WEBINAR | Inside the AI Factory: Simulating High-Fidelity Electrical Dynamics

While macro-level microgrid architecture defines how energy is sourced, the hyper-dynamic nature of AI clusters dictates how safely and efficiently that power reaches the silicon. Next-generation AI workloads introduce highly volatile, “spiky” load profiles; where an entire cluster can swing between 30% and 150% load in milliseconds, exposing data center power chains to unprecedented risks, including massive inrush currents, severe transient voltage droop, and campus-wide grid flicker.

To safeguard uptime, protect utility interconnection agreements, and manage extreme thermal loads, facilities engineering must move past steady-state assumptions and embrace dynamic, high-fidelity system simulation.

In this next installment of our series, we transition from macro-system planning to the deep electrical and thermal infrastructure of the AI data center. We will demonstrate how system simulation is used to evaluate next-generation 800 V DC setups under critical edge cases like power outages, dynamic AI workloads, and startup/shutdown sequencing. We will also showcase how to integrate high C-rate battery backup units (BBUs) directly onto the DC bus to absorb millisecond-scale power swings and smooth grid interaction.

Finally, we will explore a dual-track electro-thermal workflow: first evaluating system-wide responses that couple the electrical network with thermal management systems in GT-SUITE, and second evaluating component-level electro-thermal analysis of power converter systems in GT-SUITE.

What you will learn:

• Transient & Edge-Case Resilience: Techniques to simulate system-wide responses to volatile AI workloads, current inrush, grid failures, and critical startup/shutdown sequences
• Battery Integration & Grid Smoothing: How to model high C-rate Battery Backup Units (BBUs) directly coupled to an 800V DC bus to absorb millisecond-scale AI cluster power swings. Learn to simulate these energy storage systems as they mitigate utility flicker, control ramp rates, and bridge the critical 30-second window during a grid disturbance until generator startup
• System-Level Electro-Thermal Evaluation: Techniques to integrate electrical and thermal simulations in GT-SUITE for system-wide responses that include thermal management systems

REGISTER TODAY!