NVIDIA DGX H200

The World’s Proven Choice for Enterprise AI Factories

^{Expand the frontiers of business innovation and optimization with NVIDIA DGX™ H200. Part of the NVIDIA DGX platform, DGX H200 is the AI powerhouse that’s the foundation of NVIDIA DGX SuperPOD™ and NVIDIA DGX BasePOD™, accelerated by the groundbreaking performance of the NVIDIA H200 Tensor Core GPU.}

Our DGX systems with NVIDIA Hopper architecture are powering the next generation of AI-enabled digital advertisement. We are using DGX systems to create AI-produced digital ads, including celebrity avatars, fully utilizing generative AI and LLM technologies.

— Takahito Naito, Managing Executive Officer, CyberAgent, Inc.

DGX systems with NVIDIA Hopper architecture are powering our collaborative research tackling grand challenges in climate science, sustainability, and microelectronics. The systems are enabling Oregon State University to drive innovation, solutions, entrepreneurship, and partnerships with industry and other higher education institutions to benefit Oregon, the nation, and the world.

— Edward Feser, Provost and Executive Vice President, Oregon State University

Frequently Asked Questions

What is the typical lead time for gas turbine overhaul services?

The lead time for gas turbine overhaul services ranges from 6 to 14 weeks, depending on the damage assessment, parts availability, and whether hot-section repairs are required. Expedited options may reduce this by 30%.
Do you provide customizations for legacy turbine control systems?

Yes, we retrofit legacy systems (e.g., GE Frame 5, Siemens V94.2) with modern digital controllers, typically completing hardware integration within 4-8 weeks. Software migration requires additional validation time.
How often should industrial gas turbines undergo performance testing?

We recommend annual performance testing under ISO 3977-2 standards. Critical applications (e.g., offshore platforms) may require semi-annual tests with emissions compliance checks.
Are your radiation-hardened (rad-hard) semiconductors compliant with MIL-PRF-38535?

All rad-hard devices (e.g., FPGA, ADC) are QML Class V certified under MIL-PRF-38535 and tested to MIL-STD-883 Method 1019 for SEU tolerance. Full qualification reports are available upon request.
What temperature ranges do your military-grade ICs support?

Our ASICs and power management ICs operate across -55°C to +175°C ambient temperatures, with derating curves provided in military temperature range (MTR) datasheets.
Are PMA parts interchangeable with OEM components?

Our PMA parts (e.g., actuators, sensors) hold FAA/EASA Form 1 certification and match OEM form/fit/function. Installation requires SB/MB documentation per FAA AC 23.1529.
What traceability standards do you follow for aircraft fasteners?

All NAS/MS fasteners include full DNA traceability: melt source (AMS 2301), heat/lot numbers, and AS9100-compliant MTRs with ultrasonic test reports.
How do you handle urgent AOG (Aircraft on Ground) requests?

AOG orders ship within 4 hours for stocked items (FAA-PMA, EASA Part 21G). Non-stock critical parts trigger priority manufacturing with 72-hour max turnaround.