The work in this dissertation explores the use of massive computational power available through modern supercomputers as a virtual laboratory to aid drug discovery. As of November 2013, Tianhe-2, the fastest supercomputer in the world, has a theoretical performance peak of 54,902 TFlop/s or nearly 55 thousand trillion calculations per second. The Titan supercomputer located at Oak Ridge National Laboratory has 560,640 computing cores that can work in parallel to solve scientific problems. In order to harness this computational power to assist in drug discovery, tools are developed to aid in the preparation and analysis of high-throughput virtual docking screens, a tool to predict how and how well small molecules bind to disease associated p...
Abstract—we have developed a high-throughput docking (HTD)-based virtual screening scheme, termed Hi...
This IBM ® Redpaper publication presents a virtual screening study of the DOCK Version 6.0 molecular...
Drug discovery is the most expensive, time-demanding, and challenging project in biopharmaceutical c...
Finding a novel drug is a very long and complex procedure. Using computer simulations, it is possibl...
Virtual high-throughput screening (vHTS) is an invaluable method in modern drug discovery. It permit...
Large-scale computing technologies have enabled high-throughput virtual screening involving thousand...
PCSV, article in press in Parallel ComputingLarge scale grids for in silico drug discovery open oppo...
The social and economic impact of the COVID-19 pandemic demands a reduction of the time required to ...
The ever-increasing amount of computational power available has made it possible to use docking prog...
Virtual screening is one of the early stages that aims to select a set of promising ligands from a ...
We survey low cost high-throughput virtual screening (HTVS) computer programs for instructors who wi...
Docking is a computational technique which predicts the interaction between a protein and a potentia...
In my dissertation, we evaluate the current landscape of computation, using as a case study a high-i...
Ultra-large-scale molecular docking can improve the accuracy of lead compounds in drug discovery. In...
Molecular docking is a computational technique which predicts the binding energy and the preferred b...
Abstract—we have developed a high-throughput docking (HTD)-based virtual screening scheme, termed Hi...
This IBM ® Redpaper publication presents a virtual screening study of the DOCK Version 6.0 molecular...
Drug discovery is the most expensive, time-demanding, and challenging project in biopharmaceutical c...
Finding a novel drug is a very long and complex procedure. Using computer simulations, it is possibl...
Virtual high-throughput screening (vHTS) is an invaluable method in modern drug discovery. It permit...
Large-scale computing technologies have enabled high-throughput virtual screening involving thousand...
PCSV, article in press in Parallel ComputingLarge scale grids for in silico drug discovery open oppo...
The social and economic impact of the COVID-19 pandemic demands a reduction of the time required to ...
The ever-increasing amount of computational power available has made it possible to use docking prog...
Virtual screening is one of the early stages that aims to select a set of promising ligands from a ...
We survey low cost high-throughput virtual screening (HTVS) computer programs for instructors who wi...
Docking is a computational technique which predicts the interaction between a protein and a potentia...
In my dissertation, we evaluate the current landscape of computation, using as a case study a high-i...
Ultra-large-scale molecular docking can improve the accuracy of lead compounds in drug discovery. In...
Molecular docking is a computational technique which predicts the binding energy and the preferred b...
Abstract—we have developed a high-throughput docking (HTD)-based virtual screening scheme, termed Hi...
This IBM ® Redpaper publication presents a virtual screening study of the DOCK Version 6.0 molecular...
Drug discovery is the most expensive, time-demanding, and challenging project in biopharmaceutical c...