Difference between revisions of "AIOP Mar. 11, 2024"
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# [[AIOP Organization Meeting Sep. 1, 2023| Previous Meeting]] | # [[AIOP Organization Meeting Sep. 1, 2023| Previous Meeting]] | ||
#: | #: | ||
| − | # | + | # Announcements |
| − | |||
#: | #: | ||
| − | # Task assignments ([https://docs.google.com/spreadsheets/d/1RdOv5yGKrWFAxFUD4v31LxXpjOSR3qjNXAaNz1ASgCw/edit#gid=325831528 FTE Profiles]) | + | # Project Progress |
| + | #* [https://github.com/orgs/JeffersonLab/projects/18/ GitHub AIOP Project] | ||
| + | #** [https://github.com/JeffersonLab/AIOP-Photon AIOP-Photon repository] | ||
| + | #: | ||
| + | #* Task assignments (<font size="-2">[https://docs.google.com/spreadsheets/d/1RdOv5yGKrWFAxFUD4v31LxXpjOSR3qjNXAaNz1ASgCw/edit#gid=325831528 FTE Profiles]</font>) | ||
#: | #: | ||
# PIER Activities | # PIER Activities | ||
| Line 57: | Line 60: | ||
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# AOT | # AOT | ||
| − | |||
| − | |||
<hr> | <hr> | ||
=== Minutes === | === Minutes === | ||
| − | ' | + | * There is still an issue with access to the GitHub project |
| + | |||
| + | * Hovanes showed [[Media:20240311.AIOP_Hovanes.pdf|some slides]] outlining what he saw as the best option of applying AI to save beam time and optimize polaization. | ||
| + | ** Noted the beam itself may be moving which changes the angle wrt to the diamond | ||
| + | ** Well understood formula exists to connect angle to peak edge (see Ken's paper) | ||
| + | ** Suggested strategy looks at time development of values from Mya to make more accurate prediction of angle | ||
| + | *** Known formula used to calculate setting higher accuracy based on desired coherent edge | ||
| + | ** Prediction by AI is the key innovation since prompt feedback is not always accurate | ||
| + | ** Beam positions at 5C11B and active collimater are most relevant. | ||
| + | |||
| + | * Torri, Patrick, and Jiawei were going to meet separately to discuss data harvesting and preparation. | ||
| + | |||
==== Action Items ==== | ==== Action Items ==== | ||
| − | + | * Fix (if possible) Github project permissions (David) | |
| + | * Meet to discuss data organization and assignments | ||
Latest revision as of 13:02, 25 March 2024
The current weekly meeting time is every other Monday at 13:00 US/Eastern
Connection Info:
You can connect using ZOOM Video conferencing (ID: 161 588 8669). (Click "Expand" to the right for details -->):
One tap mobile: US: +16692545252,,1602484178# or +16468287666,,1602484178#
Meeting URL: https://jlab-org.zoomgov.com/j/1615888669?pwd=MnhGVUhpeEd3NVpnTGxoZHJManNBdz09&from=addon
Meeting ID: 161 588 8669
Passcode: 561441
Join by Telephone
For higher quality, dial a number based on your current location.
Dial: +1 669 254 5252 US (San Jose)
+1 646 828 7666 US (New York)
+1 646 964 1167 US (US Spanish Line)
+1 551 285 1373 US (New Jersey)
+1 669 216 1590 US (San Jose)
+1 415 449 4000 US (US Spanish Line)
833 568 8864 US Toll-free
Meeting ID: 161 588 8669
International numbers
Join from an H.323/SIP room system
H.323: 161.199.138.10 (US West)
161.199.136.10 (US East)
Meeting ID: 161 588 8669
Passcode: 561441
SIP: 1615888669@sip.zoomgov.com
Passcode: 561441
One tap mobile: US: +16692545252,,1601987443# or +16468287666,,1601987443#
Meeting URL: https://jlab-org.zoomgov.com/j/1615888669?pwd=MnhGVUhpeEd3NVpnTGxoZHJManNBdz09&from=addon
Meeting ID: 161 588 8669
Passcode: 561441
AIOP - Polarized Photon Source
Agenda:
- Previous Meeting
- Announcements
- Project Progress
- Task assignments (FTE Profiles)
- PIER Activities
- Middle School Data Science Hackathon Workshop
- HUGS mini-Workshop
- AOT
Minutes
- There is still an issue with access to the GitHub project
- Hovanes showed some slides outlining what he saw as the best option of applying AI to save beam time and optimize polaization.
- Noted the beam itself may be moving which changes the angle wrt to the diamond
- Well understood formula exists to connect angle to peak edge (see Ken's paper)
- Suggested strategy looks at time development of values from Mya to make more accurate prediction of angle
- Known formula used to calculate setting higher accuracy based on desired coherent edge
- Prediction by AI is the key innovation since prompt feedback is not always accurate
- Beam positions at 5C11B and active collimater are most relevant.
- Torri, Patrick, and Jiawei were going to meet separately to discuss data harvesting and preparation.
Action Items
- Fix (if possible) Github project permissions (David)
- Meet to discuss data organization and assignments