Welcome to the MGHPCC Virtual Booth

Northeastern University

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Northeastern University Research Computing

Connecting the research community at Northeastern University with high performance computing solutions.

Northeastern University Research Computing

Connecting the research community at Northeastern University with high performance computing solutions.

Northeastern University Research Computing

Connecting the research community at Northeastern University with high performance computing solutions.

Experiential AI

The Institute for Experiential AI

Believing in open scientific collaboration on AI technology, Northeastern professor Arjun Guha joined others in creating a state-of-the-art open generative model for programmers that can be licensed and adapted for different uses.

The Institute for Experiential AI

Believing in open scientific collaboration on AI technology, Northeastern professor Arjun Guha joined others in creating a state-of-the-art open generative model for programmers that can be licensed and adapted for different uses.

The Institute for Experiential AI

Believing in open scientific collaboration on AI technology, Northeastern professor Arjun Guha joined others in creating a state-of-the-art open generative model for programmers that can be licensed and adapted.

Genome Forecasting

Simulating Large Biomolecular Assemblies

The Lotterhos Lab at Northeastern's Marine Science Center uses eco-evolutionary genomics to understand how climate has shaped biodiversity and how a now rapidly changing climate will affect biodiversity in the future.

Simulating Large Biomolecular Assemblies

Paul Whitford’s Group uses Northeastern’s Discovery cluster at the MGHPCC to conduct molecular dynamics simulations that elucidate the interactions driving large-scale biological processes. Current research interests include the dynamics of the SARS-CoV-2 spike protein, the ribosome, and the nuclear pore complex.

Simulating Large Biomolecular Assemblies

Paul Whitford’s Group uses Northeastern’s Discovery cluster at the MGHPCC to conduct molecular dynamics simulations that elucidate the interactions driving large-scale biological processes. Current research interests include the dynamics of the SARS-CoV-2 spike protein, the ribosome, and the nuclear pore complex.

Slide 3

Software for Unreliable Quantum Computers

VERITAS: Accurately Estimating the Correct Output on Noisy Intermediate-State Quantum Computers.

Software for Unreliable Quantum Computers

VERITAS: Accurately Estimating the Correct Output on Noisy Intermediate-State Quantum Computers.

Software for Unreliable Quantum Computers

VERITAS: Accurately Estimating the Correct Output on Noisy Intermediate-State Quantum Computers.

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Northeastern University Projects

PRINCIPAL MEMBERS

See MGHPCC projects
See Boston University projects
See Harvard projects
See Massachusetts Institute of Technology projects
See Northeastern projects
See University of Massachusetts Projects
Yale
See Yale Projects
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