40 new powerful compute nodes added to HPC
The RCC's High Performance Computing Cluster has been upgraded with 40 new compute nodes ready to be utilized in your research.
Multiphase Flow Simulations That Answer Real-World Problems
Dr. Mark Sussman harnesses supercomputing resources from the RCC's High Performance Computing Cluster to create realistic simulations of natural phenomena.
The Recent Discovery of the How and Why of DNA Replication Timing
Dr. David Gilbert utilizes the RCC's immense archival storage to house and access his research data on DNA replication in the hopes of cracking the code to treat debilitating conditions.
Understanding Designs of Auction Markets through Monte Carlo Simulations
Dr. Matthew Gentry studies the design of auction markets by using the RCC's High Performance Computing Cluster to perform complex simulations on a large scale.
Julia Wang studies diabetes through a molecular lens
Dr. Julia Wang collaborates with the RCC to perform complex data analyses on beta cells in the hopes of finding a new direction where a cure for diabetes can be developed.
Zooming in on the Ocean by Researching the Submesoscale Process
Dr. Xu Chen is able to develop simulations of the ocean's submesoscale process through a high-resolution lens made possible by RCC's computational resources.
Computational Techniques in Biophysics
Dr. Wei Yang makes his "dreams come true" by harnessing RCC resources to deconstruct biological molecules through computer simulations.
How the U.S Responded to a Global Pandemic through Twitter
Miranda Phillips taps into RCC resources to develop model software that analyzes social media posts reacting to the COVID-19 pandemic in the hopes of helping public officials handle similar situations in the future.
FSU Development of Meta-Analysis and Statistical Methodology
Dr. Lifeng Lin utilizes the RCC's High Performance Computing Cluster to run thousands of simulation studies to discover the effectiveness of COVID-19 vaccines.
