Operational Complexity across Fragmented Systems

Capturing the semantics of large scale distributed systems delivering continuously streaming, complex data flows subject to stochastic influences is a significant engineering challenge.

“Pockets of visibility” may be secured by deploying window based analytics across sub-sets of temporally bounded activities but this approach is only able to produce
localised visibility of aspects of the system’s behaviour, typically rendered as a static representation.

Myrror Corporation’s patent protected HELIXsystem Process Assembler^TM renders a continuously updating global semantic representation of any information system. This is achieved by coupling data state change to the temporal context in which state change took place. This delivers complete observability over the system’s semantics and the causal characteristics that determines the system’s behaviour. The resulting output is a Digital Twin of the executing environment. This semantic representation rendered as an ontologically correct graphical formalism of the executing environment. This representation is sufficiently robust to be used as synthetic test environment for simulating proposed semantic change prior to the deployment of code.