YFgrants
- Email:
- yfcui@sdsc.edu
- Phone:
- +1 (858) 822-0916
- Office:
- 417
- Address:
- University of California, San Diego
- San Diego Supercomputer Center
- 9500 Gilman Drive MC 0505
Selected Research Grants & Allocations
Selected Current Grants
- PI, Intel Parallel Computing Center, Accurate and Efficient Earthquake Simulations on Intel Xeon Phi, $140,000, 10/2015 - 9/2016
- NVIDIA Global Impact Award, $150,000, 5/2015 -
- Co-PI, NSF SI2-SSI: Community Software for Extreme-scale Computing in Earthquake System Science (Phase II), PI: T. Jordan (USC), $475,000, 06/2015 - 5/2018
- Co-PI, NSF SI2-SSI: A Sustainable Community Software Framework, PI: T. Jordan (USC), $420,000 ($2.5 M total), 08/2012 - 07/2016
- SDSC-PI, W.M. Keck Foundation, Collaboratory for Interseismic Simulation andcModeling (CISM), PI: T. Jordan (USC), $150,000, 07/2015-06/2018
- Co-PI, NSF Geoinformatics: Community Computational Platforms for Developing Three-Dimensional Models of Earth Structure, $140,000, PI: T. Jordan (USC), 5/2014 - 4/2016
- PI, NSF PRAC PAID IME Collaboration on Blue Waters, $75,000, 10/2015-9/2017
- SDSC-PI, NSF FESD Type 1: Fault Earthquake System Dynamics, PI: J. Dieterich (UCR), $500,000 ($4.6 M total), 8/2011 - 8/2017
- Co-PI, NSF Blue Waters Petascale Resource Allocation: Extending the Spatiotemporal Scales of Physics-based Seismic Hazard Analysis, PI: T.H. Jordan (USC), $40,000 Travel award (total), 07/2014 - 06/2016
- Co-PI, The Research Council of Norway R&D: User-friendly Programming of GPU-enhanced Clusters via Automated :Code Translation and Optimization, PI: X. Cai (SRL, Norway), $40K Travel award, 07/2012 - 06/2016
Selected Past Grants
- Co-PI, NSF SI2-SSI: A Sustainable Community Software Framework, PI: T. Jordan (USC), $420,000 ($2.5 M total), 05/2012 - 04/2015
- Co-PI, NSF SHF: Large: Collaborative Research: Unified Runtime for Supporting Hybrid Programming Models on Heterogeneous Architecture, PI: DK Panda (OSU), $118,498 ($1.8 M total), 05/2012 - 04/2015
- Co-PI, NSF Geoinformatics: Community Computational Platforms for Developing Three-Dimensional Models of Earth Structure, $290,000 ($1.8 M total), PI: T. Jordan, (USC), 07/2012 - 06/2014
- PI, SCEC Core: Accelerating CyberShake SGT Calculations on Heterogeneous Supercomputers, $35,000, 02/2012 - 12/2013
- PI, NSF/NCSA: Phase 1 Enhanced Intellectual Services- Direct PRAC Support- Press-On Blue Waters, $75,000, 05/2012 - 09/2013
- SDSC-PI, NSF Geoinformatics: A Petascale Cyberfacility for Physics-Based Seismic Hazard Analysis (PetaSHA-3), PI: T. Jordan (USC), $250,000 ($1.6 M total), 6/2010 - 12/2012
- NSF PetaApps-2: Outward on the Spiral: Petascale Inference in Earthquake System Science (PetaShake-2), 8/2007 - 07/2011
- NSF PetaApps-1: Collaborative Research: Enabling Earthquake System Science Through Petascale Calculations (PetaShake), 10/2007 - 09/2009
- NSF PRAC: Petascale Research in Earthquake System Science on Blue Waters (PressOnBlueWaters), 10/2009 - 9/2011
- NSF Geoinformatics: Petascale Cyberfacility for Physics-based Seismic Hazard Analysis (PetaSHA-2), 5/2008 - 4/2010
High Performance Computing Allocations
- PI, NSF XSEDE Resource Allocation (XRAC): Earthquake and Fault System Dynamics Research, 27.8 M Core-hours, 10/2013-9/2016
- Co-PI, NSF XSEDE Resource Allocation (XRAC): PetaSHA: An Earthquake System Science Approach to Physics-based Seismic Hazard Research, 133 M Core-hours in total, 2008-2013
- Co-PI, NSF Blue Waters Petascale Resource Allocation (PRAC): Extending the Spatiotemporal Scales of Physics-based Seismic Hazard Analysis, 12.66 M Blue Waters Node-hours, 7/2004-6/2016
- Co-PI, DOE INCITE: Physics-based Probabilistic Seismic Hazard Analysis / Deterministic Simulation of Large Regional Earthquakes at frequencies Up to 4 Hz, 223 M Processor-Hours on ORNL Jaguar/Titan and ANL Mira/Intrepid, 2009-2013; 433 M Processor-Hours on Titan/Mira, 2015-2016
- Co-PI, NCAR University ASD: Community Computational Platforms for Developing 3D Models of Earth Structure, 8.5 M Core-Hours on NCAR Yellowstone, 08/2012-11/2012
- Co-PI, Early Science Program: Using Multi-scale Dynamic Rupture Models to Improve Ground Motion Estimates, Department of Energy, 150 M ANL Next Generation Blue Gene core-hours, 2011-2013
- PI, NSF XRAC Medium Resource Allocation: Parallelization of a Finite Element Code for Petascale Dynamic Modeling, 110 K core-hours, 2010-2011
- PI, DOE INCITE: Blue Gene Watson Consortium Days, 2006 and 2007