chemps2 1.6-1build2 source package in Ubuntu

Changelog

chemps2 (1.6-1build2) xenial; urgency=medium

  * Rebuild against new gsl. Update references to libgsl0-dev to libgsl-
    dev.

 -- Iain Lane <email address hidden>  Tue, 10 Nov 2015 15:04:34 +0000

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Uploaded by:
Iain Lane
Uploaded to:
Xenial
Original maintainer:
Debichem Team
Architectures:
any all
Section:
misc
Urgency:
Medium Urgency

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chemps2_1.6.orig.tar.gz 699.1 KiB aa1226cba0fe14ae5083833902cacffeb565a9d5e8f40dddb9d563b8fa6679d8
chemps2_1.6-1build2.debian.tar.xz 11.0 KiB fabeccd433d50094aa42dc459b1620230431547539dd5cabde3ab7196319f2b6
chemps2_1.6-1build2.dsc 2.4 KiB f00179789d639224b867a5b9ca30d1edcf3209a1fed6969c541f7f72f5c787c4

Available diffs

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Binary packages built by this source

chemps2: Executable to call libchemps2-1 from the command line

 chemps2 is a scientific library which contains a spin-adapted
 implementation of the density matrix renormalization group (DMRG)
 for ab initio quantum chemistry. This method allows one to obtain
 numerical accuracy in active spaces beyond the capabilities of
 full configuration interaction (FCI).
 .
 For an input Hamiltonian and targeted symmetry sector, the library
 performs successive DMRG sweeps according to a user-defined
 convergence scheme. As output, the library returns the minimal
 encountered energy as well as the second order reduced density
 matrix (2-RDM) of the active space. With the latter, various
 molecular properties can be calculated, as well as the gradient and
 Hessian for orbital rotations or nuclear displacements. In addition,
 several correlation functions can be obtained to investigate the
 electronic structure in the active space.
 .
 This package installs the executable which parses Hamiltonians in
 fcidump format, performs DMRG sweeps according to a user-defined
 convergence scheme, and writes the 2-RDM as output.

chemps2-dbgsym: debug symbols for package chemps2

 chemps2 is a scientific library which contains a spin-adapted
 implementation of the density matrix renormalization group (DMRG)
 for ab initio quantum chemistry. This method allows one to obtain
 numerical accuracy in active spaces beyond the capabilities of
 full configuration interaction (FCI).
 .
 For an input Hamiltonian and targeted symmetry sector, the library
 performs successive DMRG sweeps according to a user-defined
 convergence scheme. As output, the library returns the minimal
 encountered energy as well as the second order reduced density
 matrix (2-RDM) of the active space. With the latter, various
 molecular properties can be calculated, as well as the gradient and
 Hessian for orbital rotations or nuclear displacements. In addition,
 several correlation functions can be obtained to investigate the
 electronic structure in the active space.
 .
 This package installs the executable which parses Hamiltonians in
 fcidump format, performs DMRG sweeps according to a user-defined
 convergence scheme, and writes the 2-RDM as output.

chemps2-doc: Documentation of the libchemps2-1 package

 chemps2 is a scientific library which contains a spin-adapted
 implementation of the density matrix renormalization group (DMRG)
 for ab initio quantum chemistry. This method allows one to obtain
 numerical accuracy in active spaces beyond the capabilities of
 full configuration interaction (FCI).
 .
 For an input Hamiltonian and targeted symmetry sector, the library
 performs successive DMRG sweeps according to a user-defined
 convergence scheme. As output, the library returns the minimal
 encountered energy as well as the second order reduced density
 matrix (2-RDM) of the active space. With the latter, various
 molecular properties can be calculated, as well as the gradient and
 Hessian for orbital rotations or nuclear displacements. In addition,
 several correlation functions can be obtained to investigate the
 electronic structure in the active space.
 .
 This is the common documentation package.

