Multi-core CPU or GPU-accelerated Multiscale Modeling for Biomolecular Complexes

Overview

Journal Mol Based Math Biol

Specialty Biology

Date 2013 Dec 20

PMID 24352481

Citations 8

Authors

Tao Liao

Yongjie Zhang

Peter M Kekenes-Huskey

Yuhui Cheng

Anushka Michailova

Andrew D McCulloch

Michael Holst

J Andrew McCammon

Affiliations

Soon will be listed here.

Abstract

Multi-scale modeling plays an important role in understanding the structure and biological functionalities of large biomolecular complexes. In this paper, we present an efficient computational framework to construct multi-scale models from atomic resolution data in the Protein Data Bank (PDB), which is accelerated by multi-core CPU and programmable Graphics Processing Units (GPU). A multi-level summation of Gaus-sian kernel functions is employed to generate implicit models for biomolecules. The coefficients in the summation are designed as functions of the structure indices, which specify the structures at a certain level and enable a local resolution control on the biomolecular surface. A method called neighboring search is adopted to locate the grid points close to the expected biomolecular surface, and reduce the number of grids to be analyzed. For a specific grid point, a KD-tree or bounding volume hierarchy is applied to search for the atoms contributing to its density computation, and faraway atoms are ignored due to the decay of Gaussian kernel functions. In addition to density map construction, three modes are also employed and compared during mesh generation and quality improvement to generate high quality tetrahedral meshes: CPU sequential, multi-core CPU parallel and GPU parallel. We have applied our algorithm to several large proteins and obtained good results.

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