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# **Accelerator and Beam Physics Computing Panel**
# Accelerator and Beam Physics Computing Panel
## **Mandate**
## Mandate
- The Accelerator and Beam Physics Computing Panel (ABP-CP) is responsible for the software tools for accelerator and beam physics developed in the [BE-ABP](https://be-dep-abp.web.cern.ch) group at [CERN](https://home.cern). It defines the roadmap and provides recommendations for strategic software and hardware choices, in order to fulfill the needs related to:
1. the operation of CERN accelerators;
......@@ -13,7 +13,7 @@
- It liaises with the IT department and external computing centers, concerning the hardware resources and services, and with the controls and operations groups, concerning tools for machine studies and follow-up (e.g. operational displays, data analytics, machine learning).
## **Members**
## Members
Giovanni Iadarola (chair)
......
# **ABCI**
# ABCI
## **Short description**
## Short description
ABCI (Azimuthal Beam Cavity Interaction) is a code used for impedance and wakefield calculations created and maintained by Yong Ho Chin (KEK, Japan). It is a time domain solver of electromagnetic fields when a bunched beam goes through an axi-symmetric structure (on or off axis). An arbitrary charge distribution can be defined by the user (default=Gaussian).
## **Web resources**
## Web resources
* Home page and source code:http://abci.kek.jp/abci.htm
## **Technical information**
## Technical information
* Operating systems: Linux and Windows (works at least on XP and 7)
## **Other information**
## Other information
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# **ACE3P**
# ACE3P
## **Short description**
## Short description
ACE3P is a complete package for electrodynamics simulations in accelerator components, including eigenmode (Omega3P), S-parameters (S3P), Time domain wakefields etc. (T3P), Particle in cell injectors etc. (Pic3P), Tracking charged particles in eigenmode fields for multipacting and dark current (Track3P), and multi-physics for detuning due to thermal expansion from wall losses and mechanical forces (Temp3P).
The solvers run on the external computer clusters at <a href="http://www.nersc.gov/" target="_blank">NERSC
......@@ -18,7 +18,7 @@ For post-processing, the package uses <a href="http://www.paraview.org/" target=
For mesh generation, the package uses Trellis or Cubit - please contact the contact persons for more information.
Trellis can be installed on most Linux systems as a .rpm (Fedora, Scientific Linux and other RedHat based systems) or .deb (Debian, Ubuntu, etc.), and can also be installed on most Windows and Mac systems.
## **Web resources**
## Web resources
* <a href="https://confluence.slac.stanford.edu/display/AdvComp/ACE3P+-+Advanced+Computational+Electromagnetic+Simulation+Suite" target="_blank">ACE3P Homepage at SLAC
......@@ -26,7 +26,7 @@ Trellis can be installed on most Linux systems as a .rpm (Fedora, Scientific Lin
</a>
## **Technical information**
## Technical information
......@@ -58,7 +58,7 @@ Trellis can be installed on most Linux systems as a .rpm (Fedora, Scientific Lin
## **Other information**
## Other information
<ul><li> <strong>Developed by:</strong> The <a href="mailto:ace3p@slacNOSPAMPLEASE.stanford.edu">SLAC ACD</a> (advanced computations) group
</li> <li> <strong>License:</strong> Unclear, source code private to SLAC
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# **BimBim (Beam-Beam and IMpedance)**
# BimBim (Beam-Beam and IMpedance)
## **Short description**
## Short description
Semi-analytical derivation of the coherent modes of oscillation based on the derivation and diagonalisation of the coherent one turn map for multiple bunches of one or two beams including the effect of the lattice (Q, Q' and Q''), the transverse feedback, head-on beam-beam interaction with a crossing angle, long-range beam-beam interactions and the transverse dipolar and quadrupolar impedance.
