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Home of Accelerator Operations & Physics Software Package Source Code
License Agreement
This web page provides access to software packages produced by
the Operations Analysis Group.
Note that some of this software (notably the SDDS code) is also
distributed by the EPICS collaboration. However, those versions are
usually out of date and we suggest that SDDS users download from this
site. The directory structures are the same in the two
distributions.
Documentation on these software packages can be found
here.
For Windows users, an installation guide for SDDS and the simulation programs is
available here
For Linux users, an installation guide for SDDS and the simulation programs is
available here
Configuration files for EPICS build system
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You'll need these files if you don't have the epics/base/configure area already.
The files are used by gnumake to customize builds to specific operating systems.
You'll need these files if you don't have the epics/extensions/configure area already. The files are
used by gnumake to customize builds to specific operating systems. You'll probably have to modify
the RELEASE file for your specific system.
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Retrieving and Building SDDS Toolkit
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Here are all the files needed to compile the basic non-EPICS related
SDDS toolkit. Simply click on the item and your browser will download
the software (prompting you for a destination directory). In some
cases, your web browser will automatically uncompress the tar file.
The GNU make source is given as well, since building SDDS requires
using gnumake. Please check first with your support staff, as they
should really be the ones installing the GNU tools. Lastly, if you
don't have the bsdinstall program, you will need to grab the
bsdinstall shell script and put it in your path. The basic install
program on many systems is not powerful enough.
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SDDS Source
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SDDS.2.4 source (June 9, 2008)
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SDDS.2.3.2 source (March 25, 2008)
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SDDS.2.3.1 source (September 27, 2007)
Fixed an issue that caused incorrect results with elegant.
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SDDS.2.3 source (September 6, 2007)
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SDDS.2.2 source (April 4, 2007)
Minor changes. There probably will not be a binary release for this because it is very similar to the last version. The main difference is it adds a few functions needed to build the latest version of elegant.
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SDDS.2.1.1 source (December 7, 2006)
Fixed an issue with reading really long ascii array data.
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SDDS.2.1 source (September 5, 2006)
Added unsigned long and unsigned short as valid data types. This SDDS.2 is backward compatible with SDDS.1 and actually produces SDDS.1 output files if no unsigned data types are used.
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defns.rpn
This "rpn definitions file" is also needed.
Be sure to define the environment variable RPN_DEFNS to point to this file.
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SDDS.m
This "SDDS.m" is needed to load the output of sdds2math into Mathematica.
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SDDS Binaries
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SDDS ToolKit.exe
(June 9, 2008)
A self installing Windows XP/Vista executable.
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SDDSToolKit-2.5-1.i386.rpm
(November 20, 2008)
Fedora 6 - Fedora 9, and Ubuntu 8
SDDSToolKit-2.5-1.fc5.i386.rpm
(November 20, 2008) Fedora 5, CentOS 5 and Redhat Enterprise Linux 5
SDDSToolKit-2.5-1.fc4.i386.rpm
(November 20, 2008) Fedora 3, Fedora 4, CentOS 4 and Redhat Enterprise Linux 4
Read the Linux installation guide for installation instructions.
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darwin-ppc_SDDS.tar.gz
(June 9, 2008)
darwin-x86_SDDS.tar.gz
(June 9, 2008)
Binary OS X executables.
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solaris-sparc_SDDS.tar.gz
(June 9, 2008)
solaris-sparc-gnu_SDDS.tar.gz
(June 9, 2008)
Binary Solaris 10 sparc executables.
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solaris-x86_SDDS.tar.gz
(June 9, 2008)
solaris-x86-gnu_SDDS.tar.gz
(June 9, 2008)
Binary Solaris 10 x86 executables.
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Java SDDS Source Code
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- Java SDDS Release
(June 10, 2008)
This version works with Java JDK 1.6.0.
This version works independently from the C code.
Documentation for the Java SDDS libarary can be found
here.
Additional documentation for the Java SDDS applications can be found
here.
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Retrieving and Building SDDSepics toolkit
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Here are the files needed to compile the EPICS control system
specific SDDS applications. Simply click on the item and your browser
will download the software (prompting you for a destination directory).
You can untar this into the directory structure created by the SDDS tar
file above, or vice versa. It is simply another module in the same build system.
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SDDS/EPICS Demonstration Scripts
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gzip'd tar file
contains a number of Tcl/Tk scripts and data files for running
demonstrations of the SDDS and the SDDS/EPICS Toolkits. It uses these
toolkits and our extensions to Tcl/Tk. The demonstrations involve
simulation of a storage ring using the portable channel access server,
collection and analysis of data from the storage ring, measurement of
the response matrix, and correction of the orbit. You should download
and unpack this file first, then consult the README file for more
detailed instructions. At present, these demos are only supported on
LINUX and other UNIX platforms.
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PEM, Tcl/Tk Interpreter, and Tcl/Tk Library Source
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This file contains the source for the Procedure Execution Manager
(PEM), the OAG Tcl/Tk interpreter (with SDDS, CA, and operating system
extensions), and the OAG Tcl/Tk procedure library. The
oag directory created by the untarring the SDDS code and
the OAG code must be at the same level in your directory structure.
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elegant
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elegant is an accelerator code that computes beta
functions, matrices, orbits, floor coordinates, amplification factors,
dynamic aperture, and more. It does 6-D tracking with matrices and/or
canonical integrators, and supports a variety of time-dependent
elements. It also does optimization (e.g., matching), including
optimization of tracking results. It is the principle accelerator
code used at APS.
