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Research at the MGHPCC

High-performance computing (HPC) systems that bring together large numbers of CPUs, GPUs, and massive amounts of storage, are playing a transformative role in research. MGHPCC HPC resources enable the simulation of complex phenomena including protein structures, turbulent fluid flows, the dynamics of the earth’s atmosphere, pathways of human social interaction, and galactic evolution. The same resources support modern AI and machine learning workloads. These learn from massive aggregations of real-world and digitally generated data and can extract and identify latent patterns, leading to novel insights in areas such as accelerated drug design, novel materials discovery, business intelligence, and beyond.

Search Projects
A Safer Way to See Inside Cells
Accelerating Rendering Power
Adaptive Deep Learning Systems Towards Edge Intelligence
AI for Cancer Diagnosis
AI Pareidolia
AI That Speaks Human About Health
Analyzing the Gut Microbiome
Asteroid Data Mining
Better Pathogen Targeting
Building for Floods
Computation + Machine Intelligence | Wu Tsai Institute
Computational Modeling of Biological Systems
Computing Hidden Health Threats from Heat
CRISPR Mice, Smarter Science
Dancing Frog Genomes
Deciphering Alzheimer's Disease
Denser Environments Cultivate Larger Galaxies
Detecting Protein Concentrations in Assays
Developing Advanced Materials for a Sustainable Energy Future
Dexterous Robotic Hands
Discovering Evolution’s Master Switches
Electron Heating in Kinetic-Alfvén-Wave Turbulence
Ephemeral Stream Water Contributions to US Drainage Networks
Evaluating Health Benefits of Stricter US Air Quality Standards
Evolution of Viral Infectious Disease
Exact Gravitational Lensing by Rotating Black Holes
FlowER: AI for Predicting Chemical Reactions
Global Consequences of Warming-Induced Arctic River Changes
Grid Responsive Data Centers
How Monkeys - and Machines - See in 3D
IceCube: Hunting Neutrinos
Impact of Marine Heatwaves on Coral Diversity
Microplastic-Free by Design
Modeling Breast Cancer Spread
Modeling Hydrogels and Elastomers
Monte Carlo eXtreme (MCX) - a Physically-Accurate Photon Simulator
Multifunctional 3D-Printed Materials
Naval and Ocean Renewable Energy Hydrodynamics
Network Attached FPGAs in the OCT
New Insights on Binary Black Holes
Pulling Back the Quantum Curtain on ‘Weyl Fermions’
Quantum Computing in Renewable Energy Development
Revolutionizing Materials Design with Computational Modeling
Sailing the Symbiosis Seascape
Shining a Light on Dark Matter
Simulating Large Biomolecular Assemblies
Social Capital and Economic Mobility
Software for Unreliable Quantum Computers
Staving off the Banana Apocalypse
Studying Highly Efficient Biological Solar Energy Systems
Supercomputers Reveal Ancient Atmospheric Battle
Supporting Data-intensive Social Science
Surface Behavior
Taming the Energy Appetite of AI Models
The Institute for Experiential AI
The Kempner Institute - Unlocking Intelligence
Tornado Path Detection
Towards a Whole Brain Cellular Atlas
Tracking Environmental Health Risks
Volcanic Eruptions Impact on Stratospheric Chemistry & Ozone
Wrangle Range Modeling
Yale Budget Lab
YARD: A Curation Workflow Tool
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