lorene 0.0.0~cvs20161116+dfsg-1ubuntu11 source package in Ubuntu

Changelog

lorene (0.0.0~cvs20161116+dfsg-1ubuntu11) lunar; urgency=medium

  * No-change rebuild with LTO version 12.0

 -- Graham Inggs <email address hidden>  Mon, 28 Nov 2022 11:06:12 +0000

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Uploaded by:
Graham Inggs
Uploaded to:
Lunar
Original maintainer:
Ubuntu Developers
Architectures:
any all
Section:
misc
Urgency:
Medium Urgency

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Series Pocket Published Component Section
Lunar release universe misc

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File Size SHA-256 Checksum
lorene_0.0.0~cvs20161116+dfsg.orig.tar.xz 2.8 MiB 3ed19059e2178a4387ecccfbffebaf129182f1b813fb5ae6d71c914e43d6cd1a
lorene_0.0.0~cvs20161116+dfsg-1ubuntu11.debian.tar.xz 7.7 KiB 4302653e61c112be248a22cbc5e79e00d971ee99e53bd80d0ddfd0e814af0630
lorene_0.0.0~cvs20161116+dfsg-1ubuntu11.dsc 2.6 KiB ea6c5f13fad23f547cee031b092da77eb2f19aef5e940aadb6b217272631113a

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Binary packages built by this source

liblorene-debian1: liblorene shared library

 LORENE is a set of C++ classes to solve various problems arising in
 numerical relativity, and more generally in computational
 astrophysics. It provides tools to solve partial differential
 equations by means of multi-domain spectral methods.
 .
 This package contains a shared library version of the liblorene library.

liblorene-debian1-dbgsym: debug symbols for liblorene-debian1
liblorene-dev: development files for the LORENE framework for numerical relativity

 LORENE is a set of C++ classes to solve various problems arising in
 numerical relativity, and more generally in computational
 astrophysics. It provides tools to solve partial differential
 equations by means of multi-domain spectral methods.
 .
 This package contains the static libraries and include files
 necessary to build LORENE codes or applications using LORENE.
 .
 Compiling LORENE codes (including some that are shipped in the
 lorene-codes-src package) often requires a Fortran compiler. LORENE
 is configured to use gfortran.

liblorene-export-debian0: liblorene_export shared library

 LORENE is a set of C++ classes to solve various problems arising in
 numerical relativity, and more generally in computational
 astrophysics. It provides tools to solve partial differential
 equations by means of multi-domain spectral methods.
 .
 This package contains a shared library version of the liblorene_export library.

liblorene-export-debian0-dbgsym: debug symbols for liblorene-export-debian0
liblorenef77-debian1: liblorenef77 shared library

 LORENE is a set of C++ classes to solve various problems arising in
 numerical relativity, and more generally in computational
 astrophysics. It provides tools to solve partial differential
 equations by means of multi-domain spectral methods.
 .
 This package contains a shared library version of the liblorenef77 library.

liblorenef77-debian1-dbgsym: debug symbols for liblorenef77-debian1
lorene: framework for numerical relativity

 LORENE is a set of C++ classes to solve various problems arising in
 numerical relativity, and more generally in computational
 astrophysics. It provides tools to solve partial differential
 equations by means of multi-domain spectral methods.
 .
 This metapackage depends on all of the LORENE software
 components. The reference guide is available in the lorene-doc
 package.

lorene-codes-src: source files of LORENE-based codes

 LORENE is a set of C++ classes to solve various problems arising in
 numerical relativity, and more generally in computational
 astrophysics. It provides tools to solve partial differential
 equations by means of multi-domain spectral methods.
 .
 This package contains the source files of several LORENE codes that
 need to be recompiled for each use case. The liblorene-dev package is
 necessary to compile those codes.

lorene-doc: documentation for LORENE

 LORENE is a set of C++ classes to solve various problems arising in
 numerical relativity, and more generally in computational
 astrophysics. It provides tools to solve partial differential
 equations by means of multi-domain spectral methods.
 .
 This package contains the LORENE reference guide