Title :
Commissioning of the New Electronics and Online System for the Super-Kamiokande Experiment
Author :
Yamada, S. ; Awai, K. ; Hayato, Y. ; Kaneyuki, K. ; Kouzuma, Y. ; Nakayama, S. ; Nishino, H. ; Okumura, K. ; Obayashi, Y. ; Shimizu, Y. ; Shiozawa, M. ; Takeda, A. ; Heng, Y. ; Yang, B. ; Chen, S. ; Tanaka, T. ; Yokozawa, T. ; Koshio, Y. ; Moriyama, S. ;
Author_Institution :
Inst. for Cosmic Ray Res., Univ. of Tokyo, Chiba, Japan
fDate :
4/1/2010 12:00:00 AM
Abstract :
The Super-Kamiokande detector is a ring imaging Cherenkov detector for neutrino physics and proton-decay search and consists of 50 000 tons of pure water equipped with about 13 000 photo-multipliers. The old front-end electronics and online system running for more than one decade were all upgraded in September, 2008 and the data acquisition was started successfully. The new front-end electronics is based on a charge to time converter and a multi-hit Time to Digital converter. TCP/IP based readout channel is implemented to handle large amounts of data. In the new data acquisition scheme, the hardware event-trigger for the data reduction is replaced by processing all the hits in the online farm, so that we are able to lower the threshold of the detection energy for solar neutrino and analyze consecutive events whose time interval is too long to detect in the previous system. To make the new online system to be capable of processing larger dataflow of up to 470 MB/s, we utilize Gigabit and 10-Gigabit Ethernet technologies and distribute the load over Linux PCs to handle a large amount of data. In this paper, we will describe the design and performance of the new system in the commissioning.
Keywords :
Cherenkov counters; data acquisition; local area networks; nuclear electronics; readout electronics; Super-Kamiokande detector; Super-Kamiokande experiment; TCP/IP based readout channel; data acquisition scheme; detection energy; ethernet technology; front-end electronics; internet protocol; neutrino physics; online system; photomultipliers; proton-decay search; ring imaging Cherenkov detector; solar neutrino; transmission control protocol; Data acquisition; Detectors; Ethernet networks; Event detection; Hardware; Linux; Neutrino sources; Personal communication networks; Physics; TCPIP; Data acquisition; event building; front-end electronics; neutrinos;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2009.2034854