Annali storici di Principato Citra, A. 10, n. 1.1 (2012)

A.10, n.1.1(2012): G. Guardia, Editoriale, P. 3 ; F. Astone, Alle origini del toponimo Cilento: la fondazione di Poseidonia ed i Tirreni-Etruschi del golfo di Salerno. Riflessioni ed ipotesi, P. 5 ; F. La Greca, Paestum e il suo territorio nella cartografia medievale e moderna, P. 45 ; A. Capano, Casalvelino e la sua frazione Acquavella. Note storiche e il catasto provvisorio del decennio napoleonico, P. 96 ; C. Bellotta, Il monachesimo basiliano nel Cilento. Il cenobio di S. Giovanni a Piro, P. 130 ; S. Villano, Città e patriziato nel Regno di Napoli attraverso le consulte della Camera di S. Chiara, P. 146 ; M. Rinaldi, Agropoli: il territorio, le fonti e la ricerca archeologica, P. 162

Towards a novel modular architecture for CERN radiation monitoring

The European Organization for Nuclear Research (CERN) has the legal obligation to protect the public and the people working on its premises from any unjustified exposure to ionising radiation. In this context, radiation monitoring is one of the main concerns of the Radiation Protection Group. After 30 y of reliable service, the ARea CONtroller (ARCON) system is approaching the end of its lifecycle, which raises the need for new, more efficient radiation monitors with a high level of modularity to ensure better maintainability. Based on these two main principles, new detectors are currently being developed that will be capable of measuring very low dose rates down to 50 nSv h−1, whilst being able to measure radiation over an extensive range of 8 decades without any auto scaling. To reach these performances, CERN Radiation MOnitoring Electronics (CROME), the new generation of CERN radiation monitors, is based on the versatile architecture that includes new read-out electronics developed by the Instrumentation and Logistics section of the CERN Radiation Protection Group as well as a reconfigurable system on chip capable of performing complex processing calculations. Beside the capabilities of CROME to continuously measure the ambient dose rate, the system generates radiation alarms, provides interlock signals, drives alarm display units through a fieldbus and provides long-term, permanent and reliable data logging. The measurement tests performed during the first phase of the development show very promising results that pave the way to the second phase: the certification

BlueBrain/MorphIO: Allow to throw warnings instead of writing them to stderr/stdout

remove -j2 from cpp_test.sh - not an option for cmake (#269) Adding C++ tests (#263) Fix for compat with recent HighFive (#268) Minimal solution to raising of warning instead of writing them (#266) apply ignoring logic to raised warnings as well (#271) Consider custom section types from 5 up to 10 (#274) fix broken links and include README to readthedocs (#276) narrow conditions when WARNING_NEUROMORPHO_SOMA_NON_CONFORM is thrown (#275