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Ansys SCADE Display

Design Embedded Displays for HMIs

Ansys SCADE Display is a specialized tool for modeling human-machine interfaces. SCADE Display facilitates embedded graphics, display and HMI development, and certified code generation for safety-critical displays.

Overview

DESIGN EMBEDDED HMI Develop Embedded HMIs and Their Behavioral Logic

Ansys SCADE Display empowers users with a versatile graphics design and development environment for embedded Human Machine Interfaces (HMI).

With a native support for the OpenGL® SC (Safety Critical) and ES (Embedded System) standards, Ansys SCADE Display represents a new generation of graphics software development tools, spanning prototyping, display design, simulation, verification and validation, and certified automatic code generation supporting several safety standards in a certifiable environment.

Features

Quick Specs​

Ansys SCADE Display supports uncompromising safety, tight system integration, a high degree of responsiveness and automatic compliance with industry regulations such as ARINC 661 and DO-178C. 

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Automatic Code Generator

Certification Ready

Advanced Modeling

High-Quality Editing

Streamlined HMI Design

Integrated Font Management

Java-Based API

Requirements Traceability Support

Graphical Designs Importer

Interactive Graphic Simulation

Automatic Design Checking

SCADE Tools Integration

Capabilities

Versatile graphics design and development environment for both embedded HMIs and their behavioral logic

Ansys SCADE Display is used as an HMI display software prototyping and development tool by leading companies in the aerospace, automotive, rail transportation, nuclear, and industrial domains. It is ideally suited to support the design of critical embedded display systems (Multi-Function Displays, Head-Up Displays, Digital Instrumentation, Dashboards and Control Panels, etc.) but also to create schematics (electrical, hydraulic, or plant mimic diagrams), as well as 2-D/3-D simulator displays and trainers for drivers/pilots, crews or maintenance teams.

Capabilities

Key Features

Ansys SCADE Display is fully equipped to design, test, simulate, verify and certify embedded displays for critical applications

ModelCenter provides a graphical user interface for executing the connected ModelCenter workflow. Analysis results can be used to check requirements conformance, with unsatisfied requirements automatically highlighted. Trade studies can evaluate different design configurations and optimize the system design. New design configurations can update the systems model.

 

ModelCenter permits engineers to connect any analysis to behavioral diagrams created using NoMagic MagicDraw/Cameo or PTC Windchill Modeler. The integrated model (behavioral diagram plus analysis) results in a high-fidelity system simulation allowing engineers to accurately VERIFY system behavior and performance early in the design cycle, reducing costs and designing better products.

ModelCenter provides users with tools and methods that allow them to automate the execution of any modeling tool. Examples include user-created tools and scripts, legacy FORTRAN/C++ programs, spreadsheets, mathematical models, databases, and Computer-Aided Design (CAD) and Computer-Aided Engineering (CAE) models.

Once a few software tools are automated, ModelCenter’s drag-and-drop graphical user interface can be used to assemble these tools into a complete engineering workflow. An engineering workflow specifies the order and conditions of how and when to automate the tools. Like flowcharts, workflows can contain branches, if-then statements, loops, etc. Execute the workflow – automatically.

ModelCenter’s Link Editor allows you to specify the data transferred from one tool to the next when the workflow executes. Your workflow may contain tools that run on any number of different computers and operating systems.

Analysis and trade-study results can be used to significant trends and trade-offs. Once a repeatable engineering analysis process is created, engineers can repeatedly execute the process (using parallel computing resources if available). Each execution corresponds to a different set of inputs. Engineers can explore and quantify the performance, cost, reliability, and risk of many various design alternatives in a relatively short time.

Analysis and trade-study results can be used to significant trends and trade-offs. Once a repeatable engineering analysis process is created, engineers can repeatedly execute the process (using parallel computing resources if available). Each execution corresponds to a different set of inputs. Engineers can explore and quantify the performance, cost, reliability, and risk of many various design alternatives in a relatively short time.

Analysis and trade-study results can be used to significant trends and trade-offs. Once a repeatable engineering analysis process is created, engineers can repeatedly execute the process (using parallel computing resources if available). Each execution corresponds to a different set of inputs. Engineers can explore and quantify the performance, cost, reliability, and risk of many various design alternatives in a relatively short time.

Analysis and trade-study results can be used to significant trends and trade-offs. Once a repeatable engineering analysis process is created, engineers can repeatedly execute the process (using parallel computing resources if available). Each execution corresponds to a different set of inputs. Engineers can explore and quantify the performance, cost, reliability, and risk of many various design alternatives in a relatively short time.

Analysis and trade-study results can be used to significant trends and trade-offs. Once a repeatable engineering analysis process is created, engineers can repeatedly execute the process (using parallel computing resources if available). Each execution corresponds to a different set of inputs. Engineers can explore and quantify the performance, cost, reliability, and risk of many various design alternatives in a relatively short time.

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Join us on Saturday, June 10th, 2023, at 3 PM. The event will take place at Riverside Park, 123 River Lane, Springfield.

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Join us on Saturday, June 10th, 2023, at 3 PM. The event will take place at Riverside Park, 123 River Lane, Springfield.

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Join us on Saturday, June 10th, 2023, at 3 PM. The event will take place at Riverside Park, 123 River Lane, Springfield.

Innovative Simulations
Summit 2025

Join us on Saturday, June 10th, 2023, at 3 PM. The event will take place at Riverside Park, 123 River Lane, Springfield.

Ansys Multiphysics
Conference

Join us on Saturday, June 10th, 2023, at 3 PM. The event will take place at Riverside Park, 123 River Lane, Springfield.

Blog

Innovative Simulations
Summit 2025

Join us on Saturday, June 10th, 2023, at 3 PM. The event will take place at Riverside Park, 123 River Lane, Springfield.

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Discover how engineering simulation is expanding across the entire product lifecycle. engineering / product design analysis by modeling & simulation.

Ansys Multiphysics Conferences

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Ansys Multiphysics Conferences

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Discover how engineering simulation is expanding across the entire product lifecycle.

Smart Strategies for Large Structural Simulations

One way to gauge the progress of engineering simulation software is through the lens of size. Engineers today routinely run structural simulations with a few million degrees of freedom, and the largest commercial structural simulations have topped even 100 million degrees of freedom.

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Qantur Technologies is a pioneer engineering simulations company based in Gurgaon –India. We provides expert Computer Aided Engineering – CAE consulting services for engineering / product design analysis by modeling & simulation.

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