Difference between revisions of "CDC prototype more on timing 3"
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## Calculate event pedestal P<sub>evt</sub> as mean of samples 90 to 190 in current event | ## Calculate event pedestal P<sub>evt</sub> as mean of samples 90 to 190 in current event | ||
## Select events where adc value goes over high threshold T<sub>h1</sub> + P<sub>evt</sub> (T<sub>h1</sub> ~ 5sigma) | ## Select events where adc value goes over high threshold T<sub>h1</sub> + P<sub>evt</sub> (T<sub>h1</sub> ~ 5sigma) | ||
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# Find high threshold time and new local pedestal | # Find high threshold time and new local pedestal | ||
## Upsample data from samples 150 to 350 (max drift time + trigger time is approx sample 290) | ## Upsample data from samples 150 to 350 (max drift time + trigger time is approx sample 290) | ||
## Search forward to find point x1 where data goes above a not quite so high threshold T<sub>h2</sub> + P_{e} where T<sub>h2</sub> ~ 4 σ | ## Search forward to find point x1 where data goes above a not quite so high threshold T<sub>h2</sub> + P_{e} where T<sub>h2</sub> ~ 4 σ | ||
## Find a local pedestal P<sub>loc</sub> as adc value at N<sub>p</sub> upsampled points before x1 (eg N<sub>p</sub>=15) | ## Find a local pedestal P<sub>loc</sub> as adc value at N<sub>p</sub> upsampled points before x1 (eg N<sub>p</sub>=15) | ||
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# Find low threshold time and new local pedestal | # Find low threshold time and new local pedestal | ||
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## Search backward from x1 to find point x2 where data goes below low threshold T<sub>h2</sub> + P<sub>loc</sub> where T<sub>h2</sub> ~ σ | ## Search backward from x1 to find point x2 where data goes below low threshold T<sub>h2</sub> + P<sub>loc</sub> where T<sub>h2</sub> ~ σ |
Revision as of 15:20, 20 March 2012
Latest approach to hit finding is as follows:
- Find a hit channel and event pedestal
- Calculate mean pedestal Pm & s.d. (σ) for first 100 samples in 100 events (trigger is approx sample 200)
- Set a threshold Tp (eg 3.5 σ) for further investigation, eg Pm + Tp , select events & channels where adc value exceeds this
- Calculate event pedestal Pevt as mean of samples 90 to 190 in current event
- Select events where adc value goes over high threshold Th1 + Pevt (Th1 ~ 5sigma)
- Find high threshold time and new local pedestal
- Upsample data from samples 150 to 350 (max drift time + trigger time is approx sample 290)
- Search forward to find point x1 where data goes above a not quite so high threshold Th2 + P_{e} where Th2 ~ 4 σ
- Find a local pedestal Ploc as adc value at Np upsampled points before x1 (eg Np=15)
- Find low threshold time and new local pedestal
- Search backward from x1 to find point x2 where data goes below low threshold Th2 + Ploc where Th2 ~ σ