## **Web resources**
## Web resources
<ul><li> <a href="https://gitlab.cern.ch/xbuffat/BimBim" target="_blank">Sources</a>
</li> <li> <a href="https://indico.cern.ch/event/631880/contributions/2555033/attachments/1450693/2236796/2017-04-27_PySSD-BimBim-expanded.pdf" target="_blank">CWG presentation</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -33,7 +33,7 @@ Semi-analytical derivation of the coherent modes of oscillation based on the der
## **Other informations**
## Other informations
<ul><li> <b>Developed by : </b>CERN
</li> <li> <b>License : </b>CERN Copyright
......
# **COMBI (COherent Multibunch Beam-beam Interactions)**
# COMBI (COherent Multibunch Beam-beam Interactions)
## **Short description**
## Short description
COMBI stands for COherent Multibunch Beam-beam Interaction. The code simulates interactions of two counter rotating beams. Several “actions” can be included in the simulation: linear transport, head-on and long-range beam-beam interactions, noise sources, collimators, impedances, linear detuning, transverse feedback, synctrotron radiation.
## **Web resources**
## Web resources
<ul><li> <a href="https://gitlab.cern.ch/sfuruset/combip" target="_blank">Sources</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -32,7 +32,7 @@ COMBI stands for COherent Multibunch Beam-beam Interaction. The code simulates i
## **Other informations**
## Other informations
<ul><li> <b>Developed by : </b>CERN
</li> <li> <b>License : </b>CERN Copyright
......
# **CST Particle Studio**
# CST Particle Studio
## **Short description**
## Short description
3D electromagnetic simulations with and without exciting source beam (wakefield solver, eigenmode solver, time domain solver, frequency domain solver)
## **Web resources**
## Web resources
<ul><li> <strong>Installer:</strong> installation through CMF or from \\cern.ch\DFS\Applications\CST
</li> <li> <strong>Product webpage:</strong> <a href="https://www.cst.com/" target="_blank">https://www.cst.com/</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -34,7 +34,7 @@
## **Other information**
## Other information
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# **DELPHI**
# DELPHI
## **Short description**
## Short description
DELPHI (Discrete Expansion over Laguerre Polynomials and HeadtaIl modes) allows to evaluate the transverse beam stability wrt. the machine impedance. It is a semi-analytical Vlasov solver which allows to perform fast scans overs parameters such as chromaticity, bunch intensity, damper gain...
## **Web resources**
## Web resources
<ul><li> <strong>Source code:</strong> <a href="https://gitlab.cern.ch/IRIS/DELPHI" target="_blank">GitLab</a>
</li> <li> <strong>Code presentation:</strong> <a href="https://espace.cern.ch/be-dep/ABP/HSC/Meetings/DELPHI-expanded_Part2.pdf" target="_blank">PDF presentation by N.Mounet</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -34,7 +34,7 @@ DELPHI (Discrete Expansion over Laguerre Polynomials and HeadtaIl modes) allows
## **Other information**
## Other information
<ul><li> <strong>Developed by:</strong> N.Mounet, N.Biancacci, D.Amorim
</li> <li> <strong>License:</strong> CERN Copyright
......
# **FASTION**
# FASTION
## **Short description**
## Short description
FASTION is a 2D macro-particle simulation code for modelling the fast beam-ion instability in electron machines.
## **Web resources**
## Web resources
<ul><li> <strong>Source code:</strong> <a href="https://github.com/lmether/FASTION" target="_blank">https://github.com/lmether/FASTION</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -38,7 +38,7 @@ FASTION is a 2D macro-particle simulation code for modelling the fast beam-ion i
## **Other information**
## Other information
......
# **Online Footprint Viewer**
# Online Footprint Viewer
## **Short description**
## Short description
The knowledge of the machine optics and beam parameters are extracted from the LSA and logging database to construct a (thin lens) MAD-X model of the machine including the lattice non-linearities (e.g. Landau octupoles) and beam-beam interactions. The tune footprints of PACMAN bunches are computed in parallel on a remote server, based on tracking with MAD-X. The footprints are then displayed online in the LHC control room.
