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Statements

Subject Item
dbr:Supercomputer
dbo:wikiPageWikiLink
dbr:Testing_high-performance_computing_applications
Subject Item
dbr:Testing_high-performance_computing_applications
rdfs:label
Testing high-performance computing applications
rdfs:comment
High performance computing applications run on massively parallel supercomputers consist of concurrent programs designed using multi-threaded, multi-process models. The applications may consist of various constructs (threads, local processes, distributed processes, etc.) with varying degree of parallelism. Although high performance concurrent programs use similar design patterns, models and principles as that of sequential programs, unlike sequential programs, they typically demonstrate non-deterministic behavior. The probability of bugs increases with the number of interactions between the various parallel constructs. Race conditions, data races, deadlocks, missed signals and live lock are common error types.
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n5:Hpc_graph.png
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dbc:Software_testing
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33296085
dbo:wikiPageRevisionID
1083809002
dbo:wikiPageWikiLink
dbr:Static_slicing dbr:Multi-threaded dbr:Functional_Testing dbr:Deadlocks dbr:Thread_(computing) dbr:Concurrent_programming dbr:Parallel_Parametric_Test dbr:Deadlock dbr:Probe_effect dbr:Page_fault dbr:Distributed_memory dbr:Massively_parallel dbr:Scheduling_(computing) dbr:Multiprocessing dbr:Static_program_analysis n13:Hpc_graph.png dbr:Interprocess_communication dbr:Synchronous_rendezvous dbr:Message_passing dbr:Parallelizing_compiler dbr:Synchronization_(computer_science) dbr:Data_Flow_Analysis dbr:High_performance_computing dbr:Heisenbugs dbc:Software_testing dbr:Escape_analysis dbr:Cyclomatic_complexity dbr:Control_flow_analysis dbr:Race_conditions dbr:Black-box_testing dbr:Grey_box_testing dbr:Supercomputers dbr:Implicitly_parallel dbr:Software_verification dbr:Debugger dbr:White-box_testing
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dbt:Reflist dbt:Clarify
dbo:thumbnail
n5:Hpc_graph.png?width=300
dbp:date
September 2015
dbp:reason
what is a PIT? each time what?
dbo:abstract
High performance computing applications run on massively parallel supercomputers consist of concurrent programs designed using multi-threaded, multi-process models. The applications may consist of various constructs (threads, local processes, distributed processes, etc.) with varying degree of parallelism. Although high performance concurrent programs use similar design patterns, models and principles as that of sequential programs, unlike sequential programs, they typically demonstrate non-deterministic behavior. The probability of bugs increases with the number of interactions between the various parallel constructs. Race conditions, data races, deadlocks, missed signals and live lock are common error types.
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13315
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