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All checksums have been double-checked against existing RMD160 and
SHA512 hashes
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Install the new interchangeable BLAS system created by Thomas Orgis,
currently supporting Netlib BLAS/LAPACK, OpenBLAS, cblas, lapacke, and
Apple's Accelerate.framework. This system allows the user to select any
BLAS implementation without modifying packages or using package options, by
setting PKGSRC_BLAS_TYPES in mk.conf. See mk/blas.buildlink3.mk for details.
This commit should not alter behavior of existing packages as the system
defaults to Netlib BLAS/LAPACK, which until now has been the only supported
implementation.
Details:
Add new mk/blas.buildlink3.mk for inclusion in dependent packages
Install compatible Netlib math/blas and math/lapack packages
Update math/blas and math/lapack MAINTAINER approved by adam@
OpenBLAS, cblas, and lapacke will follow in separate commits
Update direct dependents to use mk/blas.buildlink3.mk
Perform recursive revbump
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pkglint -Wall -F --only aligned --only indent -r
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in biology/mopac), force it here too.
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Existing SHA1 digests verified, all found to be the same on the
machine holding the existing distfiles (morden). Existing SHA1
digests retained for now as an audit trail.
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having a PKGNAME of p5-*, or depending such a package,
for perl-5.22.0.
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Do it for all packages that
* mention perl, or
* have a directory name starting with p5-*, or
* depend on a package starting with p5-
like last time, for 5.18, where this didn't lead to complaints.
Let me know if you have any this time.
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a) refer 'perl' in their Makefile, or
b) have a directory name of p5-*, or
c) have any dependency on any p5-* package
Like last time, where this caused no complaints.
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File too long (should be no more than 24 lines).
Line too long (should be no more than 80 characters).
Trailing empty lines.
Trailing white-space.
Trucated the long files as best as possible while preserving the most info
contained in them.
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Skip interpreter check for tkmolrender.
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MPQC is the Massively Parallel Quantum Chemistry Program.
It computes properties of atoms and molecules from first
principles using the time independent Schroedinger equation.
It runs on a wide range of architectures ranging from single
many-core computers to massively parallel computers. Its design
is object oriented, using the C++ programming language.
Capabilities
* Closed shell, unrestricted and general restricted open shell
Hartree-Fock energies and gradients
* Closed shell, unrestricted and general restricted open shell
density functional theory energies and gradients
* Second order open shell perturbation theory (OPT2[2]) and
Z-averaged perturbation theory (ZAPT2) energies.
* Second order closed shell Moller-Plesset perturbation
theory energies and gradients.
* Second order Moller-Plesset perturbation theory
including an R12/F12 correlation factor. Energies of closed-
and open-shell systems are supported.
* Explicitly-correlated R12/F12 coupled-cluster methods via
interface to Psi3 code and via native (experimental)
implementation.
* Explicitly-correlated multireference methods (MRCI, CASPT2)
via interfaces to GAMESS and MOLCAS codes.
* Robust internal coordinate geometry optimizer that efficiently
optimizes molecules with many degrees of freedom. Nearly
arbitrary internal coordinate constraints can be handled.
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