## **Web resources**
## Web resources
* <a class="twikiLink" href="/twiki/bin/view/ABPComputing/FootprintViewerWiki">Developer's wiki</a>
## **Technical information**
## Technical information
......@@ -27,7 +27,7 @@ The knowledge of the machine optics and beam parameters are extracted from the L
## **Other informations**
## Other informations
<ul><li> <b>Developed by : </b>CERN
</li> <li> <b>License : </b>CERN Copyright
......
# **GdFiDl**
# GdFiDl
## **Short description**
## Short description
Commercial 3D electromagnetic solver for wakefield and impedance.
## **Web resources**
## Web resources
[Link web resources available for your software. For example:] <ul><li> <strong>Web page:</strong> <a href="http://www.gdfidl.de/" target="_blank">http://www.gdfidl.de/</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -27,7 +27,7 @@ Commercial 3D electromagnetic solver for wakefield and impedance.
* __Other prerequisites:__
## **Other information**
## Other information
......
# **GUINEA-PIG**
# GUINEA-PIG
## **Short description**
## Short description
GUINEA-PIG++ (Generator of Unwanted Interactions for Numerical Experiment Analysis - Program Interfaced to GEANT) simulates the beam-beam interaction in electron-positron linear colliders. It uses a strong-strong model of the colliding beams and includes the emission of beamstrahlung, production of incoherent and coherent pairs as well as hadronic background.
## **Web resources**
## Web resources
<ul><li> <strong>Source code:</strong> <a href="https://gitlab.cern.ch/clic-software/guinea-pig" target="_blank">https://gitlab.cern.ch/clic-software/guinea-pig</a>
</li> <li> <strong>Documentation</strong> The appendix of Daniel's PhD thesis: <a href="http://flash.desy.de/sites2009/site_vuvfel/content/e403/e1644/e1314/e1316/infoboxContent1932/tesla1997-08.pdf" target="_blank">http://flash.desy.de/sites2009/site_vuvfel/content/e403/e1644/e1314/e1316/infoboxContent1932/tesla1997-08.pdf</a>
......@@ -38,7 +38,7 @@ GUINEA-PIG++ (Generator of Unwanted Interactions for Numerical Experiment Analys
## **Other information**
## Other information
......
# **Ansys HFSS**
# Ansys HFSS
## **Short description**
## Short description
ANSYS Electronics Desktop (formerly known as HFSS) solves Maxwell's equations in RF / microwave structures with the absence of a particle beam. It can solve problems of four types: Modal, Terminal, Transient, and Eigenmode. An example of a typical task for HFSS is finding electromagnetic modes and their properties in a closed RF cavity (Eigenmode solver). Another example is finding S-parameters of an RF system (S11, S21, etc) at a frequency specified by the user (Modal solver).
HFSS is often compared to CST Microwave Studio. The two codes use two fundamentally different ways to solve Maxwell's equations, hence an agreement between them usually means reliability of the results.
## **Web resources**
## Web resources
[Link web resources available for your software. For example:] <ul><li> <strong>Installer:</strong> available on CMF
</li> <li> <strong>Wiki pages:</strong> <a href="http://www.ansys.com/Products/Electronics/ANSYS-HFSS" target="_blank">http://www.ansys.com/Products/Electronics/ANSYS-HFSS</a>
</li></ul>
## **Technical information**
## Technical information
[Provide the following information]
......@@ -42,7 +42,7 @@ HFSS is often compared to CST Microwave Studio. The two codes use two fundamenta
## **Other information**
## Other information
......
# **IBSimu**
# IBSimu
## **Short description**
## Short description
Ion Beam Simulator or IBSimu is an ion optical computer simulation package for ion optics, plasma extraction and space charge dominated ion beam transport using Vlasov iteration.
