Your search keyword '"Lopez, M. Graham"' showing total 4 results

1. QMCPACK: an open source ab initio quantum Monte Carlo package for the electronic structure of atoms, molecules and solids.

Author

Kim, Jeongnim, Kim, Jeongnim, Baczewski, Andrew T, Beaudet, Todd D, Benali, Anouar, Bennett, M Chandler, Berrill, Mark A, Blunt, Nick S, Borda, Edgar Josué Landinez, Casula, Michele, Ceperley, David M, Chiesa, Simone, Clark, Bryan K, Clay, Raymond C, Delaney, Kris T, Dewing, Mark, Esler, Kenneth P, Hao, Hongxia, Heinonen, Olle, Kent, Paul RC, Krogel, Jaron T, Kylänpää, Ilkka, Li, Ying Wai, Lopez, M Graham, Luo, Ye, Malone, Fionn D, Martin, Richard M, Mathuriya, Amrita, McMinis, Jeremy, Melton, Cody A, Mitas, Lubos, Morales, Miguel A, Neuscamman, Eric, Parker, William D, Pineda Flores, Sergio D, Romero, Nichols A, Rubenstein, Brenda M, Shea, Jacqueline AR, Shin, Hyeondeok, Shulenburger, Luke, Tillack, Andreas F, Townsend, Joshua P, Tubman, Norm M, Van Der Goetz, Brett, Vincent, Jordan E, Yang, D ChangMo, Yang, Yubo, Zhang, Shuai, Zhao, Luning, Kim, Jeongnim, Kim, Jeongnim, Baczewski, Andrew T, Beaudet, Todd D, Benali, Anouar, Bennett, M Chandler, Berrill, Mark A, Blunt, Nick S, Borda, Edgar Josué Landinez, Casula, Michele, Ceperley, David M, Chiesa, Simone, Clark, Bryan K, Clay, Raymond C, Delaney, Kris T, Dewing, Mark, Esler, Kenneth P, Hao, Hongxia, Heinonen, Olle, Kent, Paul RC, Krogel, Jaron T, Kylänpää, Ilkka, Li, Ying Wai, Lopez, M Graham, Luo, Ye, Malone, Fionn D, Martin, Richard M, Mathuriya, Amrita, McMinis, Jeremy, Melton, Cody A, Mitas, Lubos, Morales, Miguel A, Neuscamman, Eric, Parker, William D, Pineda Flores, Sergio D, Romero, Nichols A, Rubenstein, Brenda M, Shea, Jacqueline AR, Shin, Hyeondeok, Shulenburger, Luke, Tillack, Andreas F, Townsend, Joshua P, Tubman, Norm M, Van Der Goetz, Brett, Vincent, Jordan E, Yang, D ChangMo, Yang, Yubo, Zhang, Shuai, and Zhao, Luning

Abstract

QMCPACK is an open source quantum Monte Carlo package for ab initio electronic structure calculations. It supports calculations of metallic and insulating solids, molecules, atoms, and some model Hamiltonians. Implemented real space quantum Monte Carlo algorithms include variational, diffusion, and reptation Monte Carlo. QMCPACK uses Slater-Jastrow type trial wavefunctions in conjunction with a sophisticated optimizer capable of optimizing tens of thousands of parameters. The orbital space auxiliary-field quantum Monte Carlo method is also implemented, enabling cross validation between different highly accurate methods. The code is specifically optimized for calculations with large numbers of electrons on the latest high performance computing architectures, including multicore central processing unit and graphical processing unit systems. We detail the program's capabilities, outline its structure, and give examples of its use in current research calculations. The package is available at http://qmcpack.org.

Published

2018

2. QMCPACK: an open source ab initio quantum Monte Carlo package for the electronic structure of atoms, molecules and solids.

