I would only recommend using this once you are familiar with running individual simulations. This allows you to run a large number of similar simulations using different parameters (for example, simulating how the charge collection behaviour of a detector varies depending on the position of the particle track). WorkbenchTutorial.doc - Instructions for using Sentaurus Workbench to run a project. If you have difficulty with the files below, or other questions / comments, email me at - Powerpoint presentation giving an overview of the different packages available within Sentaurus. When creating the account, it asks you for the site ID - for Glasgow it's 9249. You need to create an account to do this.
#Synopsys tcad manuals
Manuals for the software can be found in the "Solvnet" section of the Synopsys website: you need to setup the software by sourcing the script mentioned previously, cd to the appropriate folder, then use the normal commands to run the software. Once you've specified details of the job like duration, queue etc. This can be particularly useful if a simulation is slow, or you have multiple simulations to run.Īlso, here is an example submission file for a Synopsys job. See the main PPE IT Wiki for general information on running jobs on the batch computing system.
![synopsys tcad synopsys tcad](https://www.cmc.ca/wp-content/uploads/2020/12/fig2-4.jpg)
To use Synopsis TCAD source the file /data/ppe01/sl305/i386/synopsys/env-setup.sh this will setup several environment variables and also add the TCAD binary directory (/data/ppe01/sl305/i386/synopsys/Z_2007.03/tcad/Z-2007.03/linux/bin) into your path.
![synopsys tcad synopsys tcad](https://www.synopsys.com/content/dam/synopsys/silicon/images/dtco-diagram.jpg)
Setting up the software (copied from IT Wiki) The software allows you to design a device structure (including simulating its fabrication, if needed), simulate its behaviour under different conditions, then visualise the results. This is a suite of programs for semiconductor device simulation.