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INSTALL
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INSTALL
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PnetCDF Installation Guide
=====================
1. Getting Started
2. Alternate Configure Options
3. Testing the PnetCDF installation
4. Reporting Installation or Usage Problems
-------------------------------------------------------------------------
1. Getting Started
==================
The following instructions take you through a sequence of steps to get the
default configuration of PnetCDF up and running.
(a) You will need the following prerequisites.
- REQUIRED: This compressed tar file
- REQUIRED: An MPI C compiler
- REQUIRED: GNU m4 (https://www.gnu.org/software/m4/m4.html)
- OPTIONAL: An MPI C++ compiler, if C++ applications are to be used.
If you do not require support for C++ applications, you can disable this
support using the configure option --disable-cxx (configuring PnetCDF is
described in step 1(d) below).
- OPTIONAL: An MPI Fortran 77 compiler, if Fortran 77 applications are to
be used. If you do not require support for Fortran 77 applications, you
can disable this support using --disable-fortran (configuring PnetCDF is
described in step 1(d) below).
- OPTIONAL: An MPI Fortran 90 compiler, if Fortran 90 applications are to
be used. If you do not require support for Fortran 90 applications, you
can disable this support using --disable-fortran. Note that Fortran 77
support is a prerequisite for Fortran 90 support (configuring PnetCDF is
described in step 1(d) below).
Also, you need to know what shell you are using since different shell has
different command syntax. Command "echo $SHELL" prints out the current
shell used by your terminal program.
(b) Unpack the tar file and go to the top level directory, for example:
gzip -dc parallel-netcdf-_PNETCDF_VERSION_.tar.gz | tar -xf -
cd parallel-netcdf-_PNETCDF_VERSION_
(c) Choose an installation directory, for example $HOME/PnetCDF
(d) Configure PnetCDF specifying the installation directory:
./configure --prefix=$HOME/PnetCDF
(e) Build PnetCDF:
make
Or if "make" runs slow, try parallel make, e.g. (using 8 simultaneous jobs)
make -j8
(f) Install PnetCDF
make install
If a non-default install directory is desired, use command:
make install prefix=/OTHER/INSTALL/DIRECTORY
(g) Add the bin subdirectory of the installation directory to your path
environment variable in your startup script (.bashrc for bash, .cshrc for
csh, etc.):
for csh and tcsh:
setenv PATH $HOME/PnetCDF/bin:$PATH
for bash and sh:
PATH=$HOME/PnetCDF/bin:$PATH ; export PATH
Check that everything is in order at this point by doing:
which ncmpidump
which ncmpidiff
These commands should display the path to your bin subdirectory of your
install directory.
If you have completed all of the above steps, you have successfully installed
PnetCDF.
-------------------------------------------------------------------------
2. Alternate Configure Options
=================
PnetCDF has a number of configure features. A complete list of configuration
options can be found using:
./configure --help
Here lists a few important options:
--prefix=PREFIX install architecture-independent files in PREFIX
[/usr/local]
--exec-prefix=EPREFIX install architecture-dependent files in EPREFIX
[PREFIX]
--disable-cxx Turn off support for the C++ interface, if you only
need the C interface. [default: enabled]
--disable-fortran Turn off support for the Fortran interface, if you
only need the C interface. [default: enabled]
--enable-shared[=PKGS] build shared libraries [default=no]
--enable-static[=PKGS] build static libraries [default=yes]
--enable-debug Enable PnetCDF internal debug mode. This also
enables safe mode. [default: disabled]
--disable-in-place-swap Disable memory in-place byte swap on Little Endian
machines. [default: enabled]
--enable-subfiling Enable subfiling support. [default: disabled]
--disable-erange-fill Disable use of fill value when out-of-range type
conversion causes NC_ERANGE error. [default:
enabled]
--enable-relax-coord-bound
Enable relaxed error NC_EINVALCOORDS to allow
coordinate start argument equal to dimension size
when argument count is zero. [default: disabled]
--enable-doxygen Enable generation of documentation. [default:
disabled]
--disable-file-sync Disable MPI file sync if you know your file system
can provide data consistency. [default: enabled]
--enable-large-req Enable large (> 2 GiB) request in a single MPI-IO
call. Note some MPI-IO libraries may not support
this. [default: disabled]
--enable-large-file-test
Enable testing for large (>4GB) file/variable I/O.
