Estimation of Number of Links for Barrel PIDD

1. Estimation of the number of linksfor the barrel PIDD. Breton, C.Beigbeder, J.Maalmi LNF PID session 1 December 1st 2009

2. Raw calculations (1)… • The calculation of the number of links L for a given subdetector is based on the following parameters: • N: number of channels [channel] • T: trigger rate [events / s] • E: event size [bits / (event x channel)] • R: link baud rate [bits / (link x s)] • The equation giving the minimum number of links with an optimum multiplexing factor and no concern about detector topology is: • L = N x T x E / R • Some of these numbers are common to the whole experiment: • T = 150 k events / s. • R = 2 Gbits / s (conservative) • For barrel PID (focussing DIRC option), numbers are the following: • N = 30,000 channels • E now has to be estimated.

3. Raw calculations (2)… • The calculation of the event size is based on the following parameters: • W: trigger window (specific to barrel PID) [s] • H: hit rate per channel [hits / s /channel] • D: mean number of data bits per hit [bits / hit] (includes data formatting and encapsulation) • The equation giving the event size E is the following: • E = W x H x D • For barrel PID (focussing DIRC option), numbers could be the following with a simple BABAR-like TDC option: • W = 200 ns (reasonable ? … ) • H = 100 kHz (Jerry’s guess ... Too optimistic ? …) • D = 32 bits (our guess from BABAR’s experience …) • Which gives for E: • E = 2 E-7 x 1 E+5 x 32 = 6.4 E-1 [bits/ (event x channel)] • Which gives for L: • L = 3 E+4 x 1.5 E+5 x 4.8 E-1 / 2 E+9 = 1.44 link !!!

4. Remarks (1) • Former calculation of the event size is based on the simplest (BABAR-like) option: • We encode the hit arrival with a 100-ps TDC • If we feel like adding the charge information for each hit, D may rise up to 48 bits => factor 1.5 on L. • From what has justbeen shown, it becomes obvious that our system will be topology driven concerning the number of links with a TDC based solution. • This was already the case in BABAR’s DIRC: 12 readout links each with a payload of 15 to 20% of its capacity.

5. Remarks (2) • The number of links will depend here on our capacity to multiplex the information on the detector. • This very small number of links gives a pleasant (and anyhow necessary) safety factor for all potential increases in the background rate (H), trigger rate (T) or window width (W).

6. Remarks (3) • A solution based on analog memories would require more links. • The main difference sits in the value of D because, in addition to the hit time, a few tens of samples have to be digitized and sent to the ROM, where necessary digital processing has to be performed. • The extra amount of bits, based on discussions with Gary, can be estimated to be 75 samples x 12 bits = 900 bits / hits. • Which would put a factor ~40 on the number of links. • Then the question of the safety factor has to be raised, because we may not be topology driven anymore. • If we don’t want to increase the number of links, digital processing has to be performed in the front-end, which is not optimal from the power and radiation points of view. • More generally, and independently from the solution chosen, what should be the safety factors on: • T: trigger rate [events / s] • W: trigger window (specific to barrel PID) [s] • H: hit rate per channel [hits / s] • W and H are detector specific, whereas T concerns the whole experiment.