Hybrid control of inference batch sizes and BESS reduces BESS energy discharge by 71% and peak power by 51% for a 150 MW TCDC while complying with 10 MW/min ramp limits.
OpenG2G: A Simulation Platform for AI Datacenter-Grid Runtime Coordination
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abstract
AI's growing compute demand and new datacenter buildouts present major capacity and reliability challenges for the electricity grid, leading to multi-year interconnection delays for new datacenters and bottlenecking AI growth. To ease this strain, datacenters increasingly offer rapid power flexibility in response to grid signals, where the datacenter can increase or decrease its power consumption by adapting its workload in real time. In order to understand the impact of large datacenters on the grid and to facilitate the design of effective coordination strategies, we build OpenG2G, a simulation platform for AI datacenter-grid runtime coordination. We show that OpenG2G is capable of answering a wide range of coordination questions by allowing users to implement and compare various control paradigms (including classic, optimization, and learning-based controllers), and quantify how AI model and deployment choices affect datacenter flexibility and coordination outcomes. This versatility is enabled by OpenG2G's modular and extensible architecture: a datacenter backend driven by real measurements of production-grade AI services, a grid backend built on high-fidelity grid simulators, and a generic controller interface that closes the loop between them. We describe the design of OpenG2G and demonstrate its usefulness through realistic grid scenarios and AI workloads.
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Inference as Flexibility: Ramp Management for Transmission-Connected AI Data Centres
Hybrid control of inference batch sizes and BESS reduces BESS energy discharge by 71% and peak power by 51% for a 150 MW TCDC while complying with 10 MW/min ramp limits.