Note "make check" can run very slow. [default:
disabled]
--enable-null-byte-header-padding
Enable check for null-byte header padding when
reading files in classic formats. [default:
disabled]
--disable-versioning Disable library versioning. [default: enabled]
Optional Packages:
--with-mpi=/path/to/implementation
The installation prefix path for MPI implementation.
Some influential environment variables:
RM Command for deleting files or directories. [default: rm]
MPICC MPI C compiler, [default: CC]
MPICXX MPI C++ compiler, [default: CXX]
MPIF77 MPI Fortran 77 compiler, [default: F77]
MPIF90 MPI Fortran 90 compiler, [default: FC]
CC C compiler command
CFLAGS C compiler flags
LDFLAGS linker flags, e.g. -L<lib dir> if you have libraries in a
nonstandard directory <lib dir>
LIBS libraries to pass to the linker, e.g. -l<library>
CPPFLAGS (Objective) C/C++ preprocessor flags, e.g. -I<include dir> if
you have headers in a nonstandard directory <include dir>
CXX C++ compiler command
CXXFLAGS C++ compiler flags
LT_SYS_LIBRARY_PATH
User-defined run-time library search path.
CPP C preprocessor
CXXCPP C++ preprocessor
FC Fortran compiler command
FCFLAGS Fortran compiler flags
F77 Fortran 77 compiler command
FFLAGS Fortran 77 compiler flags
GCOV name/path for the gcov utility
TESTSEQRUN Run command (on one MPI process) for "make check" on
cross-compile environment. Example: "aprun -n 1". [default:
none]
TESTMPIRUN MPI run command for "make ptest", [default: mpiexec -n NP]
TESTOUTDIR Output file directory for "make check" and "make ptest",
[default: ./]
Use these variables to override the choices made by `configure' or to help
it to find libraries and programs with nonstandard names/locations.
PnetCDF can automatically detect the available MPI compilers and compile flags.
If alternate compilers or flags are desired, they can be specified by the
following environment variables and/or configure options.
Some influential environment variables:
CFLAGS, CPPFLAGS, CXXFLAGS, FFLAGS, FCFLAGS, LDFLAGS and LIBS
Setting these compile flags would result in the PnetCDF library being built
with these flags.
MPICC, MPICXX, MPIF77, MPIF90
Setting these variables would result in the PnetCDF library being built
with these compilers. CC, CXX, F77, FC, and F90 will be overwritten by
their corresponding MPI compiler variables.
Note the compile flags, such as -O2 or -g, should be given in CFLAGS and
other flag environment variables. Please do not set them in compiler
variable. For instance, setting MPICC="mpicc -O2" may result in the error
of compiler not found.
- For platform-specific build instructions, see one of the README.<ARCH>
files in directory doc/.
----
Note on configure option "--disable-in-place-swap"
----
This option disables the byte-swap operations running in-place on the user's
write buffers. The purpose of providing this option is to deal with the
problem when a Fortran program uses a immutable buffer for put APIs, e.g.
the buffer is declared as a PARAMETER, and in-place byte swap on this buffer
causes segmentation fault. See discussion threads of
http://lists.mcs.anl.gov/pipermail/parallel-netcdf/2013-July/001498.html
Impacts:
1. It takes effect only on Little Endian machines.
2. It only affects put/iput data APIs, but not attribute APIs.
3. The INTENT of buffer arguments in all Fortran 90 put/iput APIs will be
declared as "IN". Without this setting, the default is "INOUT".
4. It has an impact on performance, as an extra internal temporary buffer
will be allocated to copy data over from user's put buffer, so byte
swap can be run on the temporary buffer.
