Podcasts about texas advanced computing center

Dr. Luke Wilson (Chief Data Scientist and Senior Partner at Vizias. Vice President of the Board of Directors at Austin AI Alliance) has been a leading figure in high-performance computing and artificial intelligence for over two decades, with a distinguished career spanning academia, finance, and tech. Starting at the Texas Advanced Computing Center, he significantly contributed to the design and deployment of numerous Top500 systems, later enhancing TACC's educational offerings as Director of Training. At Dell Technologies, he pioneered groundbreaking work in HPC/AI infrastructure, earning him the title of Chief Data Scientist. Recently, at Optiver, he has been at the forefront of developing cutting-edge research infrastructure for high-frequency trading. With a PhD from the University of Texas at San Antonio, Luke has been instrumental in projects that have shaped the future of AI, including work that contributed to the Nobel Prize-winning LIGO project and optimizations for early transformer neural networks. An author of numerous research papers, Luke's work continues to influence the evolving landscape of technology and AI

Machine-learning expert Krishna Kumar joins host Dan Zehner to discuss the annual NHERI Hackathon. Kumar details this exciting event, which takes place every year at the Texas Advanced Computing Center. Leveraging DesignSafe data and computational resources, participants have three days to code solutions to natural hazards problems using machine learning. Kumar is an assistant professor in civil and environmental engineering at University of Texas professor.#naturalhazards #hackathon #machinelearning #AI #engineeringeducation #simulation #modeling #NHERIHackathonRead more about the annual NHERI Hackathon and DesignSafe Academy: https://www.designsafe-ci.org/learning-center/designsafe-academy/Want to learn more about natural hazards simulation and modeling? Visit the NHERI SimCenter, headquartered at UC Berkeley: https://simcenter.designsafe-ci.org/Follow NHERI DesignSafe!LinkedIn: https://www.linkedin.com/company/nheri-designsafe/Twitter: https://twitter.com/nheriDesignSafeFacebook: https://www.facebook.com/NaturalHazardsEngineeringResearchInfrastructureInstagram: https://www.instagram.com/nheridesignsafe/Twitter: @TACC @NheriGsc @NSF @NheriEco @ERathje @NHE_SimCenter#NSFStories, #naturalhazards, #NHERIhackathon

Cosmological hydrodynamic zoom-in simulations used to study gravity hydrodynamics, chemistry and cooling in structure formation and early star formation.

Supercomputer simulations are helping scientists discover new high-entropy alloys.

First realistic simulations developed of HIV-1 capsid, which encloses its genetic material.

Inter-utility water agreements can help mitigate their risks, in research that used supercomputer simulations of water supply in the North Carolina Research Triangle.

Simulations suggest coronavirus fusion mechanism shows cooperative behavior of host cell receptor proteins that leads to infection. Coarse-grained models took cryo-electron tomography data and combined it with atomistic molecular dynamics simulations.

In this Stories in AI podcast, Dr. Andy Terrel, VP of Data and Algorithms at Xometry, gave me valuable perspectives on how corporations, product managers, and data scientists should view artificial intelligence. If you are looking to advance your career as a data scientist or just in AI, this is a must listen episode. Andy's Bio: Dr. Andy R. Terrel is the VP, Data, and Algorithms of Xometry, Inc. where he is bringing his experience building smart scalable data systems to the manufacturing industry. You will also find him leading the infrastructure committee of the NumFOCUS foundation. As a passionate advocate for open source scientific codes Andy has been involved in the wider scientific Python community since 2006, contributing to numerous projects in the scientific stack. Dr. Andy R. Terrel was previously a Research Associate Scientist for the Computational Hydraulics Group at the Institute for Computational Engineering and Science which is at the University of Texas at Austin and High-Performance Computing researcher at the Texas Advanced Computing Center. Andy's research included utilizing supercomputers with Python and studying methods for speeding up computational fluid dynamics. He graduated from the University of Chicago with a Ph.D. in Computer Science in 2010 and has been programming in Python for the last decade. Andy has contributed to numerous open-source projects notably the FEniCS Project and Sympy. Reach Andy at:  http://andy.terrel.us https://www.linkedin.com/in/aterrel/ https://twitter.com/aterrel A note about our sponsors: Experian is the world's leading global information services company. We empower our clients to manage their data with confidence and build trusted relationships with consumers, using advanced analytics, decisioning technology and fraud prevention tools. We help businesses to make smarter decisions and thrive, lend more responsibly, and prevent fraud and financial crime. As the world's leading repository of consumer credit data, Experian is transforming data into solutions that facilitate transactions, ensure financial safety and improve the financial lives of millions of consumers around the world. Learn more at https://Experian.com.

