Paper Info
Title
Accelerating knowledge-based energy evaluation in protein structure modeling with Graphics Processing Units
Abstract
Evaluating the energy of a protein molecule is one of the most computationally costly operations in many protein structure modeling applications. In this paper, we present an efficient implementation of knowledge-based energy functions by taking advantage of the recent Graphics Processing Unit (GPU) architectures. We use DFIRE, a knowledge-based all-atom potential, as an example to demonstrate our GPU implementations on the latest NVIDIA Fermi architecture. A load balancing workload distribution scheme is designed to assign computations of pair-wise atom interactions to threads to achieve perfect or near-perfect load balancing in the symmetric N-body problem in DFIRE. Reorganizing atoms in the protein also improves the cache efficiency in Fermi GPU architecture, which is particularly effective for small proteins. Our DFIRE implementation on GPU (GPU-DFIRE) has exhibited a speedup of up to ~150 on NVIDIA Quadro FX3800M and ~250 on NVIDIA Tesla M2050 compared to the serial DFIRE implementation on CPU. Furthermore, we show that protein structure modeling applications, including a Monte Carlo sampling program and a local optimization program, can benefit from GPU-DFIRE with little programming modification but significant computational performance improvement.
Year
DOI
Venue
2012
10.1016/j.jpdc.2011.10.005
J. Parallel Distrib. Comput.
Keywords
Field
DocType
serial dfire implementation,protein molecule,nvidia tesla m2050,protein structure modeling application,gpu implementation,dfire implementation,efficient implementation,fermi gpu architecture,knowledge-based energy evaluation,graphics processing units,nvidia quadro fx3800m,small protein,protein modeling
Graphics,Protein structure prediction,Computer science,Load balancing (computing),Cache,Parallel computing,Thread (computing),Computational science,Graphics processing unit,Performance improvement,Speedup
Journal
Volume
Issue
ISSN
72
2
0743-7315
Citations 
PageRank 
References 
5
0.52
7
Authors
2
Name
Order
Citations
PageRank
Ashraf Yaseen1534.24
Yaohang Li230646.46