High Performance Computing in Computational Chemistry: Methods and Machines

“…Quantum chemistry has historically been one of the leading fields in the use of parallel computing. − In view of the resource demands of many MCSCF and MRCI implementations, both in terms of CPU time and memory consumption, it is reasonable to efficiently exploit the inherent potential of today’s computational resources. However, the performance available from state-of-the-art computer systems is almost exclusively due to massively parallel execution.…”

Multiconfiguration Self-Consistent Field and Multireference Configuration Interaction Methods and Applications

“…Quantum chemistry has historically been one of the leading fields in the use of parallel computing. − In view of the resource demands of many MCSCF and MRCI implementations, both in terms of CPU time and memory consumption, it is reasonable to efficiently exploit the inherent potential of today’s computational resources. However, the performance available from state-of-the-art computer systems is almost exclusively due to massively parallel execution.…”

Multiconfiguration Self-Consistent Field and Multireference Configuration Interaction Methods and Applications

Parallel implementation of divide-and-conquer semiempirical quantum chemistry calculations

Parallel Processing forAb InitioQuantum Mechanical Methods