for future generation AI data centers with NVIDIA
  • As part of this collaboration, TI is demonstrating a power architecture requiring only two conversion stages from 800V to processor power
  • TI will demonstrate its 800 VDC power solution at NVIDIA GTC 2026

DALLAS, March 16, 2026 /PRNewswire/ -- Texas Instruments (NASDAQ: TXN) today unveiled a complete 800V direct current (DC) power architecture for next-generation AI data centers built with the NVIDIA 800 VDC reference design. The solution will be showcased at NVIDIA GTC, March 16-19, 2026, at NVIDIA's power architecture display and TI's booth 169, demonstrating how TI's analog and embedded processing technology supports NVIDIA's vision for advancing high-voltage systems in AI data centers.

TI's 800 VDC power architecture maximizes conversion efficiency and power density across the entire power path, enabling more scalable and reliable AI data center operations.

"The exponential growth of AI computing demands a fundamental rethinking of how we deliver power in data centers," said Kannan Soundarapandian, vice president and general manager of high-voltage power at TI. "Our advanced 800 VDC architecture represents a critical breakthrough that enables data center operators to meet today's power challenges while preparing for tomorrow's AI workloads. By collaborating with NVIDIA, we're helping accelerate the deployment of AI infrastructure that can scale efficiently and reliably."

Addressing critical power challenges in AI infrastructureAs AI workloads continue to drive unprecedented power requirements in data centers, traditional power distribution architectures are reaching their limits. TI's 800 VDC architecture addresses these challenges by maximizing conversion efficiency and power density across the entire power path, simplifying the power architecture and enabling more scalable and reliable AI data center operations.

TI's breakthrough approach requires only two conversion stages from 800V to GPU core power: compact 800V to 6V isolated bus converter with higher peak efficiency, followed by a 6V to

The views and opinions expressed herein are the views and opinions of the author and do not necessarily reflect those of Nasdaq, Inc.

In This Story

TXN