The CCSD(T) coupled-cluster model with perturbative triples is considered a gold standard for computational modeling of the correlated behavior of electrons in molecular systems. A fundamental constraint is the relatively small global memory capacity in GPUs compared to the main memory capacity on host nodes, necessitating relatively smaller tile sizes for high-dimensional tensor contractions in NWChem's GPU-accelerated implementation of the CCSD(T) method. A coordinated redesign is described to address this limitation and associated data movement overheads, including a novel fused GPU kernel for a set of tensor contractions, along with inter-node communication optimization and data caching. The new implementation of GPU-accelerated CCSD(T)...
We explore the framework of a real-time coupled cluster method with a focus on improving its computa...
Abstract—NWChem is one of the most widely used compu-tational chemistry application suites for chemi...
In the last decade, stochastic versions of quantum chemistry methods such as coupled cluster Monte C...
A new coupled cluster singles and doubles with triples correction, CCSD(T), algorithm is presented. ...
Coupled-cluster methods provide highly accurate models of molecular structure through explicit numer...
The coupled cluster singles and doubles (CCSD) algorithm in the NWChem software package has been opt...
We present a near-linear scaling formulation of the explicitly correlated coupled-cluster singles an...
An efficient and highly vectorized implementation of the coupled cluster singles and doubles (CCSD) ...
: Many-body perturbation theory is a powerful method to simulate electronic excitations in molecules...
We present an efficient implementation of the closed shell multilevel coupled cluster method where c...
A parallel coupled cluster algorithm that combines distributed and shared memory techniques for the ...
We present a massive-parallel implementation of the resolution-of-identity (RI) coupled-cluster appr...
The coupled cluster singles and doubles (CCSD) model has been implemented using a direct atomic inte...
An efficient and highly vectorized implementation of the coupled cluster singles and doubles (CCSD) ...
We investigate how the coupled cluster method at the level of doubles and triples amplitudes contrib...
We explore the framework of a real-time coupled cluster method with a focus on improving its computa...
Abstract—NWChem is one of the most widely used compu-tational chemistry application suites for chemi...
In the last decade, stochastic versions of quantum chemistry methods such as coupled cluster Monte C...
A new coupled cluster singles and doubles with triples correction, CCSD(T), algorithm is presented. ...
Coupled-cluster methods provide highly accurate models of molecular structure through explicit numer...
The coupled cluster singles and doubles (CCSD) algorithm in the NWChem software package has been opt...
We present a near-linear scaling formulation of the explicitly correlated coupled-cluster singles an...
An efficient and highly vectorized implementation of the coupled cluster singles and doubles (CCSD) ...
: Many-body perturbation theory is a powerful method to simulate electronic excitations in molecules...
We present an efficient implementation of the closed shell multilevel coupled cluster method where c...
A parallel coupled cluster algorithm that combines distributed and shared memory techniques for the ...
We present a massive-parallel implementation of the resolution-of-identity (RI) coupled-cluster appr...
The coupled cluster singles and doubles (CCSD) model has been implemented using a direct atomic inte...
An efficient and highly vectorized implementation of the coupled cluster singles and doubles (CCSD) ...
We investigate how the coupled cluster method at the level of doubles and triples amplitudes contrib...
We explore the framework of a real-time coupled cluster method with a focus on improving its computa...
Abstract—NWChem is one of the most widely used compu-tational chemistry application suites for chemi...
In the last decade, stochastic versions of quantum chemistry methods such as coupled cluster Monte C...