Last update : 06/30/04
Authors : P. King, J. Roche, D. Spayde.

Your comments are welcome.

Bold is for task that have a name attached to it
Blue are tasks that need volonteers

1. Gordon Conference 2004 (ready by end of July)
1. Goal:  Full 2 pass replay
1. Deadtime in elastic
2. Existing linear regression in elastic
3. Cut 0 correction (J. Liu, some one else ??)
   
2. Steps:
1. FrAm code changes except linear regression (S. Phillips)
   
2. YO Analysis (P.King)
   
1. Code changes
2. Sensitivity studies
3. Beam trip cuts (K. Nakahara)
   
1. Ramp rate dependence
2. Length
4. IOCSE20 reboot study (K. Nakahara)
   
5. Cross-check of BCM/BPM calibrations (J. Roche)
   
6. Luminosity monitors
1. Asymmetries
2. Linear regression
7. Deadtime (A. Biselli, B. Guillon)
   
1. Check calibration
2. Check other running modes
3. Certification
   
8. Spike analysis (identify list of affected runs and skip) (D. Marchand)
   
9. Linear regression (NBM or CP) (K. Nakahara)
   
10. PID cuts (L. Hannelius)
    
1. New cuts in database
2. Definition of proton cut
3. Verify
11. DNL (B. Guillon, B. Quinn)
    
12. Polarimetry (D. Gaskell)
    
13. Determine definition of good_for and data_quality
14. Verify good_for (P. Roos)
    
15. Verify data_quality
16. Check slow controls fields in database (L. Hannelius)
3.  If we want to do some kind of background subtraction
1. Compile dilution factors 
   
1. Simulation (L. Hannelius)
   
2. Extracted from data (check for stability versus runs, versus octants)
1. Rates stabilities over time
   
2. Check octant dependance of the asymmetries (D. Mckee)
3. ...

1. DNP 2004 (ready by beginning of October)
1. Goal:  Full 2 pass replay
1. Comparable results to Gordon 2003
2. Full linear regression
1. Additional PID cuts
2. FrAm detectors
3. Deadtime for all PID cuts
4. Resolution of FR - NA discrepancy
5. Background subtraction
2. Steps:
1. Everything else... on the master plan