Code interoperability and the search for domain-specific standard data formats represent critical issues in many areas of computational science. The advent of novel computing infrastructures such as computational grids and clouds make these issues even more urgent. The design and implementation of a common data format for quantum chemistry (QC) and quantum dynamics (QD) computer programs is discussed with reference to the research performed in the course of two Collaboration in Science and Technology Actions. The specific data models adopted, Q5Cost and D5Cost, are shown to work for a number of interoperating codes, regardless of the type and amount of information (small or large datasets) to be exchanged. The codes are either interfaced di...
This article summarizes technical advances contained in the fifth major release of the Q-Chem quantu...
We present the QMflows Python package for quantum chemistry workflow automatization. QMflows allows ...
Computational Quantum Chemistry has developed into a powerful, efficient, reliable and increasingly ...
Code interoperability and the search for domain-specific standard data formats represent critical is...
A common format for quantum chemistry (QC), enhancing code interoperability and communication betwee...
A particular data format for interchange, specifically designed for Quantum Chemistry programs, was ...
An XML based format is presented for representing quantities such as molecular geometries, basis set...
Ab initio quantum-chemistry programs produce and use large amounts of data, which are usually stored...
Community efforts in the computational molecular sciences (CMS) are evolving toward modular, open, a...
Community efforts in the computational molecular sciences (CMS) are evolving toward modular, open, a...
Three major high performance quantum chemistry computational packages, NWChem, GAMESS and MPQC have ...
The functionality of many materials is critically dependent on the integration of dissimilar compone...
A FORTRAN library has been designed and implemented in oreder to allow the storage of quantum chemis...
Abstract Computational Quantum Chemistry has developed into a powerful, efficient, reliable and incr...
This article summarizes technical advances contained in the fifth major release of the Q-Chem quantu...
This article summarizes technical advances contained in the fifth major release of the Q-Chem quantu...
We present the QMflows Python package for quantum chemistry workflow automatization. QMflows allows ...
Computational Quantum Chemistry has developed into a powerful, efficient, reliable and increasingly ...
Code interoperability and the search for domain-specific standard data formats represent critical is...
A common format for quantum chemistry (QC), enhancing code interoperability and communication betwee...
A particular data format for interchange, specifically designed for Quantum Chemistry programs, was ...
An XML based format is presented for representing quantities such as molecular geometries, basis set...
Ab initio quantum-chemistry programs produce and use large amounts of data, which are usually stored...
Community efforts in the computational molecular sciences (CMS) are evolving toward modular, open, a...
Community efforts in the computational molecular sciences (CMS) are evolving toward modular, open, a...
Three major high performance quantum chemistry computational packages, NWChem, GAMESS and MPQC have ...
The functionality of many materials is critically dependent on the integration of dissimilar compone...
A FORTRAN library has been designed and implemented in oreder to allow the storage of quantum chemis...
Abstract Computational Quantum Chemistry has developed into a powerful, efficient, reliable and incr...
This article summarizes technical advances contained in the fifth major release of the Q-Chem quantu...
This article summarizes technical advances contained in the fifth major release of the Q-Chem quantu...
We present the QMflows Python package for quantum chemistry workflow automatization. QMflows allows ...
Computational Quantum Chemistry has developed into a powerful, efficient, reliable and increasingly ...