CANape Option Simulink XCP Server Visualize and parameterize Simulink models easily and efficiently Application Areas In the context of model-based software development, functions of the application are checked in an iterative process; the model is executed iteratively in Simulink from MathWorks. The Simulink XCP Server offers all function and software developers a conven-ient Overview of Advantages > Easily visualize signals and parameterize calibration parameters from Simulink models in CANape > Parameterize your Simulink model (including integrated binary components such as DLLs) from CANape and stimu-late tool for managing parameters and efficiently measuring it with real generated measured data as an input vector signals from the Simulink model without instrumentation. The CANape configuration used here can be reused in a later develop-ment > Model instrumentation is not needed for measurement or parameterization > CANape is a tool you can use over the entire ECU develop-ment phase. process. This reduces the number of tools you need, Functions Communication between CANape and the Simulink model is real-ized software maintenance costs, training requirements, etc. via the standardized ASAM protocol XCP on Ethernet. There-fore, communication via the Simulink XCP Server is also available 2/12 CANape provides mature functions for visualizing measured data from various sources – synchronously and with time precision. The “Simulink XCP Server” option lets you use CANape as an interface to parameterize and visualize Simulink models. Parameter changes are easily made in CANape and transferred to the model. At the model’s runtime, Simulink sends measured data from the model to CANape via the XCP on Ethernet protocol. Access parameters in Simulink exactly as though the application were running in an ECU. Simulink models are computed slower or faster than in real time (dependent on their complexity and processing power). After the computation cycle, you can analyze the data in CANape, adjust model parameters in CANape and then start the next com-putation for other MC tools. At the press of a button, the hierarchical struc-ture of the Simulink model is automatically reproduced in an A2L ECU description file. If you wish to simulate very large and com-plex models, standardized XCP on Ethernet communication gives you greater computing performance as well, because two separate computers are used. The data is transported to CANape at model runtime in Simulink. If the model runs significantly faster than in real time, offline vis-ualization in CANape is used. After the test run in Simulink, the data is easily analyzed in CANape. The findings of the analysis lead to new parameter changes, which CANape also makes in Simulink. cycle. Conveniently measure and calibrate model parameters. CANape provides access to signals of the Simulink model via XCP on Ethernet and the Simulink XCP Server.