CIP-Tool


CIP-Tool is a software tool for the modelling and implementation of event-driven applications. It is especially relevant for the development of software components of embedded systems.

History

The underlying mathematical formalisms of CIP were first proposed by the physicist, Prof. Dr. Hugo Fierz. The tool was subsequently developed at the Swiss Federal Institute of Technology in a series of research projects during the 1990s. Development and distribution has since been transferred to a commercially operating spin-off company, CIP-Tool, based in Solothurn, Switzerland.
CIP Tool has been over taken by Actifsource GmbH in summer 2011. Actifsource has integrated the CIP Tool into the Actifsource workbench.

Methodology

The CIP-model is basically a finite state machine, or more precisely, an extended finite state machine.
In CIP, a desired system behaviour is broken down into distinct processes, each of which is a set of states interconnected by transitions. One state in every process is tagged as active state. This active status can be transferred to another state through the execution of a transition. Such transitions are triggered by events or in-pulses. Transitions can in turn send one or several out-pulses or actions.
The CIP-model is sometimes confused with petri nets. This may be because to beginners, the notation looks similar. The similarities should not be over-stressed, however. For example, CIP allows only one active state per process and processes are neither started nor terminated during run-time.

Code generation

CIP-Tool permits models to be automatically converted to executable code. This greatly facilitates testing, documentation and final implementation. Currently the languages C/C++ and Java are supported as output formats.