Supercomputer simulations have revealed for the first time how the cell's mitochondrial voltage-dependent anion channel (VDAC) binds to the enzyme hexokinase-II (HKII).

Vortex dynamics simulations reveal reconnection, an important property linked with creation of turbulence cascade, fluid mixing, and aerodynamic noise generation.

Kinematic plate reconstructions and high-res global dynamic models developed to quantify the amount of Pacific Plate motion change associated with the Hawaiian– Emperor Bend XSEDE allocations on TACC Stampede2; NSF-funded Frontera supported studies.

XSEDE-allocated Stampede2 supercomputer simulations shed light on meteor physics

For this episode, Scott talks with Paul Navratil, who is the director of visualization at the Texas Advanced Computing Center. They talk about artificial intelligence and how it can be used to accelerate the clean energy transition... with the right data. Paul and Scott had a lot to talk about, so this is part one of a two-part series with Paul.

This is episode two of the two-part series with AI expert Paul Navratil. Listen in for a deep dive on opportunities and limitations for AI technologies to accelerate the clean energy transition. Paul is the director of visualization at the Texas Advanced Computing Center.

On today’s episode of DesignSafe Radio, we speak with a professor at the University of Texas at Austin that has 25 years of experience with coastal engineering and storm surge research, Clint Dawson. Storm surge is the flooding induced by the winds from a hurricane. Dawson explains his extensive research on storm surges, how it impacts communities and infrastructures, and how the software ADCIRC is utilized in storm surge research.  Check out the following links for more information:DesignSafe, ADCIRC Provides Storm Surge Simulators for Natural Hazards Community:https://research.utexas.edu/showcase/articles/view/designsafe-adcirc-provides-storm-surge-simulators-for-natural-hazards-community/CERA – Coastal Emergency Risks Assessment: https://cera.coastalrisk.live/Information on ADCIRC Software: http://adcirc.org/Texas Advanced Computing Center: https://www.tacc.utexas.edu/Clint Dawson Information: https://www.designsafe-ci.org/community/news/2018/june/nheri-hurricane-wind-storm-surge-experts-available/https://www.oden.utexas.edu/people/36/

On today’s episode of DesignSafeRadio, we speak with Clint Dawson, a professor at the University of Texas at Austin that has 25 years of experience with coastal engineering and storm surge research. In this short episode, Dawson discusses assessing model predictions and learning from hindcasting.  Check out the following links for more information:DesignSafe, ADCIRC Provides Storm Surge Simulators for Natural Hazards Community:https://research.utexas.edu/showcase/articles/view/designsafe-adcirc-provides-storm-surge-simulators-for-natural-hazards-community/CERA – Coastal Emergency Risks Assessment: https://cera.coastalrisk.live/Information on ADCIRC Software: http://adcirc.org/Texas Advanced Computing Center: https://www.tacc.utexas.edu/Clint Dawson Information: https://www.designsafe-ci.org/community/news/2018/june/nheri-hurricane-wind-storm-surge-experts-available/https://www.oden.utexas.edu/people/36/

On today’s episode of DesignSafe Radio, we speak with Clint Dawson, a professor at the University of Texas at Austin that has 25 years of experience with coastal engineering and storm surge research. In this short episode, Dawson the benefits of the LSU CERA website and explains how the strength of a hurricane affects storm surge impact. The LSU CERA website is provided in the shownotes below!  Check out the following links for more information:DesignSafe, ADCIRC Provides Storm Surge Simulators for Natural Hazards Community: https://research.utexas.edu/showcase/articles/view/designsafe-adcirc-provides-storm-surge-simulators-for-natural-hazards-community/CERA – Coastal Emergency Risks Assessment: https://cera.coastalrisk.live/Information on ADCIRC Software: http://adcirc.org/Texas Advanced Computing Center: https://www.tacc.utexas.edu/Clint Dawson Information: https://www.designsafe-ci.org/community/news/2018/june/nheri-hurricane-wind-storm-surge-experts-available/https://www.oden.utexas.edu/people/36/

