This project presents an integrated computational science approach to very high quality electronic structure and dynamics calculations that will (a) be broadly accessible to both the development and applications communities, (b) have the capability to address problems of great interest, such as the properties of liquids and solvent effects, and photochemical/photobiological dynamics with high accuracy, (c) provide interoperability and sustainability into the foreseeable future, and (d) solve bottlenecks including power consumption using accelerators
We have developed application software for PEZY SC2 many core processors.PEZY SC2 are the brand-new...
This paper introduces a conceptual 100BillionTransistor (100BT) SuperComputers-on-a-Chip consisting ...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
<div>This project presents an integrated computational science approach to very high quality electro...
The overarching goal of the ELSI (ELectronic Structure Infrastructure) project is the creation of an...
Author Institution: Department of Chemistry, The Ohio State UniversityComputational chemises today a...
For many years the performance of scientific softwares has been one of the keys to expand the fronti...
We have developed a highly efficient and scalable electronic structure code for parallel computers ...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
Accurate potential energy surfaces (PESs) combined with methods to solve the Schrレdinger equation fo...
The field of high-performance computing is developing at an extremely rapid pace. Massively parallel...
<div>Scientific applications such as quantum chemistry are enabled by efficient computational kernel...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
The past several decades have witnessed tremendous strides in the capabilities of computational chem...
We have developed application software for PEZY SC2 many core processors.PEZY SC2 are the brand-new...
This paper introduces a conceptual 100BillionTransistor (100BT) SuperComputers-on-a-Chip consisting ...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
<div>This project presents an integrated computational science approach to very high quality electro...
The overarching goal of the ELSI (ELectronic Structure Infrastructure) project is the creation of an...
Author Institution: Department of Chemistry, The Ohio State UniversityComputational chemises today a...
For many years the performance of scientific softwares has been one of the keys to expand the fronti...
We have developed a highly efficient and scalable electronic structure code for parallel computers ...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
Accurate potential energy surfaces (PESs) combined with methods to solve the Schrレdinger equation fo...
The field of high-performance computing is developing at an extremely rapid pace. Massively parallel...
<div>Scientific applications such as quantum chemistry are enabled by efficient computational kernel...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
The past several decades have witnessed tremendous strides in the capabilities of computational chem...
We have developed application software for PEZY SC2 many core processors.PEZY SC2 are the brand-new...
This paper introduces a conceptual 100BillionTransistor (100BT) SuperComputers-on-a-Chip consisting ...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...