- Write MC to SRawEvent files
- Do on Rivanna
- Compare full tracks vs incomplete tracks
- Look at actual events flagged to be complete
- What is the efficiency for those events?
- What is the error in reconstruction?
- Check if actually 10% full tracks
- Look at incomplete events
- Out of total number, how many are reconstructable with QTracker/KTracker
- What is the error in reconstruction for those?
Compare masking to training with hodoscope data or with trigger part of hodoscopes
Check hodoscope occupancy
Cosmic ray mode?
Boer Mulders
- Evaluate E906 Data using QTracker
- Find \lambda, \mu, \nu based on Drell-Yan from the target and regression
- Produce and extract artificial BM function
- Optimizing the analysis and extraction to have smallest error
Questions to be answered:
- Trigger for simulated events
- J/Psi peak reconstruction
- Run a test with J/Psi, Drell-Yan, and random, try to reconstruct the peak.
- Parallelization of QTracker process
- How much is GPU based
- How much is CPU based
- IO Test
- Libraries to create CODA files
- Read them with the Decoder
- From Srawevent to reconstruction
- Reading and writing SRawEvents
- Reading done
- Writing need to know structure and use root
Later: Meet with Kenichi about DAQ/Encoder timing