adios 1.13.1-30build2 source package in Ubuntu

Changelog

adios (1.13.1-30build2) jammy; urgency=medium

  * No-change rebuild with Python 3.10 only

 -- Graham Inggs <email address hidden>  Wed, 16 Mar 2022 21:20:19 +0000

Upload details

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

See full publishing history Publishing

Series Pocket Published Component Section
Jammy release universe science

Downloads

File Size SHA-256 Checksum
adios_1.13.1.orig.tar.xz 1.8 MiB cb75d370345b9bf644a44b6d82f1af2a4d39439b55f608d2ca88701bae2381e0
adios_1.13.1-30build2.debian.tar.xz 23.7 KiB 102c935073365a8ebad194d77391c39ed6066fa3c69456c0794a492900369a74
adios_1.13.1-30build2.dsc 3.2 KiB c0a4b23e82485399a0593aec40d31a184e329786761e468007a649437db7ea21

Available diffs

View changes file

Binary packages built by this source

libadios-bin: ADIOS Adaptable IO system for simulations - binaries

 The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists
 to describe the data in their code that may need to be written, read,
 or processed outside of the running simulation. By providing an external
 to the code XML file describing the various elements, their types, and
 how you wish to process them this run, the routines in the host code
 (either Fortran or C) can transparently change how they process the data.
 .
 This package provides tools for use with ADIOS.

libadios-bin-dbgsym: No summary available for libadios-bin-dbgsym in ubuntu kinetic.

No description available for libadios-bin-dbgsym in ubuntu kinetic.

libadios-dev: ADIOS Adaptable IO system for simulations

 The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists
 to describe the data in their code that may need to be written, read,
 or processed outside of the running simulation. By providing an external
 to the code XML file describing the various elements, their types, and
 how you wish to process them this run, the routines in the host code
 (either Fortran or C) can transparently change how they process the data.

libadios-examples: Examples for the ADIOS Adaptable IO system

 The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists
 to describe the data in their code that may need to be written, read,
 or processed outside of the running simulation. By providing an external
 to the code XML file describing the various elements, their types, and
 how you wish to process them this run, the routines in the host code
 (either Fortran or C) can transparently change how they process the data.

libadios-mpich-dev: ADIOS Adaptable IO system (MPICH development files)

 The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists
 to describe the data in their code that may need to be written, read,
 or processed outside of the running simulation. By providing an external
 to the code XML file describing the various elements, their types, and
 how you wish to process them this run, the routines in the host code
 (either Fortran or C) can transparently change how they process the data.

libadios-openmpi-dev: No summary available for libadios-openmpi-dev in ubuntu kinetic.

No description available for libadios-openmpi-dev in ubuntu kinetic.

python3-adios: Python3 interface to the ADIOS IO system

 This is a Python3 interface to ADIOS.
 .
 The Adaptable IO System (ADIOS) provides a simple, flexible way for scientists
 to describe the data in their code that may need to be written, read,
 or processed outside of the running simulation. By providing an external
 to the code XML file describing the various elements, their types, and
 how you wish to process them this run, the routines in the host code
 (either Fortran or C) can transparently change how they process the data.

python3-adios-dbgsym: debug symbols for python3-adios