## **Web resources**
## Web resources
<ul><li> <strong>Source code:</strong> <a href="http://ibsimu.sourceforge.net/download.html" target="_blank">http://ibsimu.sourceforge.net/download.html</a>
</li> <li> <strong>Wiki pages:</strong> <a href="http://ibsimu.sourceforge.net/" target="_blank">http://ibsimu.sourceforge.net/</a>
</li></ul>
## **Technical information**
## Technical information
<ul><li> <strong>Programming Languages used for implementation:</strong> <ul>
<li> C++
......@@ -26,7 +26,7 @@ Ion Beam Simulator or IBSimu is an ion optical computer simulation package for i
</li></ul>
</li></ul>
## **Other information**
## Other information
......
# **ImpedanceWake2D**
# ImpedanceWake2D
## **Short description**
## Short description
ImpedanceWake2D (IW2D) compute the resistive wall impedance and/or the wake functions for multilayered flat, cylindrical or elliptical structures. It assumes an infinitely long structure (2D).
## **Web resources**
## Web resources
<ul><li> <strong>Source code:</strong> <a href="https://gitlab.cern.ch/IRIS/IW2D" target="_blank">GitLab repository</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -35,7 +35,7 @@ ImpedanceWake2D (IW2D) compute the resistive wall impedance and/or the wake func
## **Other information**
## Other information
<ul><li> <strong>Developed by:</strong> N.Mounet, N.Biancacci, D.Amorim
</li> <li> <strong>License:</strong> CERN Copyright
......
# **LHCOnlineModel**
# LHCOnlineModel
## **Short description**
## Short description
The beam based model, aka online model, extends the (ideal) LHC accelerator model by including measured parameters of the machine.
......@@ -22,7 +22,7 @@ The project aims at providing tools that allow
* Simulating more accurately the beam behavior upon a knob or parameter change.
* Easy comparison between the model and the available measurements. Facilitating data analysis throughout all different machine configurations hopefully lets understand the sources of the discrepancies and leads to even more accurate machine model.
## **Web resources**
## Web resources
<ul><li> Web page: <a href="http://lhcmodel.web.cern.ch/lhcmodel/" target="_blank">http://lhcmodel.web.cern.ch/lhcmodel/</a>
</li> <li> Source codes: <ul>
......@@ -38,7 +38,7 @@ The project aims at providing tools that allow
<ul><li> Wiki pages: <a href="https://wikis.cern.ch/display/OnlineModel/Home" target="_blank">https://wikis.cern.ch/display/OnlineModel/Home</a>
</li></ul>
## **Technical information**
## Technical information
[Provide the following information]
......@@ -63,7 +63,7 @@ The project aims at providing tools that allow
* Other prerequisites:
## **Other information**
## Other information
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# **MOSES**
# MOSES
## **Short description**
## Short description
MOSES (MOde-coupling Single bunch instabilities in an Electron Storage ring) is a program, which computes complex coherent betatron tune shifts as a function of the bunch current for a Gaussian beam interacting with a resonator impedance.
## **Web resources**
## Web resources
* Source code and home page:http://abci.kek.jp/moses.htm
## **Technical information**
## Technical information
......@@ -26,7 +26,7 @@ MOSES (MOde-coupling Single bunch instabilities in an Electron Storage ring) is
## **Other information**
## Other information
......
# **MAD-X**
# MAD-X
## **Short description**
## Short description
MAD-X is an application used world-wide with a long history going back to the 80's in the field of high energy beam physics (i.e. MAD8, MAD9, MADX). It is an all-in-one application with its own scripting language used to design, simulate and optimize particle accelerators: lattice description, machine survey, single particles 6D tracking, optics modeling, beam simulation &amp; analysis, machine optimisation, errors handling, orbit correction, aperture margin and emittance equilibrium.