libchemps2-1: Spin-adapted DMRG for ab initio quantum chemistry

 chemps2 is a scientific library which contains a spin-adapted
 implementation of the density matrix renormalization group (DMRG)
 for ab initio quantum chemistry. This method allows one to obtain
 numerical accuracy in active spaces beyond the capabilities of
 full configuration interaction (FCI): up to 40 electrons in 40
 orbitals for general active spaces; and up to 100 electrons in
 100 orbitals for one-dimensional active spaces, such as the
 pi-system of all-trans polyenes.
 .
 For an input Hamiltonian and targeted symmetry sector, the library
 performs successive DMRG sweeps according to a user-defined
 convergence scheme. As output, the library returns the minimal
 encountered energy as well as the second order reduced density
 matrix (2-RDM) of the active space. With the latter, various
 molecular properties can be calculated, as well as the gradient and
 Hessian for orbital rotations or nuclear displacements. In addition,
 several correlation functions can be obtained to investigate the
 electronic structure in the active space.
 .
 This version of chemps2 is parallelized for shared memory
 architectures with OpenMP.

libchemps2-1-dbgsym: debug symbols for package libchemps2-1

 chemps2 is a scientific library which contains a spin-adapted
 implementation of the density matrix renormalization group (DMRG)
 for ab initio quantum chemistry. This method allows one to obtain
 numerical accuracy in active spaces beyond the capabilities of
 full configuration interaction (FCI): up to 40 electrons in 40
 orbitals for general active spaces; and up to 100 electrons in
 100 orbitals for one-dimensional active spaces, such as the
 pi-system of all-trans polyenes.
 .
 For an input Hamiltonian and targeted symmetry sector, the library
 performs successive DMRG sweeps according to a user-defined
 convergence scheme. As output, the library returns the minimal
 encountered energy as well as the second order reduced density
 matrix (2-RDM) of the active space. With the latter, various
 molecular properties can be calculated, as well as the gradient and
 Hessian for orbital rotations or nuclear displacements. In addition,
 several correlation functions can be obtained to investigate the
 electronic structure in the active space.
 .
 This version of chemps2 is parallelized for shared memory
 architectures with OpenMP.

libchemps2-dev: C++ headers, static library, and symlink for libchemps2-1

 chemps2 is a scientific library which contains a spin-adapted
 implementation of the density matrix renormalization group (DMRG)
 for ab initio quantum chemistry. This method allows one to obtain
 numerical accuracy in active spaces beyond the capabilities of
 full configuration interaction (FCI).
 .
 For an input Hamiltonian and targeted symmetry sector, the library
 performs successive DMRG sweeps according to a user-defined
 convergence scheme. As output, the library returns the minimal
 encountered energy as well as the second order reduced density
 matrix (2-RDM) of the active space. With the latter, various
 molecular properties can be calculated, as well as the gradient and
 Hessian for orbital rotations or nuclear displacements. In addition,
 several correlation functions can be obtained to investigate the
 electronic structure in the active space.
 .
 This package installs the C++ headers, static library, and symlink
 for libchemps2.

python-chemps2: Python 2 interface for libchemps2-1

 chemps2 is a scientific library which contains a spin-adapted
 implementation of the density matrix renormalization group (DMRG)
 for ab initio quantum chemistry. This method allows one to obtain
 numerical accuracy in active spaces beyond the capabilities of
 full configuration interaction (FCI).
 .
 For an input Hamiltonian and targeted symmetry sector, the library
 performs successive DMRG sweeps according to a user-defined
 convergence scheme. As output, the library returns the minimal
 encountered energy as well as the second order reduced density
 matrix (2-RDM) of the active space. With the latter, various
 molecular properties can be calculated, as well as the gradient and
 Hessian for orbital rotations or nuclear displacements. In addition,
 several correlation functions can be obtained to investigate the
 electronic structure in the active space.
 .
 This package installs the library for Python 2.