Speaker
Description
We present TDAnalyser, a data analysis framework developed for the analysis of timing detectors under R&D. Based on a C++ architecture, it aims at normalising analysis procedures to evaluate various detector performances quantiles through the definition of standard and user-defined analyses building blocks:
From readout-specific (e.g. oscilloscopes waveforms, DRS4/Sampic ADC values, HPTDC/PicoTDC time measurements) unpacking procedures to complex analyses extracting a detector's intrinsic time resolution, or spatial correlations between multiple channels, through time discrimination or amplitude-recovery algorithms, its modular extension toolset gives analysts a common platform for the definition of their workflow.
With its ROOT RNTuple backbone for the management of the run- and event-granular payloads (including user-defined objects), it provides multiple I/O modules implementations for the preservation and standardisation of test beam datasets.
In this talk, we will present a few of the latest TDAnalyser features, and highlight a couple of successful reanalyses of datasets that led to past publications.