Expanse Supercomputer Helps Scientists Develop Promising Model for Studying Flexible Protein Structures

August 7, 2024

Aug. 7, 2024 — Using U.S. National Science Foundation (NSF) ACCESS allocations on Expanse at the San Diego Supercomputer Center (SDSC) at UC San Diego, Michigan State University (MSU) researchers recently developed a new model to study flexible protein structures, known as intrinsically disordered proteins (IDPs). The new model might help researchers determine the three-dimensional structure of IDPs for clues about their functionality.

This generative model was created using the Expanse supercomputer via ACCESS allocations. Panels (A) and (B) illustrate the training process of the structural autoencoder model (SAM) while (C) shows how the model generates new samples, starting from random noise and mapping it to 3D structures. Credit: Michigan State University.

The team published their findings in an article titled Transferable deep generative modeling of intrinsically disordered protein conformations in the PLOS Computation Biology journal. Giacomo Janson and Michael Feig specifically used a diffusion model – a type of machine learning method that can be trained to generate complex objects, such as three-dimensional structures of biomolecules, to conduct this work.

“Our approach called idpSAM (intrinsically disordered protein Structural Autoencoder generative Model) is a diffusion model, a type of deep generative model. These models allow us to generate diverse samples from complex probability distributions, such as the distribution of three-dimensional structures of proteins,” said Feig, who is a biochemistry professor at MSU. “It is really well suited to model the structural ensembles of dynamic proteins like IDPs, and our model is different from existing deep learning approaches that target protein dynamics.”

He said that in idpSAM, an autoencoder first learns a representation of protein geometry and a diffusion model is later trained to sample novel conformations from the encoded space. “This last step allowed us to maintain high computational efficiency,” Feig said, adding that  IdpSAM was trained on a large dataset of simulations of disordered protein regions performed with an implicit solvent model called ABSINTH.

“Even though intrinsically disordered proteins have very heterogenous structural ensembles, with idpSAM, a very large, diverse training set may provide enough information to learn general principles with a sufficiently deep network to reach transferability,” explained Janson, an MSU biochemistry research associate. “We believe that deep generative models, such as diffusion models, are a promising method to help us characterize the dynamic behavior of proteins.”

Janson said that current machine learning models used to elucidate three-dimensional ensembles of protein structures are often trained on traditional simulation approaches. However, generative machine learning frameworks using supercomputers like Expanse can be trained in principle to reproduce any target data – including experimental data – and are not limited by the specific functional forms or numerical algorithms that are commonly used in simulations.

“Our work on Expanse with our ACCESS allocations allowed us to collect lots of simulation data and to train large neural network models. This effort showed us how the combination of generative modeling and large training sets can aid us in understanding how dynamical proteins behave,” Janson said. “The finding opens up a whole new way for scientists to explore the complex world of protein dynamics thanks to ACCESS.”

Computational work on Expanse was funded by ACCESS (grant no. BIO230084).


Source: Zoey Lestyk and Kimberly Mann Bruch, SDSC 

Subscribe to HPCwire's Weekly Update!

Be the most informed person in the room! Stay ahead of the tech trends with industry updates delivered to you every week!

Microsoft, Quantinuum Use Hybrid Workflow to Simulate Catalyst

September 13, 2024

Microsoft and Quantinuum reported the ability to create 12 logical qubits on Quantinuum's H2 trapped ion system this week and also reported using two logical qubits on an H1 system to simulate an iron catalyst's low ener Read more…

Diversity Hiring Maximizes Everyone’s Success in STEM and Beyond

September 12, 2024

Despite overwhelming evidence, some companies remain surprised by this simple revelation: Diverse workforces and leadership teams are good for business. Companies that cultivate diverse hiring practices and maintain a di Read more…

GenAI: It’s Not the GPUs, It’s the Storage

September 12, 2024

A recent news release from Data storage company WEKA and S&P Global Market Intelligence unveiled the findings of their second annual Global Trends in AI report. The global study, conducted by S&P Global Market In Read more…

Argonne’s HPC/AI User Forum Wrap Up

September 11, 2024

As fans of this publication will already know, AI is everywhere. We hear about it in the news, at work, and in our daily lives. It’s such a revolutionary technology that even established events focusing on HPC specific Read more…

Quantum Software Specialist Q-CTRL Inks Deals with IBM, Rigetti, Oxford, and Diraq

September 10, 2024

Q-CTRL, the Australia-based start-up focusing on quantum infrastructure software, today announced that its performance-management software, Fire Opal, will be natively integrated into four of the world's most advanced qu Read more…

Computing-Driven Medicine: Sleeping Better with HPC

September 10, 2024

As a senior undergraduate student at Fisk University in Nashville, Tenn., Ifrah Khurram's calculus professor, Dr. Sanjukta Hota, encouraged her to apply for the Sustainable Research Pathways Program (SRP). SRP was create Read more…

GenAI: It’s Not the GPUs, It’s the Storage

September 12, 2024

A recent news release from Data storage company WEKA and S&P Global Market Intelligence unveiled the findings of their second annual Global Trends in AI rep Read more…

Shutterstock 793611091

Argonne’s HPC/AI User Forum Wrap Up

September 11, 2024

As fans of this publication will already know, AI is everywhere. We hear about it in the news, at work, and in our daily lives. It’s such a revolutionary tech Read more…

Quantum Software Specialist Q-CTRL Inks Deals with IBM, Rigetti, Oxford, and Diraq

