Carnegie Mellon University
file.pdf (640.4 kB)
Download file

Computing Quantitative Characteristics of Finite-State Real-Time Systems

Download (640.4 kB)
journal contribution
posted on 1973-01-01, 00:00 authored by S Campos, Edmund M Clarke, W. Marrero, M Minea, H Hiraishi
Presents a general method for computing quantitative information about finite-state real-time systems. We have developed algorithms that compute exact bounds on the delay between two specified events and on the number of occurrences of an event in a given interval. This technique allows us to determine performance measures such as schedulability, response time, and system load. Our algorithms produce more detailed information than traditional methods. This information leads to a better understanding of system behavior, in addition to determining its correctness. The algorithms presented in this paper are efficiently implemented using binary decision diagrams and have been incorporated into the SMV symbolic model verifier. Using this method, we have verified a model of an aircraft control system with 1015 states. The results obtained demonstrate that our method can be successfully applied in the verification of real-time system designs


Publisher Statement

All Rights Reserved



Usage metrics