Skip to Main Content

 

Webinar

DO-178C Compliant Software Development with Ansys SCADE

Globally, the aerospace industry is going through multiple challenges. Both civilian and military aircraft manufacturers have become highly cost conscious, both in terms of development and operating costs. Program development time and budget are adversely impacted. It is necessary to increase efficiency, performance and safety while meeting stringent standards for certification.

Most of the innovative capabilities, performance improvements and safety features are delivered by software applications these days. There is increasing dependency on software in modern jets to control critical functions such as flight controls, engine controls, cockpit displays (including weapon controls), load management, etc., in military aircraft, which requires software with several million lines of code. Model-based software development and certifiable auto code generation has been accepted by the industry as a key solution to manage the complexity of applications and deliver high quality software that meets the DO-178C standard up to the highest level.

In this webinar, we highlight how Ansys SCADE solutions are used for:

  • Model-based development of control and cockpit displays.
  • Certifiable auto code generation, test and verification.
  • Certification and documentation.
     

You might be interested in

Low-Frequency Electromagnetic Simulation | Ansys Webinar
Webinar

Low-Frequency Electromagnetic Simulation | Ansys Webinar

Learn how Ansys Maxwell along with Ansys RMxprt and Ansys Simplorer can be used for 2D and 3D electromagnetic simulations.

Materials Engineering | Ansys Webinar
Webinar

Materials Engineering | Ansys Webinar

Learn how Ansy Granta EduPack provides engineering students with the materials knowledge they need to be successful in today’s competitive environment.

Ansys Solutions for Robotics | Ansys
Webinar

Ansys Solutions for Robotics | Ansys

During this webinar we will encompass a range of robotic solutions that leverage simulation techniques.