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Low-latency systems where reaction time is primary success factor and design consideration, are serious challenge to existing integration and system level testing techniques. Modern cyber physical systems have grown to the scale of global geographic distribution and latency requirements are measured in nanoseconds. While existing tools support prescribed input profiles they seldom provide enough reactivity to run the tests with simultaneous and interdependent input profiles at remote front ends. Additional complexities emerge due to severe timing constraints the tests have to meet when test navigation decision time ranges near the message propagation time. Sufficient timing conditions for remote online testing have been proposed in remote Δ-testing method recently. We extend the Δ-testing by deploying testers on fully distributed test architecture. This approach reduces the test reaction time by almost a factor of two. We validate the method on a distributed oil pumping SCADA system case study.
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