This release of the SysML Plugin features bug fixes, along with some new features. Download it today at nomagic.com or contact your sales representative, and don't forget to give us your feedback on Twitter or Facebook. Also, please check the latest documentationand additional 44899013.
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Flow Management
Starting with this version, you can create Item Flows in two modes:
Direct
Between Part Types
The Direct creation mode allows you to create the Item Flow between ports or parts in the SysML Internal Block Diagrams.
The Between Part Types creation mode allows you to create the Item Flow between Part Property types. In this mode, you can quickly realize and synchronize Flows on Activity Edges, Connectors, and Messages.
The new Item Flow Manager allows you to analyze and manage the Item Flow data. Using the Item Flow Manager, you will be able to:
Edit existing Item Flows by adding new Conveyed Items.
Realize or hide existing Item Flows on selected relationship.
The new commands are implemented in the Containment tree, which allows:
Choose a structured classifier and Select In Structure Tree.
Open in New Structure Tree.
Key issues fixed
The issue making it impossible to launch the Networking Diagram due to the missing diagram descriptor has been fixed.
The issue concerning the inability to invoke the Parametric Equation Wizard as a result of the frozen modeling tool has been fixed.
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We are proud to announce a technology preview release of the new Simulink and Modelica Transformation plugin.
This plugin implements the brand-new OMG SysPhS (SysML Extension for Physical Interaction and Signal Flow Simulation) standard that defines the SysML language concepts mapping into the most popular simulation environments - Simulink, Stateflow, Simscape, and Modelica. It also adds new “Export to Simulink” and “Export to Modelica” tools into the Block shortcut menu and supports both “black-box” block definition and/or fully executable implementation one-way export (including differential equations for continuous behavior and state machines for discrete behavior).