1. Endcap Trigger Emulation Xin Wang

2. 2 FEE DSM0 DSM1 DSM2 720 towers 90 trigger patches 12 ‘half’ jet patches 0.3x1 or 0.6x1 2 endcap halves Raw ADC from DAQ file To last DSM board Processing of ADC to L0 trigger decision 6 channels from BARREL, each with 5-bit Esum

3. 3 1 4 5 8 9 12 2 3 6 7 10 11 Endcap structure: towers -> trigger patches ->half jet patches - >endcap halves

4. 4 FEE HT 6-bit Emulated from ADC Real trigger data Emu-Real difference 3% mismatch

5. 5 FEE TP 6-bit Emu-Real difference Emulated from ADC Real trigger data mismatch

6. 6 BARRELENDCAP Etotal (B+E) Barrel Endcap Etot (E+B) Etot energy in DSM channels  mismatch ~80% ~7% Etot ENERGY calculation from ADC & trig data Trig data ADC emul Trig data ADC emul Trig data ADC emul

7. 7 EmulatedReal data Emu-Real difference Etot BIT calculation from ADC & trig data

8. 8 Conclusion All L0-bits for ENDCAP can be emulated for M-C Code verified against real events for DSM0,1,2 More QA histos developed  ported to online (PPlot) Limitation: works for predefined time stamp (range)

9. 9 BACKUP

10. 10 DSM0

11. 11 DSM1 1 2

12. 12 FEE DSM0 DSM1 DSM2 720 towers, each with 12-bit raw ADC from DAQ file 90 trigger patches, each with 12-bit ADC( 6-bit TP + 6-bit HT) 12 DSM0 channels, each with 16-bit ( 9 or 10-bit TPsum, 2-bit HT, 2-bit TP, 2-bit HTTP) 2 DSM1 channels, each with 16-bit ( 5-bit Esum, 1-bit HTTPthr, 1-bit TPthr, 2-bit JP, 2- bit HT) 6 channels from BARREL, each with 5-bit Esum