Difference between revisions of "BCAL Reconstruction Algorithms"
From GlueXWiki
(→List of Reconstruction Algorithms) |
m (Text replacement - "http://argus.phys.uregina.ca/cgi-bin/private" to "https://halldweb.jlab.org/doc-private") |
||
(2 intermediate revisions by 2 users not shown) | |||
Line 1: | Line 1: | ||
== List of Reconstruction Algorithms == | == List of Reconstruction Algorithms == | ||
# KLOE | # KLOE | ||
+ | ## Some description can be found in [https://halldweb.jlab.org/doc-private/DocDB/ShowDocument?docid=569 GlueX-doc-569] | ||
# MATT | # MATT | ||
## [[media:New_bcal_recon.pdf | Details of the MATT BCAL Reconstruction Algorithm]] | ## [[media:New_bcal_recon.pdf | Details of the MATT BCAL Reconstruction Algorithm]] | ||
# JLAB: very simple algorithm based on the radial phi distribution. | # JLAB: very simple algorithm based on the radial phi distribution. | ||
## Generate two matrices 4 x 48*4 (all readout channels) for up and down stream readout | ## Generate two matrices 4 x 48*4 (all readout channels) for up and down stream readout | ||
− | ## Project the ADC values into an array 1 to 48*4 for both up and down stream | + | ## Project the ADC values into an array 1 to 48*4 for both up and down stream => sum over the layers |
## Find largest ADC sum in array for up and downstream array and project it into an array from 0 to 60 with the maximum at 20 | ## Find largest ADC sum in array for up and downstream array and project it into an array from 0 to 60 with the maximum at 20 | ||
## Fit the position maximum with a Gaussian to determine position and take the average of up and down stream result. This will lead to the phi angle of the cluster | ## Fit the position maximum with a Gaussian to determine position and take the average of up and down stream result. This will lead to the phi angle of the cluster |
Latest revision as of 17:00, 24 February 2017
List of Reconstruction Algorithms
- KLOE
- Some description can be found in GlueX-doc-569
- MATT
- JLAB: very simple algorithm based on the radial phi distribution.
- Generate two matrices 4 x 48*4 (all readout channels) for up and down stream readout
- Project the ADC values into an array 1 to 48*4 for both up and down stream => sum over the layers
- Find largest ADC sum in array for up and downstream array and project it into an array from 0 to 60 with the maximum at 20
- Fit the position maximum with a Gaussian to determine position and take the average of up and down stream result. This will lead to the phi angle of the cluster
- Calculate the geometric mean of the energy (from up and downstream energy sums) using BCAL length and attenuation values.
- Calculate the average position along the BCAL using average time difference, length of the BCAL and attenuation values.
- Calculate the average mean time using BCAL lenth and effective speed of light in the fibers.
- No other attempt to separate clusters is done at this point.