Author

Kim, Jeongnim, Kim, Jeongnim, Baczewski, Andrew T, Beaudet, Todd D, Benali, Anouar, Bennett, M Chandler, Berrill, Mark A, Blunt, Nick S, Borda, Edgar Josué Landinez, Casula, Michele, Ceperley, David M, Chiesa, Simone, Clark, Bryan K, Clay, Raymond C, Delaney, Kris T, Dewing, Mark, Esler, Kenneth P, Hao, Hongxia, Heinonen, Olle, Kent, Paul RC, Krogel, Jaron T, Kylänpää, Ilkka, Li, Ying Wai, Lopez, M Graham, Luo, Ye, Malone, Fionn D, Martin, Richard M, Mathuriya, Amrita, McMinis, Jeremy, Melton, Cody A, Mitas, Lubos, Morales, Miguel A, Neuscamman, Eric, Parker, William D, Pineda Flores, Sergio D, Romero, Nichols A, Rubenstein, Brenda M, Shea, Jacqueline AR, Shin, Hyeondeok, Shulenburger, Luke, Tillack, Andreas F, Townsend, Joshua P, Tubman, Norm M, Van Der Goetz, Brett, Vincent, Jordan E, Yang, D ChangMo, Yang, Yubo, Zhang, Shuai, Zhao, Luning, Kim, Jeongnim, Kim, Jeongnim, Baczewski, Andrew T, Beaudet, Todd D, Benali, Anouar, Bennett, M Chandler, Berrill, Mark A, Blunt, Nick S, Borda, Edgar Josué Landinez, Casula, Michele, Ceperley, David M, Chiesa, Simone, Clark, Bryan K, Clay, Raymond C, Delaney, Kris T, Dewing, Mark, Esler, Kenneth P, Hao, Hongxia, Heinonen, Olle, Kent, Paul RC, Krogel, Jaron T, Kylänpää, Ilkka, Li, Ying Wai, Lopez, M Graham, Luo, Ye, Malone, Fionn D, Martin, Richard M, Mathuriya, Amrita, McMinis, Jeremy, Melton, Cody A, Mitas, Lubos, Morales, Miguel A, Neuscamman, Eric, Parker, William D, Pineda Flores, Sergio D, Romero, Nichols A, Rubenstein, Brenda M, Shea, Jacqueline AR, Shin, Hyeondeok, Shulenburger, Luke, Tillack, Andreas F, Townsend, Joshua P, Tubman, Norm M, Van Der Goetz, Brett, Vincent, Jordan E, Yang, D ChangMo, Yang, Yubo, Zhang, Shuai, and Zhao, Luning

Abstract

QMCPACK is an open source quantum Monte Carlo package for ab initio electronic structure calculations. It supports calculations of metallic and insulating solids, molecules, atoms, and some model Hamiltonians. Implemented real space quantum Monte Carlo algorithms include variational, diffusion, and reptation Monte Carlo. QMCPACK uses Slater-Jastrow type trial wavefunctions in conjunction with a sophisticated optimizer capable of optimizing tens of thousands of parameters. The orbital space auxiliary-field quantum Monte Carlo method is also implemented, enabling cross validation between different highly accurate methods. The code is specifically optimized for calculations with large numbers of electrons on the latest high performance computing architectures, including multicore central processing unit and graphical processing unit systems. We detail the program's capabilities, outline its structure, and give examples of its use in current research calculations. The package is available at http://qmcpack.org.

Published

2018

3. OpenSHMEM and Related Technologies. Experiences, Implementations, and Technologies : Second Workshop, OpenSHMEM 2015, Annapolis, MD, USA, August 4-6, 2015. Revised Selected Papers / edited by Manjunath Gorentla Venkata, Pavel Shamis, Neena Imam, M. Graham Lopez.

Author

Gorentla Venkata, Manjunath. editor., Shamis, Pavel. editor., Imam, Neena. editor., Lopez, M. Graham. editor., SpringerLink (Online service), Gorentla Venkata, Manjunath. editor., Shamis, Pavel. editor., Imam, Neena. editor., Lopez, M. Graham. editor., and SpringerLink (Online service)

Abstract

This book constitutes the proceedings of the Second OpenSHMEM Workshop, held in Annapolis, MD, USA, in August 2015. The 12 technical papers and one short position papers presented in this book were carefully reviewed and selected from 17 submissions. The topics of the workshop included extensions to the OpenSHMEM API, implementation of the API for current and emerging architectures, tools to debug and profile OpenSHMEM programs, experience porting applications to the OpenSHMEM programming model, and changes to the OpenSHMEM specification to address the needs of programming exascale systems.

Published

2015

4. OpenSHMEM and Related Technologies. Experiences, Implementations, and Technologies : Second Workshop, OpenSHMEM 2015, Annapolis, MD, USA, August 4-6, 2015. Revised Selected Papers / edited by Manjunath Gorentla Venkata, Pavel Shamis, Neena Imam, M. Graham Lopez.

Author

Gorentla Venkata, Manjunath. editor., Shamis, Pavel. editor., Imam, Neena. editor., Lopez, M. Graham. editor., SpringerLink (Online service), Gorentla Venkata, Manjunath. editor., Shamis, Pavel. editor., Imam, Neena. editor., Lopez, M. Graham. editor., and SpringerLink (Online service)

Abstract

This book constitutes the proceedings of the Second OpenSHMEM Workshop, held in Annapolis, MD, USA, in August 2015. The 12 technical papers and one short position papers presented in this book were carefully reviewed and selected from 17 submissions. The topics of the workshop included extensions to the OpenSHMEM API, implementation of the API for current and emerging architectures, tools to debug and profile OpenSHMEM programs, experience porting applications to the OpenSHMEM programming model, and changes to the OpenSHMEM specification to address the needs of programming exascale systems.

Published

2015