8 research outputs found
SzámĂtĂłhálĂł alkalmazások teljesĂtmĂ©nyanalĂzise Ă©s optimalizáciĂłja = Performance analysis and optimisation of grid applications
SzámĂtĂłhálĂłn (griden) futĂł alkalmazások, elsĹ‘sorban workflow-k hatĂ©kony vĂ©grehajtására kerestĂĽnk Ăşjszerű megoldásokat a grid teljesĂtmĂ©nyanalĂzis Ă©s optimalizáciĂł terĂĽletĂ©n. ElkĂ©szĂtettĂĽk a Mercury monitort a grid teljesĂtmĂ©nyanalĂzis követelmĂ©nyeit figyelembe vĂ©ve. A párhuzamos programok monitorozására alkalmas GRM monitort integráltuk a reláciĂłs adatmodell alapĂş R-GMA grid informáciĂłs rendszerrel, illetve a Mercury monitorral. ElkĂ©szĂĽlt a Pulse, Ă©s a Prove vizualizáciĂłs eszköz grid teljesĂtmĂ©nyanalĂzist támogatĂł verziĂłja. ElkĂ©szĂtettĂĽnk egy state-of-the-art felmĂ©rĂ©st grid teljesĂtmĂ©nyanalĂzis eszközökrĹ‘l. Kidolgoztuk a P-GRADE rendszer workflow absztrakciĂłs rĂ©tegĂ©t, melyhez kapcsolĂłdĂłan elkĂ©szĂĽlt a P-GRADE portál. Ennek segĂtsĂ©gĂ©vel a felhasználĂłk egy web böngĂ©szĹ‘n keresztĂĽl szerkeszthetnek Ă©s hajthatnak vĂ©gre workflow alkalmazásokat számĂtĂłhálĂłn. A portál kĂĽlönbözĹ‘ számĂtĂłhálĂł implementáciĂłkat támogat. LehetĹ‘sĂ©get biztosĂt informáciĂł gyűjtĂ©sĂ©re teljesĂtmĂ©nyanalĂzis cĂ©ljábĂłl. Megvizsgáltuk a portál erĹ‘forrás brĂłkerekkel valĂł egyĂĽttműködĂ©sĂ©t, felkĂ©szĂtettĂĽk a portált a sikertelen futások javĂtására. A vĂ©grehajtás optimalizálása megkövetelheti az alkalmazás egyes rĂ©szeinek áthelyezĂ©sĂ©t más erĹ‘forrásokra. Ennek támogatására továbbfejlesztettĂĽk a P-GRADE alkalmazások naplĂłzhatĂłságát, Ă©s illesztettĂĽk a Condor feladatĂĽtemezĹ‘jĂ©hez. Sikeresen kapcsoltunk a rendszerhez egy terhelĂ©s elosztĂł modult, mely kĂ©pes a terheltsĂ©gĂ©tĹ‘l fĂĽggĹ‘en áthelyezni a folyamatokat. | We investigated novel approaches for performance analysis and optimization for efficient execution of grid applications, especially workflows. We took into consideration the special requirements of grid performance analysis when elaborated Mercury, a grid monitoring infrastructure. GRM, a performance monitor for parallel applications, has been integrated with R-GMA, a relational grid information system and Mercury as well. We developed Pulse and Prove visualisation tools for supporting grid performance analysis. We wrote a comprehensive state-of-the art survey of grid performance tools. We designed a novel abstraction layer of P-GRADE supporting workflows, and a grid portal. Users can draft and execute workflow applications in the grid via a web browser using the portal. The portal supports multiple grid implementations and provides monitoring capabilities for performance analysis. We tested the integration of the portal with grid resource brokers and also augmented it with some degree of fault-tolerance. Optimization may require the migration of parts of the application to different resources and thus, it requires support for checkpointing. We enhanced the checkpointing facilities of P-GRADE and coupled it to Condor job scheduler. We also extended the system with a load balancer module that is able to migrate processes as part of the optimization
Application Monitoring in the Grid with GRM and PROVE
Abstract. GRM and PROVE were originally designed and implemented as part of the P-GRADE graphical parallel program development environment running on clusters. In the framework of the biggest European Grid project, the DataGrid project we investigated the possibility of transforming GRM and PROVE to a Grid monitoring infrastructure. This paper presents the results of this work showing how to separate GRM and PROVE from the P-GRADE system and to turn them into standalone Grid monitoring tools