September 10, 2024

Q-CTRL, the Australia-based start-up focusing on quantum infrastructure software, today announced that its performance-management software, Fire Opal, will be n Read more…

AWS’s High-performance Computing Unit Has a New Boss

September 10, 2024

Amazon Web Services (AWS) has a new leader to run its high-performance computing GTM operations. Thierry Pellegrino, who is well-known in the HPC community, has Read more…

NSF-Funded Data Fabric Takes Flight

September 5, 2024

The data fabric has emerged as an enterprise data management pattern for companies that struggle to provide large teams of users with access to well-managed, in Read more…

Shutterstock 1024337068

Researchers Benchmark Nvidia’s GH200 Supercomputing Chips

September 4, 2024

Nvidia is putting its GH200 chips in European supercomputers, and researchers are getting their hands on those systems and releasing research papers with perfor Read more…

Shutterstock 1897494979

What’s New with Chapel? Nine Questions for the Development Team

September 4, 2024

HPC news headlines often highlight the latest hardware speeds and feeds. While advances on the hardware front are important, improving the ability to write soft Read more…

Critics Slam Government on Compute Speeds in Regulations

September 3, 2024

Critics are accusing the U.S. and state governments of overreaching by including limits on compute speeds in regulations and laws, which they claim will limit i Read more…

Everyone Except Nvidia Forms Ultra Accelerator Link (UALink) Consortium

May 30, 2024

Consider the GPU. An island of SIMD greatness that makes light work of matrix math. Originally designed to rapidly paint dots on a computer monitor, it was then Read more…

AMD Clears Up Messy GPU Roadmap, Upgrades Chips Annually

June 3, 2024

In the world of AI, there's a desperate search for an alternative to Nvidia's GPUs, and AMD is stepping up to the plate. AMD detailed its updated GPU roadmap, w Read more…

Atos Outlines Plans to Get Acquired, and a Path Forward

May 21, 2024

Atos – via its subsidiary Eviden – is the second major supercomputer maker outside of HPE, while others have largely dropped out. The lack of integrators and Atos' financial turmoil have the HPC market worried. If Atos goes under, HPE will be the only major option for building large-scale systems. Read more…

Nvidia Shipped 3.76 Million Data-center GPUs in 2023, According to Study

June 10, 2024

Nvidia had an explosive 2023 in data-center GPU shipments, which totaled roughly 3.76 million units, according to a study conducted by semiconductor analyst fir Read more…

Shutterstock_1687123447

Nvidia Economics: Make $5-$7 for Every $1 Spent on GPUs

June 30, 2024

Nvidia is saying that companies could make $5 to $7 for every $1 invested in GPUs over a four-year period. Customers are investing billions in new Nvidia hardwa Read more…

Comparing NVIDIA A100 and NVIDIA L40S: Which GPU is Ideal for AI and Graphics-Intensive Workloads?

October 30, 2023

With long lead times for the NVIDIA H100 and A100 GPUs, many organizations are looking at the new NVIDIA L40S GPU, which it’s a new GPU optimized for AI and g Read more…

Shutterstock 1024337068

Researchers Benchmark Nvidia’s GH200 Supercomputing Chips

September 4, 2024

Nvidia is putting its GH200 chips in European supercomputers, and researchers are getting their hands on those systems and releasing research papers with perfor Read more…

Google Announces Sixth-generation AI Chip, a TPU Called Trillium

May 17, 2024

On Tuesday May 14th, Google announced its sixth-generation TPU (tensor processing unit) called Trillium.  The chip, essentially a TPU v6, is the company's l Read more…

Leading Solution Providers

Contributors

IonQ Plots Path to Commercial (Quantum) Advantage

July 2, 2024

IonQ, the trapped ion quantum computing specialist, delivered a progress report last week firming up 2024/25 product goals and reviewing its technology roadmap. Read more…

Intel’s Next-gen Falcon Shores Coming Out in Late 2025 

April 30, 2024

It's a long wait for customers hanging on for Intel's next-generation GPU, Falcon Shores, which will be released in late 2025.  "Then we have a rich, a very Read more…

xAI Colossus: The Elon Project

September 5, 2024

Elon Musk's xAI cluster, named Colossus (possibly after the 1970 movie about a massive computer that does not end well), has been brought online. Musk recently Read more…

Department of Justice Begins Antitrust Probe into Nvidia

August 9, 2024

After months of skyrocketing stock prices and unhinged optimism, Nvidia has run into a few snags – a  design flaw in one of its new chips and an antitrust pr Read more…

MLPerf Training 4.0 – Nvidia Still King; Power and LLM Fine Tuning Added

June 12, 2024

There are really two stories packaged in the most recent MLPerf  Training 4.0 results, released today. The first, of course, is the results. Nvidia (currently Read more…

Nvidia H100: Are 550,000 GPUs Enough for This Year?

August 17, 2023

The GPU Squeeze continues to place a premium on Nvidia H100 GPUs. In a recent Financial Times article, Nvidia reports that it expects to ship 550,000 of its lat Read more…

Spelunking the HPC and AI GPU Software Stacks

June 21, 2024

As AI continues to reach into every domain of life, the question remains as to what kind of software these tools will run on. The choice in software stacks – Read more…

Shutterstock 1886124835

Researchers Say Memory Bandwidth and NVLink Speeds in Hopper Not So Simple

July 15, 2024

Researchers measured the real-world bandwidth of Nvidia's Grace Hopper superchip, with the chip-to-chip interconnect results falling well short of theoretical c Read more…

  • arrow
  • Click Here for More Headlines
  • arrow
HPCwire