To get started with elegant 21.0.0, you can use the following
example files and scripts
as a guide. The manual is available
here.
Another source of information and help is the on-line forum.
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elegant source version 21.0.0
(February 27, 2009)
It works with the library sources in SDDS.2.4.
This version builds on Solaris, Linux, Windows, OS X, and other systems.
You will need the "rpn definitions file", available
here;
be sure to define the environment variable RPN_DEFNS to point to this file.
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elegant source version 20.0.4
(January 27, 2009)
It works with the library sources in SDDS.2.4.
This version builds on Solaris, Linux, Windows, OS X, and other systems.
You will need the "rpn definitions file", available
here;
be sure to define the environment variable RPN_DEFNS to point to this file.
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elegant source version 20.0
(January 16, 2009)
It works with the library sources in SDDS.2.4.
This version builds on Solaris, Linux, Windows, OS X, and other systems.
You will need the "rpn definitions file", available
here;
be sure to define the environment variable RPN_DEFNS to point to this file.
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elegant source version 19.1.6
(August 14, 2008)
It works with the library sources in SDDS.2.4.
This version builds on Solaris, Linux, Windows, OS X, and other systems.
You will need the "rpn definitions file", available
here;
be sure to define the environment variable RPN_DEFNS to point to this file.
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elegant source version 19.0
(June 6, 2008)
It works with the library sources in SDDS.2.4.
This version builds on Solaris, Linux, Windows, OS X, and other systems.
You will need the "rpn definitions file", available
here;
be sure to define the environment variable RPN_DEFNS to point to this file.
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Elegant.exe
(February 27, 2009)
A self installing Windows XP/Vista executable.
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elegant-21.0.0-1.i386.rpm
(February 27, 2009)
Static 32bit binary Linux RPM file. (Works on 2.6.9 and newer kernels)
elegant-21.0.0-1.x86_64.rpm
(February 27, 2009)
Static 64bit binary Linux RPM file. (Works on 2.6.9 and newer kernels)
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darwin-ppc_elegant.tar.gz
(February 27, 2009)
darwin-x86_elegant.tar.gz
(February 27, 2009)
Binary OS X executables.
Installation assistance for elegant
on OS X is available from the
elegant forum. (The older installation guide is available
here.)
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solaris-sparc_elegant.tar.gz
(February 27, 2009)
Binary Solaris 10 sparc executables.
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solaris-x86-gnu_elegant.tar.gz
(February 27, 2009)
Binary Solaris 10 x86 executables.
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Spiffe
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Spiffe is a fully-electromagnetic 2-1/2 dimensional particle-in-cell code for simulation
of rf guns and similar systems with cylindrical symmetry.
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spiffe source version 3.3
(June 9, 2008)
This version builds on Solaris, Windows NT, and (presumably) other systems.
You need SDDS.2.4 or later to build it; see above. You may also download some
sample input files and scripts for spiffe.
The manual is available
here.
- Spiffe.exe
(June 9, 2008)
A self installing Windows XP/Vista executable.
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spiffe-3.2-3.i386.rpm
(June 9, 2008)
Static 32bit binary Linux RPM file. (Works on 2.6.9 and newer kernels)
spiffe-3.2-3.x86_64.rpm
(June 9, 2008)
Static 64bit binary Linux RPM file. (Works on 2.6.9 and newer kernels)
- darwin-ppc_spiffe.tar.gz
(June 9, 2008)
darwin-x86_spiffe.tar.gz
(June 9, 2008)
Binary OS X executable.
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solaris-sparc_spiffe.tar.gz
(June 9, 2008)
solaris-sparc-gnu_spiffe.tar.gz
(June 9, 2008)
Binary Solaris 10 sparc executables.
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solaris-x86_spiffe.tar.gz
(June 9, 2008)
solaris-x86-gnu_spiffe.tar.gz
(June 9, 2008)
Binary Solaris 10 x86 executables.
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Genesis
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Genesis is a time dependent Free Electron Laser (FEL) simulation code written by Sven Reiche.
Detailed information can be found
here.
This code was modified so that it can output SDDS files
which can be plotted using sddsplot. Also the output files
from elegant can be converted into input files for Genesis
by using the elegant2genesis program in the SDDS ToolKit.
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Shower
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Shower is a C-interface to EGS4, a Monte Carlo
electromagnetic shower simulation program. EGS4 (developped at SLAC)
is a set of subroutines that generates and tracks particle in a
electromagnetic shower. In the conventional EGS4 code system, the
user must supply their own input and output routines and problem
geometry definition written in the MORTRAN language. This arduous
process has been replaced by the C-code interface provided here by
reading and writing input and output particle information as data
files, the geometry definition as a file of namelist type commands,
and other information in an addition summary data file. All data
files are in SDDS format, and therefore compatible with other
processing and tracking programs.
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SDDS interface to IDL
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This API (sddsIDL) provides the capability for an IDL program to read and write SDDS formatted files.
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Vorpal Visualization tool
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This application (tcl/tk code) provides the interface for converting vorpal outputs to sdds files, postprocessing and displaying the results. It requires sdds toolkits which including hdf2sdds and OAG tcl/tk libaries.
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Argonne National Laboratory
License Agreement
Modified by soliday@aps.anl.gov
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