|Deletions are marked like this.||Additions are marked like this.|
|Line 9:||Line 9:|
|||<style=""color:#FF3333;font-weight:bold;border:none; "">Wed Mar 17: SModelS v1.0.3 is now available for download: ||<style=""border:none; "">[[http://smodels.hephy.at/cgi-bin/download.py?version=1.0.3|smodels-v1.0.3.tgz]] ||||||<style=""color:#FF3333;font-weight:bold;border:none; "">Wed Mar 16 2016: SModelS v1.0.4 is now available for download: ||<style=""border:none; "">[[http://smodels.hephy.at/cgi-bin/download.py?version=1.0.4|smodels-v1.0.4.tgz]] |||
|Line 13:||Line 13:|
|* A more detailed documentation is available in the [[http://smodels.hephy.at/docs/v1.0.3/manual/build/html/|online Manual v1.0.3]]||* A more detailed documentation is available in the [[http://smodels.hephy.at/docs/v1.0.4/manual/build/html/|online Manual v1.0.4]]|
SModelS: A tool for interpreting simplified-model results from the LHC
Sabine Kraml, Suchita Kulkarni, Ursula Laa, Andre Lessa, Veronika Magerl, Wolfgang Magerl, Doris Proschofsky, Michael Traub, Wolfgang Waltenberger
Wed Mar 16 2016: SModelS v1.0.4 is now available for download:
Release notes are available here.
A quick user guide is available as arXiv:1412.1745
A more detailed documentation is available in the online Manual v1.0.4
known problems are listed here
For questions and comments, send an e-mail to firstname.lastname@example.org
To subscribe for announcements and updates, send an e-mail with the topic SUBSCRIBE to email@example.com
If you use SModelS, please cite the quick guide (arXiv:1412.1745), the original SModelS paper (arXiv:1312.4175) as well as the tools used by the code: Pythia6.4, NLL-fast and PySLHA. For convenience a .bib file is provided with the code containing all relevant references. Likewise, a .bib file is provided in the database folder with references to all the ATLAS and CMS analyses used.
SModelS is based on a general procedure to decompose Beyond the Standard Model (BSM) collider signatures presenting a Z2 symmetry into Simplified Model Spectrum (SMS) topologies. Our method provides a way to cast BSM predictions for the LHC in a model independent framework, which can be directly confronted with the relevant experimental constraints. Our concrete implementation currently focusses on supersymmetry searches with missing energy, for which a large variety of SMS results from ATLAS and CMS are available. The main ingredients are
- the decomposition of the BSM spectrum into SMS topologies
- a database of experimental SMS results
the interface between decomposition and results database (to check limits)
Original SModelS paper
SModelS: a tool for interpreting simplified-model results from the LHC and its application to supersymmetry
Sabine Kraml, Suchita Kulkarni, Ursula Laa, Andre Lessa, Wolfgang Magerl, Doris Proschofsky, Wolfgang Waltenberger,arXiv:1312.4175EPJC May 2014, 74:2868
An SMS dictionary explaining the Tx names is given here
The database.bib file is missing in v1.0.2 and v1.0.3.
For previous code releases, see PreviousCodeReleases.
None right now, current release (v1.0.3) is included in SModelS-v1.0.3. See the release notes here.
Publications and Talks
See the publications and talks page
A wishlist regarding the presentation of SMS results was worked out at the 2013 Les Houches workshop, see this page.
For developers (internal)
Developers please visit the DevelopersPage.