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Explore the powerful scanning and data flow capabilities of S-UTS, including high-speed data taking, real-time processing, and data reduction for analysis. Monitor and check data quality online during scanning to ensure efficiency and accuracy.
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SUTS Data taking and processing with Monitoring K. Morishima Flab Nagoya Univ. OPERA Emulsion Workshop 2008/01/22-23
OPERA film OPERA film OPERA film OPERA film OPERA film S-UTS Scan and Data Flow Scanning Power is Very Powerful ! ・High Speed Data Taking -> Large Area and Long Time -> Real Time Processing ・Huge Data Size -> Data Reduction S-UTS Reconstructed Data for Analysis MicroTrack segment Pipeline processing 55 cm^2 / hour / stage online monitor checking raw data during data taking
OPERA film OPERA film OPERA film OPERA film OPERA film S-UTS Scan and Data Flow Scanning Power is Very Powerful ! ・High Speed Data Taking -> Large Area and Long Time -> Real Time Processing ・Huge Data Size -> Data Reduction S-UTS Reconstructed Data for Analysis MicroTrack segment Pipeline processing 55 cm^2 / hour / stage online monitor checking raw data during data taking
Online Scanning Data Quality Check checked Items during scanning ・ number of tracks ・ surface recognition ・ track over flow (over SUTS processing power) →Keeping Efficiency of Scanning Area is over 99% (higher than track finding efficiency) ERROR → Mail to shifter → retry scanning
Surface Recognition Error Online Monitor Viewer Feedback during scan , and retry Film Size Prediction Area (mm)
SUTS data taking quality Dead area ratio # of Plate 1% PEANUT Brick
OPERA film OPERA film OPERA film OPERA film OPERA film S-UTS Scan and Data Flow Scanning Power is Very Powerful ! ・High Speed Data Taking -> Large Area and Long Time -> Real Time Processing ・Huge Data Size -> Data Reduction S-UTS Reconstructed Data for Analysis MicroTrack segment Pipeline processing 55 cm^2 / hour / stage online monitor checking data during data taking
OPERA film OPERA film OPERA film OPERA film OPERA film S-UTS Scan and Data Flow Scanning Power is Very Powerful ! ・High Speed Data Taking -> Large Area and Long Time -> Real Time Processing ・Huge Data Size -> Data Reduction S-UTS Reconstructed Data for Analysis MicroTrack segment Pipeline processing 55 cm^2 / hour / stage online monitor checking data during data taking
Data Process Scheme Data Process during data taking SUTS datataking pl01 pl02 pl03 pl04 pl05 pl06 S-UTS scan time Correct Emulsion Distortion Build BaseTrack Correct Global Displacement and Local Deformation Build Linklet ( 0 skip ) Build Linklet ( 1 skip ) Build Linklet ( 2 skip ) Build Chain All processes are going with monitoring these qualities
Data Process Scheme Data Process during data taking SUTS datataking pl01 pl02 pl03 pl04 pl05 pl06 S-UTS scan time Correct Emulsion Distortion Build BaseTrack Correct Global Displacement and Local Deformation Build Linklet ( 0 skip ) Ex. PEANUT Brick Full Area Scan scanning time : 10days process time : 3 – 4 days Build Linklet ( 1 skip ) Build Linklet ( 2 skip ) Build Chain All processes are going with monitoring these qualities
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter correct connect correct connect Base track Base track correct connect linklet chain select Data for Analysis
Data Structure and Stream PL01 PL02 PL03 PL04 X,Y,Z,AX,AY,PH Micro track Micro track Micro track Micro track One parameter each microscopic view Correction Parameter Correction Parameter Correction Parameter Correction Parameter correct connect correct connect Base track Base track correct connect linklet chain select Data for Analysis
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter correct correct connect Base track Base track correct connect linklet chain select Data for Analysis
Measure Emulsion Distortion One of quality check files ・Significance ・Continuity ・Interpolate 90mm ・position ・angle ・gap ・rotation 50mrad 115mm Vector : difference between microtrack angle and basetrack angle
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter save parameters correct correct connect Base track Base track correct connect linklet chain select Data for Analysis
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter connect correct connect Base track Base track correct connect linklet chain select Data for Analysis
BaseTrack Connect MicroTrack segments One of quality check files Ph distribution Angle difference Number of tracks angle distribution Position distribution ・Background = Fake BaseTrack
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter connect connect Base track Base track correct linklet chain select Data for Analysis
Local Deformation position ・Significance ・Continuity ・Interpolate 90mm ・position ・angle ・gap ・rotation 50 micron 115mm
Local Deformation angle ・Significance ・Continuity ・Interpolate 90mm ・position ・angle ・gap ・rotation 50mrad 115mm
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter connect connect save parameters Base track Base track correct linklet chain select Data for Analysis
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter connect connect Base track Base track connect linklet chain select Data for Analysis Linklet : information of connection between tracks
Linklet Connect track segments One of output quality files 0 skip position difference Angle difference density distribution in Process unit position distribution angle distribution
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter correct connect correct connect Base track Base track correct connect linklet chain select Data for Analysis
Linklet : connection between 2 track segments ( ex. BaseTracks ) • Measurement errors • Minimum momentum of tracks to be connected • Chain : reconstructed tracks using Linklets pl05 pl04 linklets Pl03 pl02 pl01
Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter connect connect Base track Base track connect linklet chain Select Data for Analysis
Data Size 500 GByte 1 GByte Data Structure and Stream PL01 PL02 PL03 PL04 Micro track Micro track Micro track Micro track Correction Parameter Correction Parameter Correction Parameter Correction Parameter connect connect Base track Base track connect linklet Ex. PEANUT Brick Full Area Scan chain Select Data for Analysis
Reconstructed Data for Analysis % Created by ecfsal: Version 2.4 % on 2007/03/09 23:28:09 +09:00 (JST) 0 0 2 0 0.0 0.0000 4 11 21 31 41 320 5 11 51 11 16423 19736 150025 0.3900 -0.0238 11775.7 11243.6 -245 21 18833 23125 190068 0.3909 -0.0243 11663.9 11252.4 -535 31 34118 48222 220080 0.3938 -0.0194 11555.1 11258.4 -825 41 26151 39167 140027 0.3945 -0.0250 11445.2 11262.6 -1115 51 7435 7136 180062 0.3824 -0.0355 11335.5 11269.4 -1405 432 2 11 21 11 456 243 180057 0.0924 0.1777 5617.0 5624.1 -245 21 407 213 180058 0.0790 0.1511 5592.5 5579.7 -535 Event header Chain header Track segments belonging a chain
SUTS Scanning Log full area scan of 500 OPERA films Black : SUTS01 Blue : SUTS02 Red : SUTS03 2008/01/21 2007/05/15