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INSTALL
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INSTALL
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Installing the software
***********************
Hardware requirements
=====================
SCAMP runs in (ANSI) text-mode from a shell. A window system is
not necessary for basic operation.
When it comes to memory usage, the amount required by SCAMP depends mostly
on the size of the input catalogues and on the number of exposures and
astrometric "contexts" (stable instruments) involved in the astrometric
solution. It is not uncommon to see memory usage amounting to tens of
gigabytes when millions of detections and tens of astrometric contexts
are involved.
Note that SCAMP takes advantage of multiple CPU cores for most operations.
Obtaining SCAMP
===============
For Linux users, the simplest way to have SCAMP up and running is
to install the standard binary package the comes with your Linux
distribution. Run, e.g., "apt-get scamp" (on Debian) or "dnf install scamp"
(Fedora) and SCAMP, as well as all its dependencies, will
automatically be installed. If you decided to install the package this
way you may skip the following and move straight to the next section.
However if SCAMP is not available in your distribution, or to
obtain the most recent version, the SCAMP source package can be
downloaded from the official GitHub repository. One may choose one of
the stable releases, or for the fearless, a copy of the current master
development branch.
Software requirements
=====================
SCAMP has been developed on GNU/Linux machines and should compile
on any POSIX-compliant system (this includes Apple OS X and Cygwin
on Microsoft Windows, at the price of some difficulties with the
configuration), provided that the development packages of the
following libraries have been installed:
* ATLAS V3.6 and above [2],
* FFTw V3.0 and above [3],
* PLPlot V5.9 and above.
On Fedora/Redhat distributions for instance, the development packages
above are available as "atlas-devel", "fftw-devel" and "plplot-devel".
PLPlot is only required for producing diagnostic plots. Note that
ATLAS and FFTw are not necessary if SCAMP is linked with
Intel's MKL (Math Kernel Library) library.
Installation
============
To install from the GitHub source package, you must first uncompress
the archive:
$ unzip scamp-<version>.zip
A new directory called "scamp-<version>" should now appear at the
current location on your disk. Enter the directory and generate the
files required by the autotools, which the package relies on:
$ cd scamp-<version>
$ sh autogen.sh
A "configure" script is created. This script has many options, which
may be listed with the "--help" option:
$ ./configure --help
No options are required for compiling with the default GNU C compiler
("gcc") if all the required libraries are installed at their default
locations:
$ ./configure
Compared to "gcc" and the librairies above, the combination of the
Intel compiler ("icc" or "icx") and the MKL (Math Kernel Library)
libraries can give the SCAMP executable a significant boost in
performance, thanks to better vectorized code, and reduced memory
usage. If "icc" (or "icx") and the MKL (Math Kernel Library) are
installed on your system [4], you can take advantage of those using
instead
$ ./configure --enable-mkl
Additionally, if the SCAMP binary is to be run on a different
machine that does not have "icc" (or "icx") and the MKL installed
(e.g., a cluster computing node), you must configure a partially
statically linked executable using
$ ./configure --enable-mkl --enable-auto-flags --enable-best-link
In all cases, SCAMP can now be compiled with
$ make -j
An "src/scamp" executable is created. For system-wide installation,
run the usual
$ sudo make install
You may now check that the software is properly installed by simply
typing in your shell:
$ scamp
(note that some shells require the "rehash" command to be run before
making a freshly installed executable accessible in the execution
path).
[1] Mac OS X ".dmg" packages should be available soon.
[2] Use the "--with-atlas" and/or "--with-atlas-incdir" options of
the SCAMP "configure" script to specify the ATLAS library and
include paths if ATLAS files are installed at unusual locations.
[3] Make sure that FFTw has been compiled with "configure"
options "--enable-threads --enable-float".
[4] The Linux versions of the Intel compiler and MKL (Math
Kernel Library) are now available for free on Intel's website.