Update README.md

README.md

@@ -5,22 +5,33 @@ The Unified European Application Benchmark Suite (UEABS) is a set of 12 applicat
 
 For more details of the codes and datasets, and sample results, please see http://www.prace-ri.eu/IMG/pdf/d7.4_3ip.pdf
 
+
+Release notes for version 1.3, released on 1st June 2018 as a result of PRACE-4IP activities.
+Changes from version 1.2 are as follows:
+
+- CP2K: updated build instructions and datasets
+- QCD: new version of code and dataset
+- ALYA: new datasets
+- Code_Saturne: new code version, build instructions, and datasets
+- Quantum Espresso: new build/run instructions
+
+
 Release notes for version 1.2, released on 31st October 2016 as a result of PRACE-4IP activities.
 Changes from version 1.1 are as follows:
 
-GENE: new version of code and additional new dataset.
-GPAW: new version of code and new dataset.
-GROMACS: new version of code and updated dataset.
-NAMD: new version of code and minor build and run instructions updates.
-NEMO: new version of code and replaced dataset.
+- GENE: new version of code and additional new dataset.
+- GPAW: new version of code and new dataset.
+- GROMACS: new version of code and updated dataset.
+- NAMD: new version of code and minor build and run instructions updates.
+- NEMO: new version of code and replaced dataset.
 
 Release notes for version 1.1, released on 31st May 2014 as a resut of PRACE-3IP activities.
 Changes from version 1.0 are as follows:
 
-ALYA: new version of code and new datasets.
-Code_Saturne: additional large dataset, using tetrahedralelements.
-CP2K: new build instructions.
-GPAW: new dataset with reduced runtime.
+- ALYA: new version of code and new datasets.
+- Code_Saturne: additional large dataset, using tetrahedralelements.
+- CP2K: new build instructions.
+- GPAW: new dataset with reduced runtime.
 
 
 The codes composing the UEABS are:
@@ -46,8 +57,8 @@ The Alya System is a Computational Mechanics code capable of solving different p
 - Web site: https://www.bsc.es/computer-applications/alya-system
 - Code download: http://www.prace-ri.eu/UEABS/ALYA/1.1/alya3226.tar.gz
 - Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/alya/ALYA_Build_README.txt
-- Test Case A: http://www.prace-ri.eu/UEABS/ALYA/ALYA_TestCaseA.tar.gz
-- Test Case B: http://www.prace-ri.eu/UEABS/ALYA/ALYA_TestCaseB.tar.gz
+- Test Case A: http://www.prace-ri.eu/UEABS/ALYA/1.3/ALYA_TestCaseA.tar.bz2
+- Test Case B: http://www.prace-ri.eu/UEABS/ALYA/1.3/ALYA_TestCaseB.tar.bz2
 - Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/alya/ALYA_Run_README.txt
 
 # Code_Saturne <a name="saturne"></a>
@@ -57,11 +68,11 @@ Code_Saturne&#174; is a multipurpose Computational Fluid Dynamics (CFD) software
 Code_Saturne&#174; is based on a co-located finite volume approach that can handle three-dimensional meshes built with any type of cell (tetrahedral, hexahedral, prismatic, pyramidal, polyhedral) and with any type of grid structure (unstructured, block structured, hybrid). The code is able to simulate either incompressible or compressible flows, with or without heat transfer, and has a variety of models to account for turbulence. Dedicated modules are available for specific physics such as radiative heat transfer, combustion (e.g. with gas, coal and heavy fuel oil), magneto-hydro dynamics, and compressible flows, two-phase flows. The software comprises of around 350 000 lines of source code, with about 37% written in Fortran90, 50% in C and 15% in Python. The code is parallelised using MPI with some OpenMP.
 
 - Web site: http://code-saturne.org
-- Code download: http://code-saturne.org/cms/download or http://www.prace-ri.eu/UEABS/Code_Saturne/Code_Saturne_Source_3.0.1.tar.gz
+- Code download: http://code-saturne.org/cms/download or http://www.prace-ri.eu/UEABS/Code_Saturne/1.3/Code_Saturne-4.0.6_UEABS.tar.gz
 - Disclaimer: please note that by downloading the code from this website, you agree to be bound by the terms of the GPL license.
 - Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/code_saturne/Code_Saturne_Build_Run_4.0.6.pdf
-- Test Case A: http://www.prace-ri.eu/UEABS/Code_Saturne/Code_Saturne_TestCaseA.tar.gz
-- Test Case B: http://www.prace-ri.eu/UEABS/Code_Saturne/1.1/Code_Saturne_TestCaseB.tar.gz
+- Test Case A: http://www.prace-ri.eu/UEABS/Code_Saturne/1.3/Code_Saturne_TestCaseA.tar.gz
+- Test Case B: http://www.prace-ri.eu/UEABS/Code_Saturne/1.3/Code_Saturne_TestCaseB.tar.gz
 - Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/code_saturne/Code_Saturne_Build_Run_4.0.6.pdf
  
 # CP2K <a name="cp2k"></a>
@@ -73,8 +84,8 @@ CP2K provides state-of-the-art methods for efficient and accurate atomistic simu
 - Web site: https://www.cp2k.org/
 - Code download: https://www.cp2k.org/download
 - Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/cp2k/CP2K_Build_README.txt
-- Test Case A: http://www.prace-ri.eu/UEABS/CP2K/CP2K_TestCaseA.tar.gz
-- Test Case B: http://www.prace-ri.eu/UEABS/CP2K/CP2K_TestCaseB.tar.gz
+- Test Case A: http://www.prace-ri.eu/UEABS/CP2K/1.3/CP2K_TestCaseA.tar.gz
+- Test Case B: http://www.prace-ri.eu/UEABS/CP2K/1.3/CP2K_TestCaseB.tar.gz
 - Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/cp2k/CP2K_Run_README.txt
 
 # GADGET <a name="gadget"></a>
@@ -166,8 +177,8 @@ NAMD is written in C++ and parallelised using Charm++ parallel objects, which ar
 - Web site: http://www.ks.uiuc.edu/Research/namd/
 - Code download: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/namd/NAMD_Download_README.txt
 - Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/namd/NAMD_Build_README.txt
-- Test Case A: http://www.prace-ri.eu/UEABS/NAMD/NAMD_TestCaseA.tar.gz
-- Test Case B: http://www.prace-ri.eu/UEABS/NAMD/NAMD_TestCaseB.tar.gz
+- Test Case A: http://www.prace-ri.eu/UEABS/NAMD/1.2/NAMD_TestCaseA.tar.gz
+- Test Case B: http://www.prace-ri.eu/UEABS/NAMD/1.2/NAMD_TestCaseB.tar.gz
 - Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/namd/NAMD_Run_README.txt
 
 # NEMO <a name="nemo"></a>
@@ -207,7 +218,7 @@ Kernel D consists of the core matrix-vector multiplication routine for standard
 
 Kernel E consists of a full conjugate gradient solution using Wilson fermions. Lattice size is 643 x 3.
 
-- Code download: http://www.prace-ri.eu/UEABS/QCD/QCD_Source_TestCaseA.tar.gz
+- Code download: http://www.prace-ri.eu/UEABS/QCD/1.3/QCD_Source_TestCaseA.tar.gz
 - Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/qcd/QCD_Build_README.txt
 - Test Case A: included with source download
 - Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.3/qcd/QCD_Run_README.txt