AI Servers and Data Centers Test Solutions
Validate efficiency and reliability of AI server power systems at scale.
Keeping up with AI and Super Computing Servers
To meet the rapidly evolving needs of AI infrastructure and cloud-scale computing, data centers must adopt rigorous power system design and testing at every levelāfrom the grid interface to the server rack. Programmable power sources and loads offer a scalable, controlled solution for simulating real-world power events, verifying system response, and meeting international compliance standards.
Explore Solutions by AI Data Server Application
Cabinet and System-Level Testing
Use three-phase regenerative grid simulators to emulate the utility feed supplying full AI server cabinets. Synchronize multiple sources and loads to replicate real compute cycles and transient profiles. Measure overall system efficiency, input harmonics, and voltage stability during load changes or grid faults.
Rack-Level and Power Shelf Validation
Simulate 12 V or 48 V distribution buses and backup battery systems. Use regenerative electronic loads to recreate fluctuating rack power demand while recycling energy to the grid. Evaluate redundancy, fault response, and overload protection under real-time compute power variations.
Power Supply Unit (PSU) Testing
Validate AC-DC and DC-DC PSUs under programmable input and output conditions. Use AC power sources to emulate global grid standards and inject line transients, frequency drift, or harmonics. Apply dynamic load profiles using regenerative DC loads to characterize efficiency, hold-up time, and recovery behavior.
HVDC Distribution and Converter Testing
Many hyperscale data centers adopt high-voltage DC power bus distribution systems (e.g., 380V DC) for distribution efficiency to reduce power losses. Testing includes converter & rectifier validation under dynamic load conditions.
Battery Back Up Unit
Validate PDUs, UPS systems, and battery energy storage (BESS) supporting critical compute infrastructure. Simulate grid disturbancesāvoltage dips, phase imbalance, frequency deviationāwith programmable AC sources. Use electronic loads to perform endurance and redundancy testing during power transfer or backup events. In AI servers, telecom, and data centers, a BBU DC-DC converter interfaces between the battery backup unit (often lithium-ion) and the serverās DC bus.
Featured Resources
Curious about how to use our solutions? Explore our resources tailored to AI power servers and data centers.
