Many LAV stations in digital trigger Francesco Gonnella Photon-Veto Working Group CERN – 03/02/2015
LAV primitives working principles Up to 256 lead-glass blocks 2 threshold for each block: Up to 512 channels into one TEL62 PP firmware Seeks coincidences (~6 ns programmable) between high and low threshold Coincidence => slewing correction, hit production Possibility of asking a trailing on high and/or threshold crossing and a minimum ToT value to produce a hit No coincidence => discard the hit SL Firmware Sorts and merges hits Merges any hits within up to 25 ns (programmable) Outputs the L0 primitives to Gigabit Ethernet 03/02/2015Francesco Gonnella - Laboratori Nazionali di Frascati
The InterTEL boards InterTEL boards are plugged on top of the TEL62 and communicate with the SL FPGA through a16-bit 40MHz bus They were tested by Perugia (Matteo & Mattia) and are now ready 03/02/2015Francesco Gonnella - Laboratori Nazionali di Frascati
LAV SL firmware Merge physical hit times from the 4 PPs Group together hits within a given cluster (5 ns window) Evaluate the average of the clusters, obtaining primitive times Sort primitive times Produce a trigger primitive Error on primitive lost 03/02/2015 Cluster hit number Francesco Gonnella - Laboratori Nazionali di Frascati
Daisy-chain connection topology Every Tel62 is connected to the next Tel62 The last Tel62 (LAV12) produces trigger primitives and sends them through its Gigabit Ethernet to L0TP 03/02/2015 TEL62 PP SL TDCB GbEth TDCB LAV2 TEL62 PP SL TDCB GbEth TDCB LAV… TEL62 PP SL TDCB GbEth TDCB LAV12 Inter-TEL bus L0TP Trigger to all TEL62s from other L0 detectors InterTEL TEL62 PP SL TDCB GbEth TDCB LAV1 InterTEL Inter-TEL bus Francesco Gonnella - Laboratori Nazionali di Frascati
Star connection topology Every Tel62 is connected to an additional “concentrator” Tel62 equipped with TELDES boards instead of TDCBs The connection InterTEL to TELDES is viable as they use the same serializer/deserializer chip. 03/02/2015 TEL62 PP SL GbEth TELDES TEL62 PP SL TDCB GbEth TDCB LAV2 TEL62 PP SL TDCB GbEth TDCB LAV… TEL62 PP SL TDCB GbEth TDCB LAV12 Inter-TEL bus L0TP Trigger to all TEL62s from other L0 detectors InterTEL TEL62 PP SL TDCB GbEth TDCB LAV1 InterTEL Francesco Gonnella - Laboratori Nazionali di Frascati
InterTEL connection Where to take data from? Where to send data to? 03/02/2015 Cluster hit number Before merging and sorting Before sending to Ethernet Try to send it as soon as possible Try to send as few data as possible Francesco Gonnella - Laboratori Nazionali di Frascati
Daisy-chain topology (1/2) Facts: PP and SL clock frequency: 160 MHz InterTEL clock frequency: 40 MHz InterTEL word length = 16 bit Time frame duration 6.4 us i.e clock 160 MHz Assumptions: Hit rate on LAV single station: 2MHz ~12 Hit over a Time Frame 6.4 us Cable length between two adjacent LAV stations: 15m Delay in clock cycles = (40 + (Nhit – 1) * Words * 4) * (Nlav -1) Words = 3 (40-bit absolute times require 3 16-bit words) with some effort data could be compressed 03/02/2015Francesco Gonnella - Laboratori Nazionali di Frascati
Daisy-chain topology (2/2) With all the 12 LAV we obtain: 2024 clock cycle > 1024 so cannot bit done within one time frame With 6 LAV we obtain: 920 < 1024: but a little bit at the limit With 3 or 4 LAVs we could try to implement multiple LAV primitive generation with minimal effort Solutions: Use less LAVs (to be done as a first step) Add a delay and buffer data (100 us is the limit imposed by L0TP) Send data in a smarter way (e.g. split into timestamp and fine time and send the TS only once) Divide the 12 LAVs into 2 or 3 sub-groups and connect them to L0TP No information about the hit-station cannot be propagated in daisy-chain topology, without major modification in firmware logic. 03/02/2015Francesco Gonnella - Laboratori Nazionali di Frascati
Star topology Connect many stations to one concentrator We add an additional TEL62 board equipped with TELDES board that can receive data from all the 12 InterTEL All the LAV can use the same firmware We have data coming from all the LAV station all at once Complex trigger decision can be taken Whole new PP firmware must be written For data receiving, modules already exist to in LKr L0 firmware For data sending to SL, LAV firmware modules could be used SL firmware could be the LAV one as a start and could be rewritten in order to perform complex trigger algorithm 03/02/2015Francesco Gonnella - Laboratori Nazionali di Frascati
Conclusions Daisy-chain topology: CONS: Cannot connect all LAV stations, at least with small effort Cannot keep track of the hit station Cannot do complex trigger algorithm PROS: Small effort is required Star topology: CONS: One more TEL62 and one TELDES are needed A serious effort is required PROS: Could use a not-perfectly-working TEL62 Very refined triggering e.g. distinguish between muons and photons. We could use LAV trigger since the beginning of the run in “tagging mode” 03/02/2015Francesco Gonnella - Laboratori Nazionali di Frascati
Thanks for your attention 03/02/2015