Bernhard Plattner. Real-time execution monitoring. IEEE Transactions on Software Engineering, SE-10(6):756-- 764, November 1984.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....even after deployment [18] For more elaborate discussions on this see [4, 14] The fact that the overhead incurred by the probes should be accounted for in the schedulability analysis also suggests that the overhead should be deterministic and limited. A recording consists of two parts [10]: The data flow describes variations in local and global variables, as well as inputs or output used by the task set, while The control flow describes alterations in the execution, e.g. scheduled preemptions, blocking system calls, or interrupts. Together with the system source code, this ....

B. Plattner. Real-time execution monitoring. IEEE Transactions on Software Engineering, SE-10(6):756 -- 764, November 1984.

....algorithms alter the frequencies of local clocks in a distributed system; this gives rise to a clock synchronization jitter. Di ering communication delays in distributed systems result in a communication latency jitter. 1. 3 Data and Control Flow An execution consists of two parts [3]: The data ow describes alterations in data structures that are under control of the taskset (e.g. local and global variables, input and output) while the control ow describes run time events during the execution (e.g. calls to functions and system calls, occurred interrupts and preemptions) ....

Bernhard Plattner. Real-Time Execution Monitoring. IEEE Transactions on Software Engineering, SE-10(6):756 - 764, November 1984.

....run time performance. For the first class, optimistic approaches, the opposite is true. 28 4.3.2 Control and Data Flow Platter is to our knowledge the first to di#erentiate between system entities when discussing monitoring of computer systems. In the article Real Time Execution Monitoring [40] from 1984, he defined a process state to consist of two parts: the data and the control substrate. The data substrate represents the data structures currently under control of the process, while the control substrate represents the current point of execution. Thane [56, s4.2;p37] classifies ....

Bernhard Plattner. Real-Time Execution Monitoring. IEEE Transactions on Software Engineering, SE-10(6):756 -- 764, November 1984.

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Bernhard Plattner. Real-time execution monitoring. IEEE Transactions on Software Engineering, SE-10(6):756-- 764, November 1984.

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