From 3eeec44dfc3a5f8e8561b69725f7ccab4c12b583 Mon Sep 17 00:00:00 2001 From: easybuild <easybuild@login2.bullx> Date: Thu, 10 Aug 2017 13:00:03 +0200 Subject: [PATCH] Thu, 10 Aug 2017 13:00:03 +0200 --- anselm.csv | 5 +++++ anselm.md | 3 ++- 2 files changed, 7 insertions(+), 1 deletion(-) diff --git a/anselm.csv b/anselm.csv index a4398d2c..58e42adf 100644 --- a/anselm.csv +++ b/anselm.csv @@ -322,6 +322,7 @@ Python/2.7.9,1 Python/2.7.11-intel-2015b,1 Python/2.7.11-intel-2017a,1 Python/2.7.12-intel-2017a,1 +Python/2.7.13-base,1 Python/2.7.13,1 Python/3.5.2-foss-2016a,1 Python/3.5.2-intel-2017.00,1 @@ -428,6 +429,7 @@ libxml2/2.9.3-foss-2016a,1 libxml2/2.9.3-intel-2016a,1 libxml2/2.9.4-Python-2.7.13,1 libxml2/2.9.4,1 +libxslt/1.1.29,1 nettle/3.2-intel-2017a,1 nettle/3.3-intel-2017a,1 snappy/1.1.3,1 @@ -539,6 +541,7 @@ numpy/1.8.2-intel-2015b-Python-2.7.9,1 numpy/1.8.2-intel-2015b-Python-2.7.11,1 numpy/1.8.2-intel-2016.01-Python-2.7.9,1 numpy/1.12.1-intel-2017a-Python-2.7.11,1 +numpy/1.13.0-Python-2.7.13-base,1 MPICH/3.2-GCC-4.9.3-2.25,1 OpenMPI/1.8.8-GNU-4.9.3-2.25,1 OpenMPI/1.8.8-iccifort-2015.3.187-GNU-4.9.3-2.25,1 @@ -934,6 +937,7 @@ fontconfig/2.12.1-libpng-1.6.29,1 freetype/2.5.3,1 freetype/2.6.3,1 freetype/2.7.1-libpng-1.6.29,1 +freetype/2.8,1 gettext/.0.19.2,1 gettext/0.19.2-foss-2015g,1 gettext/0.19.2,1 @@ -959,6 +963,7 @@ libXinerama/1.1.3,1 libXt/1.1.4-libX11-1.6.2,1 libXt/1.1.5,1 matplotlib/1.5.1-Python-2.7.13-freetype-2.6.3,1 +matplotlib/2.0.2-Python-2.7.13-base,1 matplotlib/2.0.2-Python-3.6.1-libpng-1.6.29,1 pixman/0.32.6,1 pixman/0.34.0,1 diff --git a/anselm.md b/anselm.md index e8cb6cdc..61b0699d 100644 --- a/anselm.md +++ b/anselm.md @@ -218,6 +218,7 @@ | [libunistring](http://www.gnu.org/software/libunistring/) | This library provides functions for manipulating Unicode strings and for manipulating C strings according to the Unicode standard. | | libxcb | | | libxml2 | | +| libxslt | | | nettle | | | PROJ | | | [SIONlib](http://www.fz-juelich.de/ias/jsc/EN/Expertise/Support/Software/SIONlib/_node.html) | SIONlib is a scalable I/O library for parallel access to task-local files. The library not only supports writing and reading binary data to or from several thousands of processors into a single or a small number of physical files, but also provides global open and close functions to access SIONlib files in parallel. This package provides a stripped-down installation of SIONlib for use with performance tools (e.g., Score-P), with renamed symbols to avoid conflicts when an application using SIONlib itself is linked against a tool requiring a different SIONlib version. | @@ -270,7 +271,7 @@ | METIS | | | [MLD2P4](http://www.mld2p4.it) | MLD2P4 (Multi-Level Domain Decomposition Parallel Preconditioners Package based on PSBLAS) is a package of parallel algebraic multi-level preconditioners. It implements various versions of one-level additive and of multi-level additive and hybrid Schwarz algorithms. In the multi-level case, a purely algebraic approach is applied to generate coarse-level corrections, so that no geometric background is needed concerning the matrix to be preconditioned. The matrix is assumed to be square, real or complex, with a symmetric sparsity pattern. | | MPFR | | -| [numpy](http://www.numpy.org) | NumPy is the fundamental package for scientific computing with Python. It contains among other things: a powerful N-dimensional array object, sophisticated (broadcasting) functions, tools for integrating C/C++ and Fortran code, useful linear algebra, Fourier transform, and random number capabilities. Besides its obvious scientific uses, NumPy can also be used as an efficient multi-dimensional container of generic data. Arbitrary data-types can be defined. This allows NumPy to seamlessly and speedily integrate with a wide variety of databases. | +| numpy | | | [Octave](http://www.gnu.org/software/octave/) | GNU Octave is a high-level interpreted language, primarily intended for numerical computations. | | [PSBLAS](http://people.uniroma2.it/salvatore.filippone/psblas/) | Most computationally intensive applications work on irregular and sparse domains that complicate their implementation on parallel machines. The major goal of the Parallel Sparse Basic Linear Algebra Subroutines (PSBLAS) project is to provide a framework to enable easy, efficient and portable implementations of iterative solvers for linear systems, while shielding the user from most details of their parallelization. The interface is designed keeping in view a Single Program Multiple Data programming model on distributed memory machines. | | [PSBLAS-ext](http://people.uniroma2.it/salvatore.filippone/psblas/) | PSBLAS - Extended formats and NVIDIA GPU support | -- GitLab