The strategy and implementation of scalable and efficient semiempirical (SE) QM/MM methods in CHARMM are described. The serial version of the code was first profiled to identify routines that required parallelization. Afterward, the code was parallelized and accelerated with three approaches. The first approach was the parallelization of the entire QM/MM routines, including the Fock matrix diagonalization routines, using the CHARMM message passage interface (MPI) machinery. In the second approach, two different self-consistent field (SCF) energy convergence accelerators were implemented using density and Fock matrices as targets for their extrapolations in the SCF procedure. In the third approach, the entire QM/MM and MM energy routines wer...
We present a highly scalable DFT-based QM/MM implementation developed within MiMiC, a recently intro...
Our goal was to investigate the suitability of parallel supercomputer architectures for Quantum Mont...
Computational chemists have successfully simulated many systems by applying the principles of quantu...
We propose a new adaptive QM/MM method, the size-consistent multipartitioning (SCMP) QM/MM scheme, w...
simulation programs includes a new semi-empirical hybrid QM/MM functional-ity. This includes support...
In this study, we present some modifications in the semiempirical quantum chemistry MOPAC2009 code t...
We discuss the computational bottlenecks in molecular dynamics (MD) and describe the challenges in p...
The CPMD code is a highly efficient massively parallel first-principles (quantum) molecular dynamics...
h i g h l i g h t s • We discuss computational bottlenecks in MD and discuss challenges in paralleli...
A parallel implementation of the conventionally used NDDO (MNDO, AM1, PM3, CLUSTER-Z1) and modified ...
We have implemented a parallel divide-and-conquer method for semiempirical quantum mechanical calcul...
A parallel realization of the NDDO-WF technique for semi-empirical quantum-chemical calculations on ...
The major achievements enabled by QMC Endstation grant include * Performance improvement on clusters...
We present a highly scalable DFT-based QM/MM implementation developed within MiMiC, a recently intro...
Key parts of the semiempirical MOPAC program package have been ported to parallel computers using th...
We present a highly scalable DFT-based QM/MM implementation developed within MiMiC, a recently intro...
Our goal was to investigate the suitability of parallel supercomputer architectures for Quantum Mont...
Computational chemists have successfully simulated many systems by applying the principles of quantu...
We propose a new adaptive QM/MM method, the size-consistent multipartitioning (SCMP) QM/MM scheme, w...
simulation programs includes a new semi-empirical hybrid QM/MM functional-ity. This includes support...
In this study, we present some modifications in the semiempirical quantum chemistry MOPAC2009 code t...
We discuss the computational bottlenecks in molecular dynamics (MD) and describe the challenges in p...
The CPMD code is a highly efficient massively parallel first-principles (quantum) molecular dynamics...
h i g h l i g h t s • We discuss computational bottlenecks in MD and discuss challenges in paralleli...
A parallel implementation of the conventionally used NDDO (MNDO, AM1, PM3, CLUSTER-Z1) and modified ...
We have implemented a parallel divide-and-conquer method for semiempirical quantum mechanical calcul...
A parallel realization of the NDDO-WF technique for semi-empirical quantum-chemical calculations on ...
The major achievements enabled by QMC Endstation grant include * Performance improvement on clusters...
We present a highly scalable DFT-based QM/MM implementation developed within MiMiC, a recently intro...
Key parts of the semiempirical MOPAC program package have been ported to parallel computers using th...
We present a highly scalable DFT-based QM/MM implementation developed within MiMiC, a recently intro...
Our goal was to investigate the suitability of parallel supercomputer architectures for Quantum Mont...
Computational chemists have successfully simulated many systems by applying the principles of quantu...