README fixed

README.md

@@ -36,10 +36,10 @@ 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/v1.1/alya/ALYA_Build_README.txt
+- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/alya/ALYA_Build_README.txt
 - Test Case A: http://www.prace-ri.eu/UEABS/ALYA/1.1/ALYA_TestCaseA.tar.gz
 - Test Case B: http://www.prace-ri.eu/UEABS/ALYA/1.1/ALYA_TestCaseB.tar.gz
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/alya/ALYA_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/alya/ALYA_Run_README.txt
 
 # Code_Saturne <a name="saturne"></a>
 
@@ -53,7 +53,7 @@ Code_Saturne&#174; is based on a co-located finite volume approach that can hand
 - Build instructions: http://code-saturne.org/cms/documentation/guides/installation
 - 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
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/code_saturne/Code_Saturne_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/code_saturne/Code_Saturne_README.txt
  
 # CP2K <a name="cp2k"></a>
 
@@ -63,10 +63,10 @@ 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/v1.1/cp2k/CP2K_Build_README.txt
+- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/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
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/cp2k/CP2K_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/cp2k/CP2K_Run_README.txt
 
 # GADGET <a name="gadget"></a>
 
@@ -75,9 +75,9 @@ GADGET is a freely available code for cosmological N-body/SPH simulations on mas
 - Web site: http://www.mpa-garching.mpg.de/gadget/
 - Code download: http://www.prace-ri.eu/UEABS/GADGET/gadget3_Source.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/v1.1/gadget/gadget3_Build_README.txt
+- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/gadget/gadget3_Build_README.txt
 - Test Case A: http://www.prace-ri.eu/UEABS/GADGET/gadget3_TestCaseA.tar.gz
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/gadget/gadget3_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/gadget/gadget3_Run_README.txt
 
 
 # GENE <a name="gene"></a>
@@ -92,7 +92,7 @@ The GENE code is written in Fortran 90 and C and is parallelized with pure MPI.
 - Build instructions: included with code download
 - Test Case A: included with code download
 - Test Case B: included with code download
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/gene/GENE_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/gene/GENE_Run_README.txt
 
 
 # GPAW <a name="gpaw"></a>
@@ -107,9 +107,9 @@ The program offers several parallelization levels. The most basic parallelizatio
 
 - Web site: https://wiki.fysik.dtu.dk/gpaw/
 - Code download: https://gitlab.com/gpaw/gpaw
-- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/gpaw/GPAW_Build_README.txt
+- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/gpaw/GPAW_Build_README.txt
 - Test Case A: http://www.prace-ri.eu/UEABS/GPAW/1.1/GPAW_benchmark.tar.gz
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/gpaw/GPAW_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/gpaw/GPAW_Run_README.txt
 
 # GROMACS <a name="gromacs"></a>
 
@@ -140,7 +140,7 @@ Instructions:
 - Code download: http://www.gromacs.org/Downloads The UEABS benchmark cases require the use of 5.1.x or newer branch: the latest 2016 version is suggested.
 - Test Case A: http://www.prace-ri.eu/UEABS/GROMACS/GROMACS_TestCaseA.tar.gz
 - Test Case B: http://www.prace-ri.eu/UEABS/GROMACS/GROMACS_TestCaseB.tar.gz
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/gromacs/GROMACS_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/gromacs/GROMACS_Run_README.txt
 
 
 # NAMD <a name="namd"></a>
@@ -155,11 +155,11 @@ Deployment areas of NAMD include pharmaceutical research by academic and industr
 NAMD is written in C++ and parallelised using Charm++ parallel objects, which are implemented on top of MPI.
 
 - Web site: http://www.ks.uiuc.edu/Research/namd/
-- Code download: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/namd/NAMD_Download_README.txt
-- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/namd/NAMD_Build_README.txt
+- Code download: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/namd/NAMD_Download_README.txt
+- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/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
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/namd/NAMD_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/namd/NAMD_Run_README.txt
 
 # NEMO <a name="nemo"></a>
 
@@ -178,9 +178,9 @@ NEMO is used by a large community: 240 projects in 27 countries (14 in Europe, 1
 - Web site: http://www.nemo-ocean.eu/
 - Code download: http://www.prace-ri.eu/UEABS/NEMO/NEMO_Source.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/v1.1/nemo/NEMO_Build_README.txt
+- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/nemo/NEMO_Build_README.txt
 - Test Case A: http://www.prace-ri.eu/UEABS/NEMO/NEMO_TestCaseA.tar.gz
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/nemo/NEMO_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/nemo/NEMO_Run_README.txt
 
 # QCD <a name="qcd"></a>
 
@@ -199,9 +199,9 @@ 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
-- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/qcd/QCD_Build_README.txt
+- Build instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/qcd/QCD_Build_README.txt
 - Test Case A: included with source download
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/qcd/QCD_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/qcd/QCD_Run_README.txt
 
 # Quantum Espresso <a name="espresso"></a>
 
@@ -215,7 +215,7 @@ QUANTUM ESPRESSO is written mostly in Fortran90, and parallelised using MPI and
 - Build instructions: http://www.quantum-espresso.org/wp-content/uploads/Doc/user_guide/
 - Test Case A: http://www.prace-ri.eu/UEABS/Quantum_Espresso/QuantumEspresso_TestCaseA.tar.gz
 - Test Case B: http://www.prace-ri.eu/UEABS/Quantum_Espresso/QuantumEspresso_TestCaseB.tar.gz
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/quantum_espresso/QuantumEspresso_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/quantum_espresso/QuantumEspresso_Run_README.txt
 
 # SPECFEM3D <a name="specfem3d"></a>
 
@@ -230,4 +230,4 @@ In many geological models in the context of seismic wave propagation studies (ex
 - Build instructions: http://www.geodynamics.org/wsvn/cig/seismo/3D/SPECFEM3D_GLOBE/trunk/doc/USER_MANUAL/manual_SPECFEM3D_GLOBE.pdf?op=file&rev=0&sc=0
 - Test Case A: http://www.prace-ri.eu/UEABS/SPECFEM3D/SPECFEM3D_TestCaseA.tar.gz
 - Test Case B: http://www.prace-ri.eu/UEABS/SPECFEM3D/SPECFEM3D_TestCaseA.tar.gz
-- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/v1.1/specfem3d/SPECFEM3D_Run_README.txt
+- Run instructions: https://repository.prace-ri.eu/git/UEABS/ueabs/blob/r1.1/specfem3d/SPECFEM3D_Run_README.txt