The following email has been sent to GRAF, Norman Anthony:

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Dear Norman Anthony Graf,

The submission of your abstract has been successfully processed.

Abstract submitted: https://indico.cern.ch/event/192695/call-for- abstracts/my-abstracts.

Status of your abstract: https://indico.cern.ch/event/192695/call- for-abstracts/412/.

See below a detailed summary of your submitted abstract:

Conference: Tipp 2014 - Third International Conference on Technology and Instrumentation in Particle Physics

Submitted by: GRAF, Norman Anthony

Submitted on: 02 March 2014 22:54

Title: org.lcsim: A Java-based tracking toolkit

Abstract content We describe a software toolkit for full event simulation and reconstruction in silicon tracking detectors. It features modular packages providing sophisticated simulations of the response of silicon detectors to the passage of charged particles. Sensor classes allow very detailed descriptions of charge carrier movement in silicon detectors: one can list the collecting, absorbing and reflecting regions, properties of silicon (doping, mobility, diffusion length, etc.), and electric and magnetic fields (including TCAD maps). After the charge carriers are generated and collected, the electronics simulation processes this into digital signals. We have defined an interface to specify how any such simulation should communicate with other parts of the package. Since details of signal processing are very sensor specific, it is anticipated that any sensor option will have its own class handling such processing, but we have implemented a number of readout technologies of interest to HEP detectors, such as CCDs and active pixel devices. Common to all the specific electronics simulation are the addition of electronics noise, propagation of the signal to readout, thresholding, and digitization of the signal. The final output is then a list of electronics channels with their corresponding ADC counts, and optionally the time for the signal, replicating the readout from a real detector. We also provide code for cluster finding, pattern recognition, track-finding and fitting, and analysis. The detector is defined by the same xml input files used for the Geant4 detector response simulation, ensuring that simulation and reconstruction geometries are always commensurate by construction.

Summary We describe an easy-to-use software toolkit used to fully simulate all aspects of silicon trackers, from signal development in pixels and microstrips, through pattern recognition and track fitting to analysis. We discuss the architecture as well as the performance.

Primary Authors: GRAF, Norman Anthony (SLAC National Accelerator Laboratory (US)) norman.graf@slac.stanford.edu

Co-authors:

Abstract presenters: GRAF, Norman Anthony

Track classification: Sensors: 1a) Calorimetry Sensors: 1b) Semiconductor Detectors Experiments: 2a) Experiments & Upgrades

Presentation type: Oral

Comments: In the past, software has been an accepted track which has been considered as very useful for instrumentation development, in particular simulation software. The software which we have developed is very flexible, easy to install and use, and useful in both large experiments as well as in individual detector simulations. I appreciate your consideration of the attached abstracts.