@@ -38,7 +38,7 @@ Phase II will start in June 2019 with an improved detector configuration.
\section{CUPID-0 computing model and the role of CNAF}
The CUPID-0 computing model is similar to the CUORE one, being the only difference in the sampling frequency and working point of the light detector bolometers.
The full data stream is saved in root files, and a derivative trigger is software generated with a channel dependent threshold.
The full data stream is saved in ROOT files, and a derivative trigger is software generated with a channel dependent threshold.
%Raw data are saved in Root files and contain events in correspondence with energy releases occurred in the bolometers.
Each event contains the waveform of the triggering bolometer and those geometrically close to it, plus some ancillary information.
The non-event-based information is stored in a PostgreSQL database that is also accessed by the offline data analysis software.
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@@ -49,7 +49,7 @@ A full copy of data is also preserved on tape.
The data analysis flow consists of two steps; in the first level analysis, the event-based quantities are evaluated, while in the second level analysis the energy spectra are produced.
The analysis software is organized in sequences.
Each sequence consists of a collection of modules that scan the events in the Root files sequentially, evaluate some relevant quantities and store them back in the events.
Each sequence consists of a collection of modules that scan the events in the ROOT files sequentially, evaluate some relevant quantities and store them back in the events.
The analysis flow consists of several key steps that can be summarized in pulse amplitude estimation, detector gain correction, energy calibration and search for events in coincidence among multiple bolometers.
The new tools developed for CUPID-0 to handle the light signals are introduced in \cite{Azzolini:2018yye,Beretta:2019bmm}.
The main instance of the database was located at CNAF
