Mount Sinai School of Medicine recently unveiled its new supercomputer that is helping researchers unlock the intricate mechanisms that lead to human diseases, and hasten the discovery of treatments for them. The computer, named Minerva, after the Roman goddess of wisdom and medicine, was custom-built by Patricia Kovatch, the school’s first Associate Dean for Scientific Computing.
Minerva provides 64 million hours of computation per year. It has 7,680 processing cores, a peak speed of 70,000 gigaflops, and 30 terabytes of random access memory, making it one of the nation’s highest-performing computers in academic medicine.
“With its tremendous strength and speed, Minerva enables scientists to analyze and manipulate large data sets by running longer, more complex simulations,” says Ms. Kovatch. “This state-of-the-art technology will empower Mount Sinai’s researchers to expand the boundaries of their scholarly inquiry.” The computer’s ability to provide researchers with real-time computation of advanced molecular models and a quick analysis of genomic patterns will help Mount Sinai usher in a new era of personalized and precision medicine. Eric Schadt, PhD, Director of the Institute for Genomics and Multiscale Biology, and his researchers have been using Minerva extensively in their work.