On today’s episode of DesignSafe Radio, we speak with Clint Dawson, a professor at the University of Texas at Austin that has 25 years of experience with coastal engineering and storm surge research. In this short episode, Dawson explains the process of storm surge, the simulations performed using TACC computers, how the research data is published using the NHERI DesignSafe workbench, and the utilization of the software ADCIRC in storm surge research.  Check out the following links for more information: DesignSafe, ADCIRC Provides Storm Surge Simulators for Natural Hazards Community: https://research.utexas.edu/showcase/articles/view/designsafe-adcirc-provides-storm-surge-simulators-for-natural-hazards-community/CERA – Coastal Emergency Risks Assessment: https://cera.coastalrisk.live/Information on ADCIRC Software: http://adcirc.org/Texas Advanced Computing Center: https://www.tacc.utexas.edu/ Clint Dawson Information: https://www.designsafe-ci.org/community/news/2018/june/nheri-hurricane-wind-storm-surge-experts-available/https://www.oden.utexas.edu/people/36/

HIV-1 viral capsid simulations on XSEDE-allocated Stampede2, Bridges, Darwin systems uncover nucleotide entry mechanism

Frontera, Anton 2 supercomputers simulate holistic model of SARS-CoV-2 virion

Stampede2, Bridges supercomputer simulations show weak spots in Ebola virus nucleocapsid

Computer model simulating binding and fusing dynamics of the coronavirus on Longhorn, a subsystem of the Frontera supercomputer at the Texas Advanced Computing Center. Research supported by the COVID-19 High Performance Computing Consortium.

NSF-funded Frontera supercomputer at TACC used for simulations that animated the molecular dynamics of the 1.7 million atom coronavirus spike protein system.

Scientists prepared a massive computer model of the coronavirus expected to give insight into how it infects. They've tested the first parts of the model and optimizing code on the Frontera supercomputer at the Texas Advanced Computing Center of UT Austin

TACC's Stampede2 supercomputer powers path-sampling molecular simulations

Galaxy clusters probed with Stampede2, Comet Supercomputers

Scientists used supercomputers to uncover the mechanism that activates cell mutations found in about 50% of melanomas. XSEDE allocations on TACC's Stampede2 and Bridges at PSC modeled the B-Raf protein and others in the pathway linked to skin cancer.

In this Intel Chip Chat audio podcast with Allyson Klein: The Texas Advanced Computing Center (TACC) has created some of the most powerful scientific supercomputers in the world, and currently supports over 3,500 different projects. TACC’s system’ capabilities are built with large-scale scientific data in mind, and it has provided millions computational hours for partners […]

The Texas Advanced Computing Center (TACC) has created some of the most powerful scientific supercomputers in the world, and currently supports over 3,500 different projects. TACC’s system’ capabilities are built with large-scale scientific data in mind, and it has provided millions computational hours for partners like CERN, LIGO Lab, and individual researchers tackling data-intensive problems. In this interview, we talked to Dr. Dan Stanzione, the Associate Vice President for Research at the University of Texas at Austin and the Executive Director of TACC. He discusses the architecture and capabilities of Frontera, TACC’s newest HPC cluster. In June 2019, Top500 ranked Frontera as the fifth most powerful supercomputer in the world making it the most powerful HPC system at any academic institution, and Stanzione theorizes that it may be the most capable general-purpose HPC system in the world for some applications. Frontera’s architecture includes 8,000 servers, each powered by 2nd Generation Intel® Xeon® Scalable processors. The cluster includes hundreds of thousands of processing cores and a liquid-cooled infrastructure enabling a higher clock rate for even more performance. These and other features provide broadly-balanced capabilities that can support numerous and diverse large-scale, data-intensive scientific research projects the world over. For more on HPC on Intel® architecture, please visit https://www.intel.com/hpc Watch a video about Frontera here: https://www.youtube.com/watch?v=2EnEN4EBQTs&feature=youtu.be For more on TACC, please visit https://www.tacc.utexas.edu/ Intel technologies' features and benefits depend on system configuration and may require enabled hardware, software or service activation. Performance varies depending on system configuration. No product or component can be absolutely secure. Check with your system manufacturer or retailer or learn more at intel.com. Intel, the Intel logo, and Xeon Scalable are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other countries. *Other names and brands may be claimed as the property of others. © Intel Corporation

XSEDE Allocations On Stampede2 and Comet Speed Simulation of Protein Oligomers

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Bonus round! I attended the Costa Rica Big Data School, a five-day event where two speakers from the Texas Advanced Computing Center spoke about current computational subjects like object-oriented programming in Python, High Performance Computing (HPC), Hadoop, and other important technologies. Hope you guys can find valuable knowledge here!

Artificial protein assembly could help create new materials for renewable energy, medicine, water purification, and more.

California Yellowtail genome assembly and annotation could potentially help in its sustainable harvest.

Mantle plume simulations could help guide future deep Earth exploration and save cost of large-scale ocean-bottom seismometer deployments.

