Understanding the dynamics of quantized vortex rings in superfluid helium (He II)
Dr. Wei Guo taps into the power of the RCC's High Performance Computing Cluster to simulate vortex rings in action and ultimately measure the passage of time in the universe.
Making history accessible online
Dr. Will Hanley is researching how to make historical materials more accessible by digitizing copies of The Egyptian Gazette daily newspaper established in 1880.
Building a tool to spot Deepfakes
Dr. Shuyan Metcalfe taps into the RCC's High Performance Computing Cluster to develop machine-learning models that detect if deepfake technology is being utilized.
We're Hiring! Research Linux Systems Administrator
The RCC is hiring a Research Linux Systems Administrator to provide support for computational research.
Sliger Building now accepting more recycling items
FSU Sustainable Green Team has transformed the Sliger Building into a materials recovery facility to implement a viable recycling solution.
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.
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.