Designing and implementing a visual debugger for distributed programs is a significant challenge. Distributed applications are often large and frequently exhibit a high degree of complexity. Consequently, a debugger must address problems of complexity and scale in at least two ways. First, appropriate user interfaces should allow a user to manage the vast amount of information typically obtained from distributed executions. Second, the tool itself, in handling this information, should be implemented efficiently, providing a user with reasonable response times for interactive use. Our research efforts, concentrating on these problems, have led to the development of Poet, a tool for the collection and presentation of event-based traces of distributed executions. Poet makes as few assumptions as possible about characteristics that must be possessed by all target environments. Information describing each target environment is placed in configuration files, allowing a single set of Poet executables to be used for all target environments. Comparing Poet's performance to XPVM, the standard visualization tool for PVM executions, reveals that this target-system independence does not impose a performance penalty.

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Journal Computer Journal
Kunz, T, Black, J.P., Taylor, D.J., & Basten, T. (1997). Poet: Target-system independent visualizations of distributed-application executions. Computer Journal, 40(8).