The Unity HPC/AI cluster is a collaborative, multi-institutional high-performance computing cluster located at the MGHPCC. Partnering institutions currently include the UMass system and the University of Rhode Island.
URI Institute for AI and Computational Research
The Unity HPC/AI cluster is a collaborative, multi-institutional high-performance computing cluster located at the MGHPCC. Partnering institutions currently include the UMass system and the University of Rhode Island.
URI Institute for AI and Computational Research
The Unity HPC/AI cluster is a collaborative, multi-institutional high-performance computing cluster located at the MGHPCC. Partnering institutions currently include the UMass system and the University of Rhode Island.
Rendering
Accelerating Rendering Power
School of the Museum of Fine Arts at Tufts animators see their work spring to life with the help of high-performance computing using their new cluster housed at the MGHPCC
Accelerating Rendering Power
School of the Museum of Fine Arts at Tufts animators see their work spring to life with the help of high-performance computing using their new cluster housed at the MGHPCC
School of the Museum of Fine Arts at Tufts animators see their work spring to life with the help of high-performance computing using their new cluster housed at the MGHPCC
Dr. Carrie Nugent is an expert in asteroid detection. She and her students use machine learning techniques combined with advanced computing resources at the MGHPCC to identify near-Earth asteroids within large data sets, aiming to provide crucial advance warnings.
Avoiding Smash Hits
Dr. Carrie Nugent is an expert in asteroid detection. She and her students use machine learning techniques combined with advanced computing resources at the MGHPCC to identify near-Earth asteroids within large data sets, aiming to provide crucial advance warnings.
Dr. Carrie Nugent is an expert in asteroid detection. She and her students use machine learning techniques combined with advanced computing resources at the MGHPCC to identify near-Earth asteroids within large data sets, aiming to provide crucial advance warnings.
Advanced computing powers the design of hybrid solar, wind, and battery systems—optimizing performance, cost, and sustainability across diverse climates.
Naval and Ocean Renewable Energy Hydrodynamics
Advanced computing powers the design of hybrid solar, wind, and battery systems—optimizing performance, cost, and sustainability across diverse climates.
Advanced computing powers the design of hybrid solar, wind, and battery systems—optimizing performance, cost, and sustainability across diverse climates.
Developing Advanced Materials for a Sustainable Energy Future
Developing Advanced Materials for a Sustainable Energy Future
Fanglin Che and her group use computers at the MGHPCC in their work centered around AI-guided multi-scale and multi-physics simulations of catalysis and material science.
Developing Advanced Materials for a Sustainable Energy Future
Fanglin Che and her group use computers at the MGHPCC in their work centered around AI-guided multi-scale and multi-physics simulations of catalysis and material science.
Developing Advanced Materials for a Sustainable Energy Future
Fanglin Che and her group use computers at the MGHPCC in their work centered around AI-guided multi-scale and multi-physics simulations of catalysis and material science.
