libhmsbeagle 2.1.2+20160831-5ubuntu1 source package in Ubuntu

Changelog

libhmsbeagle (2.1.2+20160831-5ubuntu1) zesty; urgency=medium

  * Swap order of dependencies:  mesa-opencl-icd|beignet-opencl-icd

 -- Graham Inggs <email address hidden>  Tue, 11 Apr 2017 16:03:26 +0200

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Uploaded by:
Graham Inggs on 2017-04-11
Uploaded to:
Zesty
Original maintainer:
Ubuntu Developers
Architectures:
linux-any
Section:
libs
Urgency:
Medium Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Artful release on 2017-04-20 universe libs
Zesty release on 2017-04-11 universe libs

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File Size SHA-256 Checksum
libhmsbeagle_2.1.2+20160831.orig.tar.xz 243.1 KiB 476fd0a17f2b6ea9560cd0f0c9105936f5da77b9c85717cfaa6042a861a9782f
libhmsbeagle_2.1.2+20160831-5ubuntu1.debian.tar.xz 35.4 KiB 8730980060cc43d872aaa10ad1c17a82013aace68140e2ffe3deb19b0e7dd8e9
libhmsbeagle_2.1.2+20160831-5ubuntu1.dsc 2.5 KiB 80b736f5533ce10b6b782b3f8e09cd01c306686b0b7b242f98d340f535539596

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Binary packages built by this source

libhmsbeagle-dev: High-performance lib for Bayesian and Maximum Likelihood phylogenetics (devel)

 BEAGLE is a high-performance library that can perform the core calculations at
 the heart of most Bayesian and Maximum Likelihood phylogenetics packages. It
 can make use of highly-parallel processors such as those in graphics cards
 (GPUs) found in many PCs.
 .
 The project involves an open API and fast implementations of a library for
 evaluating phylogenetic likelihoods (continuous time Markov processes) of
 biomolecular sequence evolution.
 .
 The aim is to provide high performance evaluation 'services' to a wide range
 of phylogenetic software, both Bayesian samplers and Maximum Likelihood
 optimizers. This allows these packages to make use of implementations that
 make use of optimized hardware such as graphics processing units.
 .
 This package contains development files needed to build against Beagle library.

libhmsbeagle-java: High-performance lib for Bayesian and Maximum Likelihood phylogenetics (java)

 BEAGLE is a high-performance library that can perform the core calculations at
 the heart of most Bayesian and Maximum Likelihood phylogenetics packages. It
 can make use of highly-parallel processors such as those in graphics cards
 (GPUs) found in many PCs.
 .
 The project involves an open API and fast implementations of a library for
 evaluating phylogenetic likelihoods (continuous time Markov processes) of
 biomolecular sequence evolution.
 .
 The aim is to provide high performance evaluation 'services' to a wide range
 of phylogenetic software, both Bayesian samplers and Maximum Likelihood
 optimizers. This allows these packages to make use of implementations that
 make use of optimized hardware such as graphics processing units.
 .
 This package contains the Java interface.

libhmsbeagle1v5: High-performance lib for Bayesian and Maximum Likelihood phylogenetics

 BEAGLE is a high-performance library that can perform the core calculations at
 the heart of most Bayesian and Maximum Likelihood phylogenetics packages. It
 can make use of highly-parallel processors such as those in graphics cards
 (GPUs) found in many PCs.
 .
 The project involves an open API and fast implementations of a library for
 evaluating phylogenetic likelihoods (continuous time Markov processes) of
 biomolecular sequence evolution.
 .
 The aim is to provide high performance evaluation 'services' to a wide range
 of phylogenetic software, both Bayesian samplers and Maximum Likelihood
 optimizers. This allows these packages to make use of implementations that
 make use of optimized hardware such as graphics processing units.

libhmsbeagle1v5-dbgsym: debug symbols for package libhmsbeagle1v5

 BEAGLE is a high-performance library that can perform the core calculations at
 the heart of most Bayesian and Maximum Likelihood phylogenetics packages. It
 can make use of highly-parallel processors such as those in graphics cards
 (GPUs) found in many PCs.
 .
 The project involves an open API and fast implementations of a library for
 evaluating phylogenetic likelihoods (continuous time Markov processes) of
 biomolecular sequence evolution.
 .
 The aim is to provide high performance evaluation 'services' to a wide range
 of phylogenetic software, both Bayesian samplers and Maximum Likelihood
 optimizers. This allows these packages to make use of implementations that
 make use of optimized hardware such as graphics processing units.