## **Web resources**
## Web resources
The <a href="http://cern.ch/madx" target="_self">MAD-X website</a> provides access to information, documentation (PDF), releases (binaries), source code (tarball), e-groups, versioning system (SVN), issues tracking system (Trac), and more... The user manual can be downloaded <a href="http://cern.ch/madx/releases/last-dev/madxuguide.pdf" target="_self">here</a>.
## **Technical information**
## Technical information
......@@ -42,7 +42,7 @@ The <a href="http://cern.ch/madx" target="_self">MAD-X website</a> provides acce
## **Other information**
## Other information
......
# **MapClass**
# MapClass
## **Short description**
## Short description
MapClass and its successor MapClass2 are two codes written in Python and C++ conceived to optimize the non-linear aberrations in beam lines. First and second order momenta of the beam at the end of the given beam line are used as figure of merits. MapClass takes the transfer map from PTC while MapClass2 is equipped with a simple integrator to produce the transfer map up to the desired order.
## **Web resources**
## Web resources
<ul><li> <strong>Source code:</strong> <a href="https://github.com/pylhc/MapClass2" target="_blank">https://github.com/pylhc/MapClass2</a>
</li> <li> <strong>MapClass documentation:</strong> <a href="https://cds.cern.ch/record/944769/files/ab-note-2006-017.pdf" target="_blank">https://cds.cern.ch/record/944769/files/ab-note-2006-017.pdf</a>
......@@ -12,7 +12,7 @@ MapClass and its successor MapClass2 are two codes written in Python and C++ con
</li> <li> <strong>GPU parallelization:</strong> <a href="http://www.sciencedirect.com/science/article/pii/S1877050916306573" target="_blank">http://www.sciencedirect.com/science/article/pii/S1877050916306573</a>
</li></ul>
## **Technical information**
## Technical information
......@@ -43,7 +43,7 @@ MapClass and its successor MapClass2 are two codes written in Python and C++ con
## **Other information**
## Other information
<ul><li> <strong>Developed by:</strong> <a href="http://rtomas.web.cern.ch/rtomas" target="_blank">Rogelio Tomas</a>, Eduardo Marin Lacoma, David Martinez, Alice Rosam, Hector Garcia Morales and Andrea Popescu.
</li> <li> <strong>License:</strong> Open source
......
# **NINJA**
# NINJA
## **Short description**
## Short description
NINJA is a 2.5 D Implicit Particle-In-Cell Monte Carlo Collision code for the simulation of inductively coupled plasmas.
The model includes a self-consistent description of the coupling between the electromagnetic field generated by the radio-frequency antenna and the plasma response, composed of the particles’ motion and the collisions between them.
## **Web resources**
## Web resources
[Link web resources available for your software. For example:]
......@@ -15,7 +15,7 @@ The model includes a self-consistent description of the coupling between the ele
Publication in preparation
## **Technical information**
## Technical information
......@@ -44,7 +44,7 @@ Publication in preparation
## **Other information**
## Other information
......
# **ONIX**
# ONIX
## **Short description**
## Short description
ONIX (Orsay Negative Ion eXtraction) is a 3D particle-in-cell Monte Carlo Collision electrostatic code to simulate the particle transport in electronegative plasmas, in the vicinity of the extraction electrode of an ion source.
## **Web resources**
## Web resources
<ul><li> <strong>References:</strong> <ul>
<li> <a href="http://iopscience.iop.org/article/10.1088/1367-2630/18/8/085011" target="_blank">http://iopscience.iop.org/article/10.1088/1367-2630/18/8/085011</a>
......@@ -12,7 +12,7 @@ ONIX (Orsay Negative Ion eXtraction) is a 3D particle-in-cell Monte Carlo Collis
</li></ul>
</li></ul>
## **Technical information**
## Technical information
......@@ -35,7 +35,7 @@ ONIX (Orsay Negative Ion eXtraction) is a 3D particle-in-cell Monte Carlo Collis
## **Other information**
## Other information
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