Title :
Multiprocessor data acquisition system
Author :
Loureiro, Custódio F M ; Morgado, António Miguel L S ; Correia, Carlos M B A
Author_Institution :
Dept. of Phys., Coimbra Univ., Portugal
fDate :
10/1/1989 12:00:00 AM
Abstract :
A VME-based multiprocessor system primarily designed as the data acquisition system for a position-sensitive, driftless, gas proportional scintillation counter for X-ray astronomy is described. The counter is built around a nine-photocathode photomultiplier tube. The system was specified so that an external signal triggers the acquisition of nine analog data channels at a 20-MHz rate, with all channels operating in parallel and synchronized. For each data frame a preprocessing algorithm runs in each processor and is followed by a validation routine in the tenth processor. According to the validation decision data may be discarded or collected by the host VME computer. For this purpose a special parallel architecture was developed in which a digital signal processor is dedicated to each data channel, taking care of the acquisition, the preprocessing, and the validation algorithms. Physically the system consists of a set of VME boards each containing two TMS320C26 DSPs and two 20-MHz data acquisition channels
Keywords :
X-ray astronomy; astronomical telescopes; astronomy computing; data acquisition; nuclear electronics; position sensitive particle detectors; proportional counters; scintillation counters; TMS320C26 DSPs; VME-based multiprocessor system; X-ray astronomy; analog data channels; data acquisition system; external signal; gas proportional scintillation counter; host VME computer; nine-photocathode photomultiplier tube; parallel architecture; preprocessing algorithm; validation decision; Astronomy; Data acquisition; Digital signal processing; Digital signal processors; Multiprocessing systems; Parallel architectures; Photomultipliers; Radiation detectors; Scintillation counters; Signal processing algorithms;
Journal_Title :
Nuclear Science, IEEE Transactions on
