News on GEM Readout with the SRS, DATE & AMORE

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Presentation transcript:

News on GEM Readout with the SRS, DATE & AMORE Kondo GNANVO* With Marcus Hohlmann*, Hans Muller*, Sorin Martoiu*, Filippo Costa* * Florida Institute Of Technology, RD51 * CERN, RD51 * CERN, ALICE DAQ

K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010 OUTLINE Principle of Cosmic Ray Muon Tomography (MT) Proof of Concept with the Minimal MT Station MT Station with the Scalable Readout System DATE Framework with UDP Equipment for the SRS Data Acquisition AMORE for Event Monitoring & Data Analysis Preliminary results of Cosmic ray Muons Data with GEM/SRS Conclusion & Perspectives 10/9/2010 K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Principle of the Cosmic Ray Muon Tomography (MT) 10/9/2010 K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Proof of Concept with the Minimal MT Station Setup at CERN (in he GDD Lab) Dec ’09 –Jan ’10 and April ’10 Only 4 Triple GEM detectors used 2 at the top and 2 at the bottom 8 Gassiplex front end electronics borrowed from Saclay (Paris). Only 5 cm x 5cm area read out for each detector DAQ system inspired from CAST/MAMMA DAQ GEM Top 2 Pb Target GEM Bottom 1 GEM Bottom 2 Gassiplex electronics 10/9/2010 K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Proof of Concept with the Minimal MT Station K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

MT Station with the Scalable Readout System Full MT Station Cubic-foot size station (30 cm x 30 cm x 30 cm) Total of 10 detectors (top and bottom + lateral station) Mechanical stand with flexible geometry e.g. variable gaps between detectors APV chip + RD51 SRS to read out more than 15 000 channels DATE software for DAQ + AMORE for data monitoring & analysis Front-end cards GEM support (with cut-out) GEM detector active area Target plate HV board K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

MT Station with the Scalable Readout System The DAQ system for a full MT Station: 120 APV Hybrids and 8 ADC + FEC cards One network switch for the data transfer to the DAQ PC 1 DAQ PC with DATE & AMORE software K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010 DATE Framework with UDP equipment for the SRS Data Acquisition (Filippo Costa) DATE is ALICE DAQ software Data Acquisition & Test Environment Compatible with Linux SLC4 (Online development for SLC5 release …) Many features available : run control environment, basic online monitoring of the raw data, electronic logbook. Easy to use software and user friendly GUI for the run control UDP Equipment Ethernet socket added to DATE as an alternative data transfer system One Ethernet port on the FE card connected to another port on the DATE PC via a copper cable or optical fiber cable data, (1Gb/s to 10 Gb/s throughput) The DATE PC can handles many UDP equipments (3 Ethernet ports been tested) K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

DATE Framework with UDP equipment for the SRS Data Acquisition K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

AMORE for SRS Event Monitoring and Data Analysis AMORE is ALICE Data Quality Monitoring Software framework Automatic Monitoring Environment founded on ROOT & DATE Monitoring Library It is based on Publisher/subscriber paradigm with the detectors publishing their data in a monitoring pool and clients subscribing to the pool to collect data for online event monitoring & offline data analysis. Communication between publisher and clients through DIM a publish/subscribe system developed at CERN K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

AMORE for SRS Event Monitoring and Data Analysis AMORE code for the tests on GEM/SRS as it stands: AMORE Agent amoreMTS Great thank to Barthelemy Von Haller (ALICE DAQ team) for the help & support Decoding of the very raw data from the detector “Online” common mode correction, pedestal offset subtraction ROOT histograms of the raw data, the hit & Event Display …. Mapping, histograms & display parameters set from configuration files K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Development of MTS-II using the scalable Readout System Triple GEM with 11 APV25 hybrids The experimental setup ADC + FEC card on the Euro crate Scintillators for trigger K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Preliminary Results from Cosmic Ray Muons with GEM/SRS APV raw data Data after channel number correction ADC counts inside 25 ns time bin frame, the APV header word followed by Analog signal of the ADC 128 channels Channel Nb Time bin frames (25 ns units) K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Preliminary Results from Cosmic Ray Muons with GEM/SRS Common mode correction and pedestal subtraction ADC value ADC value Before correction Before correction strip nb on the detector strip nb on the detector ADC value ADC value after correction After correction strip nb on the detector strip nb on the detector K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Preliminary Results from Cosmic Ray Muons with GEM/SRS X1 X2 X3 X4 X5 X6 Y1 Y2 Y3 Y4 Y5 K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010

Conclusion & Perspective Where we are now We have successfully taken more than 1M cosmic data events with the GEM detector using the whole SRS (APV25, ADC/FEC/DATE + AMORE) Data were taken with 11 hybrids (~1400 channels) connected to the detector Raw offline common mode correction an pedestal subtraction where performed UDP equipment integrated for the data transfer from detector to DAQ DATE PC Development of AMORE Code for online monitoring and data analysis Where we want to be in the next few months for MT Station The production APV25 hybrids, FEC/ADC cards to readout 15 K channels for our 10 GEM detectors. Getting more familiar with the DATE software as Florida Tech will provide the DATE expert for the RD51 collaboration Develop a more robust data analysis code for the common mode and pedestal correction Develop a standard AMORE package for the RD51 users of the SRS K. Gnanvo - RD51 Coll. Meeting - Bari Italy 2010