calorimeter trigger for sbelle
DESCRIPTION
Calorimeter Trigger for sBelle. ByungGu Cheon (Hanyang Univ) Super Belle Meeting, July 3-4, KEK. 52 TKO crates. Keep TKO system or Use VME system. Official scheme. I. Nakamura. Belle ECL Electronics. sBelle ECL trigger electronics. SEQ. PD+ Preamp. GDL. Shaper. - PowerPoint PPT PresentationTRANSCRIPT
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Calorimeter Trigger for sBelle
ByungGu Cheon(Hanyang Univ)
Super Belle Meeting, July 3-4, KEK
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52 TKO crates
Keep TKO systemor
Use VME system
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Official scheme
I. Nakamura
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Belle ECL Electronics
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F
ina
l trig
ge
r
(23
)
sBelle ECL trigger electronics
PD+Preamp Shaper
FAM( FADC+FPGA)
TMM( FPGAs)
GDL
Monitor
an
alo
g s
um
(1
2)
Gb serial link (52)
Gb seria
l link (
52)
SEQ
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Advantage of FAM + TMM scheme
Electronics chain will be very simple.
More flexible trigger design (because we have waveform information).
Reduction of cable; lots of bulky copper cables 52 optical fibers
Simple monitoring scheme (extra QT & TDCs are not necessary)
Easy handling of CsI(Tl) and pure-CsI together
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Flash ADC Module(FAM)
Input : 12 TC(4x4Xtlas) analog sum signals from Shapers Continuous Input signal digitization @ 100MS/s 10~12bit Find a pulse peak value or a partial sum of rising signal region Digital discrimination of pulse height (programmable) Output : 12 TC pulse height (or partial sum) + discriminator bit via G
bit link (with 10ns timing resolution) TC output gain variation adjustment using look-up-table One board(12 TC channels) / VME crate Xtal gain adjustment should(may?) be done at Shaper.
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How FAM works
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Trigger & Monitoring Module(TMM)
Input : 52 x 12 TC signals from FAM modules 7 FPGAs + VME interface If all parts are not fitted into one board, partitioning & cascading
design will be taken into account. Output : 23 ECL final trigger signals
4 ECL trigger timings ( Final, Fwd, Barrel, Bwd )
3 Total Energy ( >0.5, 1.0, 3.0 GeV)
4 Isolated Cluster Number ( 3 bits + 1 carry-bit)
11 types of Bhabha triggers
1 Cosmic Veto
** Any more useful trigger algorithm will be studied.
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Timing Latency
Peaking time=700ns @ peak position of analog sum signal
ADC pipeline latency @ FAM = ~100ns
Peak finding process @FAM = 100 ~ 200ns
Programmable delay @ FAM = ~300ns
Gbit transfer(~200bit) = ~200ns
Optical cable length(40~60m) = 200 ~ 300ns
52 Trigger input alignment @ TMM = ~100ns
Trigger decision @ TMM = 100 ~ 200ns
-------------------------------------------------
Total latency = 1800 ~ 2100ns
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FAM key algorithm test
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New EBMM.J.Lee
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Bhabha, Etot CalibrationM.J.Lee
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Bhabha, Etot TimingM.J.Lee
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How can we handle pure CsI signals together with CsI(Tl) if we replace endcap Xtals ?
Peaking time and pulse height difference btw CsI(Tl) and pure CsI
All the triggers will be problematic without any correciton.
Timing and pulse height correction of pure CsI can be done @ TMM.
New FAM+TMM chain will generate all the trigger signals we provide now.
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Manpower
Hanyang Univ. : Y. Unno, S.H.Kim, I.S, Lee, B.G. Cheon (4) Seoul N. Univ. : M.J. Lee, S. Ryu, S.K. Kim (3) BINP : Y. Usov (1) Notice co. : S.Y. Kim (1)
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Summary
FAM core firmware algorithm will be studied using new EBM. We will start designing FAM if VME type Shaper design is ready. Trigger algorithm will be studied with sBelle trigger simulator. We have investigated the possibility of producing Shaper in Korea.
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Backup Slides