Paper Info
Title
Concurrent and Adaptive Extreme Scale Binding Free Energy Calculations
Abstract
The efficacy of drug treatments depends on how tightly small molecules bind to their target proteins. The rapid and accurate quantification of the strength of these interactions (as measured by 'binding affinity') is a grand challenge of computational chemistry, surmounting which could revolutionize drug design and provide the platform for patient specific medicine. Recent evidence suggests that molecular dynamics (MD) can achieve useful predictive accuracy (? 1 kcal/mol). For this predictive accuracy to impact clinical decision making, binding free energy results must be turned around rapidly and without loss of accuracy. This demands advances in algorithms, scalable software systems, and efficient utilization of supercomputing resources. We introduce a framework called HTBAC, designed to support accurate and scalable drug binding affinity calculations, while marshaling large simulation campaigns. We show that HTBAC supports the specification and execution of adaptive free-energy protocols at scale and with minimal overheads on NCSA Blue Waters. We validate the results obtained and show how adaptivity can be used to improve accuracy while reducing resource consumption of TIES, a widely used free-energy protocol.
Year
DOI
Venue
2018
10.1109/eScience.2018.00034
2018 IEEE 14th International Conference on e-Science (e-Science)
Keywords
Field
DocType
binding affinity,adaptivity,scalability,molecular dynamics
Resource consumption,Extreme scale,Supercomputer,Adaptive system,Computer science,Marshalling,Software system,Blue Waters,Distributed computing,Scalability
Conference
ISSN
ISBN
Citations 
2325-372X
978-1-5386-9157-1
0
PageRank 
References 
Authors
0.34
0
6
Name
Order
Citations
PageRank
Jumana Dakka100.68
Kristof Farkas-Pall200.68
Matteo Turilli38416.21
David W. Wright4187.35
Peter V. Coveney520632.82
Shantenu Jha618832.40