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OAC Core: AIMCI: Artificial Intelligence for Managing Cyberinfrastructure
Michael E. Papka, Yash Kurkure, Zhiling Lan October 1, 2024 - September 30, 2027 Overview Advanced cyberinfrastructure (CI) is undergoing disruptive changes in system architectures and application workloads. Each facility… Read more |
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Tele-robotics to Tele-autonomous Robotics for Isotope Production
Aaqel Shaik, Abdullah Ali, Athena Angara, Fatima Jassim, Fredric Massa, Hal Brynteson, Michael E. Papka, Argonne National Laboratory February 12, 2024 - February 11, 2025 EVL graduate research assistants are working with Argonne National Laboratory scientists on the project entitled “Tele-autonomous Dexterous… Read more |
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Enhancements to SciStream, a platform to enable memory-to-memory data streaming between federated instruments
Michael E. Papka, Argonne National Laboratory January 8, 2024 - May 15, 2025 EVL graduate research assistants will work with Argonne National Laboratory scientists to develop enhancements to SciStream, a platform that enables… Read more |
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NAIRR Pilot: A National-Scale Testbed Supporting Artificial Intelligence Research Spanning the Computing Continuum
JD Pirtle, Michael E. Papka October 1, 2023 - September 30, 2026 We will evolve the national-scale Sage platform to build a new pathfinding testbed that links real-time AI-enabled sensors with existing NSF HPC and… Read more |
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Data Sharing and Analysis Across Leadership Computing Facilities
Michael E. Papka, Nguyen Hoa Pham, Argonne National Laboratory August 15, 2023 - August 14, 2026 The development and construction of facilities that allow for efficient data sharing while also providing computational resources for data analysis… Read more |
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HIgh Performance Computing Research
Hal Brynteson, Jyotsna Rajaraman, Marco Bonafini, Michael E. Papka, Nguyen Hoa Pham, Revathi Dhotre, Yash Kurkure August 16, 2022 - August 15, 2024 High-Performance Computing research and development supports the Argonne Leadership Computing Facility (ALCF) supercomputer’s use and… Read more |
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Participatory Artificial Life Demonstration
Matthew Szymanski, Michael E. Papka, Terry Disz, Terry Franguiadakis, Rick Stevens December 3, 1995 - December 8, 1995 The science being visualized is a demonstration of artificial life by generating computer programs that mimic organic life in simple ways. The… Read more |
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Interactive Adaptive Mesh Refinement
Michael E. Papka, Steven Cohen, Lori Freitag, Mark Jones, Paul Plassmann, John Rowlan July 1, 1994 - July 15, 1994 Adaptive mesh refinement / derefinement techniques have been shown to be very successful in reducing the computational and storage requirements for… Read more |
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Evolution of Behavior in a Simulated Environment
Michael E. Papka, Sumit Das, Terry Franguiadakis July 1, 1994 - July 15, 1994 This application enables CAVE users to view and interact with the behavior of various animats, virtual animals that exhibit behaviors similar to… Read more |
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Simulation of a Grinding Process in Virtual Reality
Michael E. Papka, Thomas Canifield, William Jester, John Rowlan, Edward Plaskacz July 1, 1994 - July 15, 1994 Simulation of a grinding process in the CAVE enables users to explore a commonly used manufacturing process from an entirely new vantage point. An… Read more |
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Visualization of Casting Process in Foundries
Michael E. Papka, Steven Cohen, R. Schmitt, H. Domanus, J. Rowlan, T. Disz September 1, 1993 - August 1, 1994 This application models the pouring of a fluidity spiral used to measure the distance metal can flow in a channel before being stopped by… Read more |
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Evolution of Shape and Sound via Genetic Programming
Michael E. Papka, Sumit Das, Terry Franguiadakis November 1, 1992 - November 1, 1993 The ideas of genetic evolution combine with computer science and art to create aesthetically pleasing shapes and sounds. A gene is a symbolic… Read more |
