01055nam0-22002891i-450-99000201761040332120070216143521.0000201761FED01000201761(Aleph)000201761FED0100020176120030910g19551959km-y0itay50------baeng<<A >>systematic monograph of the dermaptera of the world based on material in the British Museum Natural HistoryW. D. HincksLondonTrustees of the British Museum Natural History1955-19592 v.25 cm1.: Pygidicranidae (subfamily Diplatyinae)2.: Pygidicranidae (escluding Diplatyinae)Ortotteroidei595.721Hincks,Walter Douglas85934ITUNINARICAUNIMARCBK99000201761040332161 IV D.4/83.1-24304DAGENDAGENSystematic monograph of the dermaptera of the world based on material in the British Museum Natural History405813UNINA01600nam 2200481Ka 450 991069555450332120070206132702.0(CKB)5470000002371225(OCoLC)82141988(EXLCZ)99547000000237122520070206d2000 ua 0engtxtrdacontentcrdamediacrrdacarrierBOREAS TE-6 multiband vegetation imager data[electronic resource] /Christopher J. KucharikGreenbelt, Md. :NASA Goddard Space Flight Center,[2000]1 volume digital, PDF fileTechnical report series on the Boreal Ecosystem-Atmosphere Study (BOREAS) ;146NASA/TM ;2000-209891, v. 146Title from title screen (viewed on Feb. 6, 2007)."October 2000."Includes bibliographical references.Canopies (vegetation)nasatCarbonnasatClimatenasatData acquisitionnasatDimensional measurementnasatImaging techniquesnasatCanopies (vegetation)Carbon.Climate.Data acquisition.Dimensional measurement.Imaging techniques.Kucharik Christopher J1396521Goddard Space Flight Center.GPOGPOBOOK9910695554503321BOREAS TE-6 multiband vegetation imager data3456791UNINA01740nam 2200373z- 450 9910346923703321202102111000011806(CKB)4920000000101285(oapen)https://directory.doabooks.org/handle/20.500.12854/56878(oapen)doab56878(EXLCZ)99492000000010128520202102d2009 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPredicting software performance in symmetric multi-core and multiprocessor EnvironmentsKIT Scientific Publishing20091 online resource (IV, 291 p. p.)The Karlsruhe Series on Software Design and Quality / Ed. by Prof. Dr. Ralf Reussner3-86644-381-1 With today's rise of multi-core processors, concurrency becomes a ubiquitous challenge in software development.Performance prediction methods have to reflect the influence of multiprocessing environments on software performance in order to help software architects to find potential performance problems during early development phases. In this thesis, we address the influence of the operating system scheduler on software performance in symmetric multiprocessing environments.Coloured Petri NetsMulticore ProcessorMultiprocessing SystemOperating System SchedulerPerformance PredictionHappe Jensauth1327785BOOK9910346923703321Predicting software performance in symmetric multi-core and multiprocessor Environments3038097UNINA