• Title/Summary/Keyword: Java Multi-thread Program

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The Design and Implementation of Automata-based Testing Environments for Multi-thread Java Programs (Java 다중 스레드 프로그램을 위한 오토마타 기반 테스팅 환경의 설계 및 구현)

  • 서희석;정인상;김병만;권용래
    • Journal of KIISE:Software and Applications
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    • v.29 no.12
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    • pp.883-894
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    • 2002
  • Classical deterministic testing controls the execution of concurrent programs based on the equivalence between specifications and programs. However, it is not directly applicable to a situation in which synchronization sequences, being valid but infeasible, are taken into account. To resolve this problem, we had proposed automata-based deterministic testing in our previous works, where a concurrent program is executed according to one of the sequences accepted by the automaton recognizing all sequences semantically equivalent to a given sequence. In this paper, we present the automata-based testing environment for Java multi-thread programs, and we design and implement "Deterministic Executor" in the testing environment. "Deterministic Executor" transforms a Java multi-thread program by applying automata-based deterministic testing, the transformed program presents testing results. "Deterministic Executor" uses "Automata Generator", which generates an equivalent automaton of a test sequence, and "Replay Controller", which controls the execution of programs according to the sequence accepted by the automaton. By illustrating automata-based testing procedures with a gas station example, we show how the proposed approach does works in a Java multi-threaded program.roach does works in a Java multi-threaded program.

Transform Nested Loops into MultiThread in Java Programming Language for Parallel Processing (자바 프로그래밍에서 병렬처리를 위한 중첩 루프 구조의 다중스레드 변환)

  • Hwang, Deuk-Young;Choi, Young-Keun
    • The Transactions of the Korea Information Processing Society
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    • v.5 no.8
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    • pp.1997-2012
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    • 1998
  • It is necessary to find out the parallelism in tlle sequential Java program to execute it on the parallel machine. The loop is a fundamental source to exploit parallelism as it process a large portion of total execution time in sequential Java program on the parallel machine. However, a complete parallel execution can hardly be achieved due to data dependence. This paper proposes the method of exploiting the implicit parallelism by structuring a dependence graph through the analysis of data dependence in the existing Java programming language having a nested loop structure. The parallel code generation method through the restructuring compiler and also the translation method of Java source program into multithread statement. which is supported by the Java programming language itself, are proposed here. The perforance evaluatlun of the program translaed into the thread statement is conducted using the trip cunt of loop and the trip Count of luop and the thread count as parameters The resttucturing compiler provides efficient way of exploiting parallelism by reducing manual overhead conveliing sequential Java program into parallel code. The execution time for the Java program as a result can be reduced un the parallel machine.

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Java Memory Model Simulation using SMT Solver (SMT 해결기를 이용한 자바 메모리 모델 시뮬레이션)

  • Lee, Tae-Hoon;Kwon, Gi-Hwon
    • Journal of KIISE:Computing Practices and Letters
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    • v.15 no.1
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    • pp.62-66
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    • 2009
  • Recently developed compilers perform some optimizations in order to speed up the execution time of source program. These optimizations require the transformation of the sequence of program statements. This transformation does not give any problems in a single-threaded program. However, the transformation gives some significant errors in a multi-threaded program. State-of-the-art model checkers such as Java-Pathfinder do not consider the transformation resulted in the optimization step in a compiler since they just consider a single memory model. In this paper, we describe a new technique which is based on SMT solver. The Java Memory Model Simulator based on SMT Solver can compute all possible output of given multi-thread program within one second which, in contrast, Traditional Java Memory Model Simulator takes one minute.