The default setting is to enable in-place byte swap. PnetCDF tries not to
allocate additional memory space, due to performance concern. Users are
discouraged to use Fortran PARAMETER buffers in put APIs.
----
Note on configure option "--disable-erange-fill"
----
Prior to 1.8.0, data type conversion for out-of-bound elements proceeds
even if the out-of-bound error is detected, and the contents (in both files
and read buffers) are left up to the user to handle. This behavior conforms
with NetCDF. See the URL below for details.
http://www.unidata.ucar.edu/software/netcdf/docs/group__error.html
Starting from 1.8.0, when the out-of-bound error is detected, instead of
proceeding the type conversion, PnetCDF fills the out-of-bound data elements
with their "fill values", as specified by the variable's attribute
"_FillValue" or default CDF fill values if the attribute is not defined.
Specifically, for PnetCDF put APIs, the value of attribute _FillValue, if
defined, will be used when writing to files. For get APIs, the default CDF
_FillValue corresponding to the internal data type will be used to fill the
read buffer. This feature can be disabled by adding option
"--disable-erange-fill" to the configure command line. In this case, the
conventional NetCDF method described above is used.
----
Note on configure option "--enable-relax-coord-bound"
----
Starting from version 1.8.0, a new configure option
--enable-relax-coord-bound is added to provide a more relaxed boundary check
for argument start. Traditionally, both NetCDF and PnetCDF detect the error
code NC_EINVALCOORDS when the value of start is larger than or equal to the
defined dimension size. This can be inconvenient for some applications that
make a zero-length request with start being the dimension size, usually the
last process. The new configure option relaxes the boundary check by
allowing the above exception, i.e. start[i] can be the size of dimension i
only when count[i] is zero. The default of this feature is disabled. For
more detailed information, see discussion in:
http://lists.mcs.anl.gov/pipermail/parallel-netcdf/2016-March/001839.html
-------------------------------------------------------------------------
3. Testing the PnetCDF installation
==================================
Two type of testings are implemented in PnetCDF: sequential and parallel.
For testing sequential programs, the command is
make check
For testing parallel programs, the command is
make ptest
The parallel test uses up to 10 MPI processes.
Command "make tests" will build executables of all the test programs. This can
be handy if testing must run through a batch job system. Having the testing
executables built before submitting a batch job could save a lot of time.
There are three environment variables that can be used to run make check/ptest
on a cross compile platform.
- TESTMPIRUN : command to launch MPI jobs. default: mpiexec -n NP
- TESTSEQRUN : command to run MPI executable sequentially. default: none
- TESTOUTDIR : output directory. default: ./
Examples:
make check TESTOUTDIR=/scratch
make ptest TESTMPIRUN="aprun -n NP" TESTOUTDIR=/scratch
Note the keyword "NP" used in the environment variable string TESTMPIRUN. It
will be replaced with the different numbers of MPI processes used in testing.
Currently, the testing uses up to 8 processes. Hence, please make sure the
process allocation at least contains 8 processes.
One can also run "make ptest" on batch queue systems. One example PBS script is
provide "pbs.script" in directory doc/. It is recommended to build all the
testing executables before submitting the batch job. This can be done by
running the below command.
make tests
Note on setting TESTOUTDIR. In order to run parallel test correctly, the
output directory must be on a file system accessible to all MPI processes. We
recommend to use parallel file systems or POSIX compliant file systems (Using
NFS will most likely fail the parallel test.)
Issue with older MPI-IO implementation.
During "make check", one may encounter the following error message:
"MPI error (MPI_File_delete) : MPI_ERR_IO: input/output error"
This is due to the underneath MPI-IO libraries fail to return the correct
error class MPI_ERR_NO_SUCH_FILE when trying to delete a non-existing file.
This message can be ignored.
-------------------------------------------------------------------------
4. Reporting Installation or Usage Problems
===========================================
Please send an email to [email protected]