diff --git a/Control/CalypsoExample/GeoModelTest/README.md b/Control/CalypsoExample/GeoModelTest/README.md index 832c17a72d248ef865dd1c0e772297a8af680e97..b05f0c349ba4224424bf8ca561110f03b8f99696 100644 --- a/Control/CalypsoExample/GeoModelTest/README.md +++ b/Control/CalypsoExample/GeoModelTest/README.md @@ -1,4 +1,3 @@ -<<<<<<< HEAD This example package actually serves several purposes: *) It illustrates how to initialize and access the detector description and magnetic field. @@ -16,32 +15,5 @@ The file GeoModelTestConfig.py can be edited to change some run options. After running the algorithm, to add the alignment data into your local conditions DB, do: run > CopyAlignFolder.sh -======= -This example package serves several purposes: - - -* It illustrates how to initialize and access the detector description and magnetic field. - -* It checks that the expected number of detector elements are created. - -* It generates a set of neutral alignment constants for the Tracker, which can be folded into the conditions database. - -* It dumps a standalone GeoModel sqlite geometry database which could be used by external programs to display FASER without requiring any FASER software (only GeoModel) - -To run the algorithm, in a run directory where Calypso has been installed (displayed below as the command-line prompt `run >`), do - -``` -run > ./setup.sh -run > python python/GeoModelTest/GeoModelTestConfig.py -``` - -The file `GeoModelTestConfig.py` can be edited to change some run options. - -After running the algorithm, to add the alignment data into your local conditions DB, do: - -``` -run > CopyAlignFolder.sh -``` ->>>>>>> 101c2c7308dc4189ca54fa71c97222e7670a54a7 diff --git a/Tracker/TrackerDigitization/FaserSCT_Digitization/README.md b/Tracker/TrackerDigitization/FaserSCT_Digitization/README.md index 4e2a3c0687afbd38f89be1ac381d9d5567640679..4b8569c27c1c856a16724be0014ca3ca7239afd4 100644 --- a/Tracker/TrackerDigitization/FaserSCT_Digitization/README.md +++ b/Tracker/TrackerDigitization/FaserSCT_Digitization/README.md @@ -1,6 +1,5 @@ This package will translate Geant4 hits (HITS) into RawDataObject (RDO) data files. -<<<<<<< HEAD Because input data and alignment is needed, there are a few steps to prepare. From a run directory where calypso is installed, do: *) run > ./setup.sh @@ -26,41 +25,3 @@ Now you can run digitization on the HITS file you generated with the command: run > FaserSCT_DigitizationDbg.py >& digi.log This will read your g4.HITS.root generate an RDO data file with digitized raw data objects. -======= -Because input data and alignment is needed, there are a few steps to prepare. From a run directory where calypso is installed (displayed in the command-line prompt as `run >` below), do: - -``` -run > ./setup.sh -``` - -This sets up the runtime environment after building. The "." is mandatory. - -``` -run > runG4.py >& runG4.log -``` - -This will create a HITS file. - -``` -run > python python/GeoModelTest/GeoModelTestConfig.py -``` - -This will generate a set of neutral alignment data - -``` -run > CopyAlignFolder.sh -``` - -This will merge the alignment data into the conditions DB. - -All the above steps need only be done once after building calypso (but the last two steps must be repeated each time you do `make install`). - -Now you can run digitization on the HITS file you generated with the command: - -``` -run > FaserSCT_DigitizationDbg.py >& digi.log -``` - -This will read your `g4.HITS.root` and generate an RDO data file with digitized raw data objects. - ->>>>>>> 101c2c7308dc4189ca54fa71c97222e7670a54a7