72 alignment

README

@@ -1,25 +1,20 @@
 This directory contains  the PSBLAS library, version 3.5.
 
 
- 
-The architecture of the Fortran 2003 sparse BLAS is described in 
-S. Filippone, A. Buttari:
+The architecture of the Fortran 2003 sparse BLAS is described in:
+S. Filippone, A. Buttari
 Object-Oriented Techniques for Sparse Matrix Computations in Fortran
-2003, 
-ACM Trans. on Math. Software, vol. 38, No. 4, 2012.
+2003, ACM Trans. on Math. Software, vol. 38, No. 4, 2012.
 
 The ideas are explored further with the paper:
-
 V. Cardellini, S. Filippone and D. Rouson
-Design Patterns for  sparse-matrix computations on
-hybrid CPU/GPU platforms, 
-Scientific Programming, 22(2014), pp.1-19.
+Design Patterns for  sparse-matrix computations on hybrid CPU/GPU
+platforms, Scientific Programming, 22(2014), pp.1-19.
 
-
-Version 1.0 of the library was described in:
+Version 1.0 of the library is described in:
 S. Filippone, M. Colajanni
-PSBLAS: A library for parallel linear algebra computation on sparse matrices
-ACM Trans. on Math. Software, 26(4), Dec. 2000, pp. 527-550.
+PSBLAS: A library for parallel linear algebra computation on sparse
+matrices, ACM Trans. on Math. Software, 26(4), Dec. 2000, pp. 527-550.
 
 
 UTILITIES
@@ -30,23 +25,20 @@ Harwell-Boeing and MatrixMarket file formats.
 DOCUMENTATION
 
 See docs/psblas-3.5.pdf; an HTML version of the same document is
-available in docs/html. 
-Please consult the sample programs, especially 
+available in docs/html. Please consult the sample programs, especially
 test/pargen/psb_[sd]_pde[23]d.f90
 
 
 
 OTHER SOFTWARE CREDITS 
 
-We originally included a modified implementation of some of the
-Sparker (serial sparse BLAS)  material; this has been completely
-rewritten, way beyond the intention(s) and responsibilities of the
-original developers. 
+We originally included a modified implementation of some of the Sparker
+(serial sparse BLAS)  material; this has been completely rewritten, way
+beyond the intention(s) and responsibilities of the original developers.
 The main reference for the serial sparse BLAS is:
 Duff, I., Marrone, M., Radicati, G., and Vittoli, C.
 Level 3 basic linear algebra subprograms for sparse matrices: a user 
-level interface
-ACM Trans. Math. Softw., 23(3), 379-401, 1997.
+level interface, ACM Trans. Math. Softw., 23(3), 379-401, 1997.
 
 
 INSTALLING
@@ -56,8 +48,8 @@ prerequisites (see also SERIAL below):
 
 1. A working version of MPI
 
-2. A version of the BLAS; if you don't have a specific version for
-   your platform you may try ATLAS available from
+2. A version of the BLAS; if you don't have a specific version for your
+   platform you may try ATLAS available from
    http://math-atlas.sourceforge.net/ 
 
 3. We have had good results with  the METIS library, from 
@@ -68,49 +60,49 @@ prerequisites (see also SERIAL below):
 4. If you have the AMD package of Davis, Duff and Amestoy, you can
    specify  --with-amd (see ./configure --help for more details). 
 
-The configure script will generate a Make.inc file suitable for
-building the library.  
-The script is capable of recognizing the needed libraries with their
-default names; if they are in unusual places consider adding the paths
-with --with-libs, or explicitly specifying the names in --with-blas, etc. 
-Please note that a common way for the configure script to fail is to
-specify inconsistent MPI vs. plain compilers, either directly or
-indirectly via environment variables; e.g. specifying the Intel
-compiler with FC=ifort while at the same time having an  MPIFC=mpif90
-which points to GNU Fortran. 
-The best way to avoid this situation is (in our opinion) to use the
-environment modules package (see http://modules.sourceforge.net/), and
-load the relevant variables with (e.g.)  
-module load gnu46 openmpi
-This will delegate to the modules setup to make sure that the version
-of openmpi in use is the one compiled with the gnu46 compilers. 
-After the configure script has completed you can always tweak the
-Make.inc  file yourself. 
+The configure script will generate a Make.inc file suitable for building
+the library. The script is capable of recognizing the needed libraries
+with their default names; if they are in unusual places consider adding
+the paths with --with-libs, or explicitly specifying the names in
+--with-blas, etc. Please note that a common way for the configure script
+to fail is to specify inconsistent MPI vs. plain compilers, either
+directly or indirectly via environment variables; e.g. specifying the
+Intel compiler with FC=ifort while at the same time having an 
+MPIFC=mpif90 which points to GNU Fortran. The best way to avoid this
+situation is (in our opinion) to use the environment modules package
+(see http://modules.sourceforge.net/), and load the relevant
+variables with (e.g.) 
+
+      module load gnu46 openmpi
+
+This will delegate to the modules setup to make sure that the version of
+openmpi in use is the one compiled with the gnu46 compilers. After the
+configure script has completed you can always tweak the Make.inc file
+yourself. 
 
 After you have Make.inc fixed,  run 
+
       make
-to  compile the library; go to the test directory and its
-subdirectories to get test programs done.   
-If you specify --prefix=/path you can do make install and the
-libraries will be installed under /path/lib, while the module files
-will be installed under /path/include.
+ 
+to  compile the library; go to the test directory and its subdirectories
+to get test programs done. If you specify --prefix=/path you can do make
+install and the libraries will be installed under /path/lib, while the
+module files will be installed under /path/include.
 
 SERIAL
 
 Configuring with --enable-serial will provide a fake MPI stub library
-that enables running in pure serial mode; no MPI installation is
-needed in this case (but note that the fake MPI stubs are only
-guaranteed to cover what we use internally, it's not a complete
-replacement). 
+that enables running in pure serial mode; no MPI installation is needed
+in this case (but note that the fake MPI stubs are only guaranteed to
+cover what we use internally, it's not a complete replacement). 
 
 LONG INTEGERS
 
-We have an experimental flag --enable-long-integers that will enable having
-8-byte integer data, allowing an index space larger than 2G; some
+We have an experimental flag --enable-long-integers that will enable 
+having 8-byte integer data, allowing an index space larger than 2G; some
 small cases have been tested but we do not offer full guarantee (yet).
 
 
-
 TODO:
 Fix all reamining bugs. Bugs? We dont' have any ! ;-)
 
@@ -119,9 +111,9 @@ The PSBLAS team.
 
 RELATED SOFTWARE
 
-
 If you are looking for more sophisticated preconditioners, you may be
-interested in the package  MLD2P4 from http://github.com/sfilippone/mld2p4-2
+interested in the package MLD2P4 from 
+http://github.com/sfilippone/mld2p4-2
 
 
 Contact: https://github.com/sfilippone/psblas3