Suzanne Pierce of the Texas Advanced Computing Center leads panel on bridging advanced computing with Earth science.

Some scientists dream about big data. Computer scientists developed a way for parallel and Hadoop file systems to talk to each other, tailored for NASA with help from the NSF-funded Chameleon cloud testbed.

Human trafficking is being fought with the help of a supercomputer in a Defense Department DARPA project.

Several long-term efforts underway at Supercomputing Conference to build up diversity

Lego-like modularity recommended for architecture, hardware, algorithms, software, applications

History and strategies of memory bandwidth vs. computation outlined at SC16

Supercomputing focus on exascale architectures, cognitive computing, diversity, and more

XSEDE Stampede supercomputer models 3-D human pre-initiation complex

XSEDE, SC16, and TACC host week-long event to engage students in computing challenge

First supercomputer in U.S. that uses solar and HVDC launched by New Energy and Industrial Technology Development Organization (Japan), NTT FACILITIES, INC., and the University of Texas at Austin.

It takes a supercomputer to grow a better soybean. A project called the Soybean Knowledge Base, or SoyKB for short, wants to do just that. Scientists at the University of Missouri-Columbia made SoyKB a publicly-available web resource for all soybean data.

TACC Stampede, Lonestar supercomputers help discover gamma ray creation from lasers

UT System Chancellor William McRaven spoke of his path to lead the UT System of 14 Institutions, the importance of supercomputers to Texans and to the nation, the new Dell Medical School, and more.

More than 50 volunteer programmers gathered in Austin on May 15 to use Big Data to fight the spread of Zika.

Cornell researcher Roseanna Zia simulates gel behavior with XSEDE, Stampede supercomputer.

Joe Stubbs of the Texas Advanced Computing Center describes potential benefits to scientists of open container platform Docker in supporting reproducibility, NSF-funded Agave API.

UT Austin biologist Rebecca Young traces the genes behind monogamous behavior using Wrangler supercomputer.

Computer scientist Joshua New of Oak Ridge National Laboratory optimizes buildings to save energy.

UT Austin astronomer Steven Finkelstein eyes Wrangler supercomputer for HETDEX extragalactic survey.

NSF-funded Wrangler supercomputer tailored for big data, augments Stampede and other XSEDE resources.

Supercomputing resources of XSEDE including Stampede are making a big difference in helping anticipate and plan for earthquakes.

Stampede supercomputer at TACC and IBM Sequoia at Lawrence Livermore National Laboratory help win 'Oscar' of high performance computing at SC15.

One hundred years since Einstein's equations, scientists have probed the mysteries of black holes using the supercomputing resources of XSEDE including Blue Waters, Gordon, Comet and Stampede.

Robert McLay of TACC co-leads a session at the SC15 supercomputing conference about XALT, a software tool that drills down on supercomputer analytics to the level of individual batch submissions, users, and binaries.

UT Austin's Lonestar supercomputer helps biologists save reef-building corals

TACC supercomputers model native and replacement heart valve function to evolve human replacements

UT Austin researchers find hotspots of genetic instability in cancer using Stampede and Lonestar

XSEDE Campus Champions, Stampede and Lonestar4 supercomputers of TACC help create 3D images deep underground.

XSEDE resource Stampede supercomputer of TACC simulated molecular dynamics in design of engineered protein.

Maytal Dahan of TACC presents a SXSW 2015 meetup that brings together scientists, developers, and researchers to share skills and expertise on the newest web technologies and science projects.

John Fonner and Rion Dooley of TACC present a SXSW 2015 workshop that explores new ways big data and computational science are done and that gives hands-on experience to approaching science as a service.

Matthew Hanlon and Matthew Vaughn of TACC present a SXSW 2015 core conversation that shares their experiences building the Arabidopsis Information Portal and explains how others interested in open data portals can benefit.

One of life's strongest bonds was discovered by biofuels researchers using XSEDE resources Stampede and Blue Waters supercomputers. This podcast features an interview with computational biologist Klaus Schulten, University of Illinois at Urbana-Champaign.

Materials with novel electrical properties discovered using XSEDE computational resources Stampede and Lonestar supercomputers of TACC.

Paul Navratil from the Texas Advanced Computing Center stops by to talk about the Stampede system, the largest academically hosted supercomputer in the world. It’s built on Intel® Xeon® processors and Xeon® PhiTM coprocessors and will allow thousands of researchers to conduct projects on weather modeling, tracking the movement of the Earth’s crust, and various engineering models. The podcast was recorded at Fall IDF 2012, so Stampede is now up and running (going live on January 7, 2013).