Reducing Risk via a COTS-based Safety-certifiable Avionics Platform
Intel, Curtiss-Wright, and SYSGO explore risk reduction in Avionics with Commercial-Off-The-Shelf (COTS) solutions. Topics include Intel’s DAL A-certified processors, Curtiss-Wright’s SOSA-aligned Avionics systems, and SYSGO’s PikeOS RTOS. Gain insights on streamlining development, meeting DO-254 and DO-178C standards, and enhancing system reliability while cutting costs.
Navigating eVTOL Challenges with advanced Mission & Software Solutions
Advanced Air Mobility (AAM) is transforming transportation with electric Vertical Take-Off and Landing (eVTOL) vehicles, focusing on urban mobility, sustainability, and autonomy. This webcast highlights how Ansys and SYSGO address eVTOL challenges through advanced embedded software for safety and efficiency. Attendees will explore eVTOL design hurdles, innovative solutions, and a demo showcasing a simulated eVTOL transport mission.
Driving Aerospace Excellence with NG-ULTRA, PikeOS for MPU and TRACE32® Tools
Our experts from NanoXplore, SYSGO, and Lauterbach explore the power of integrated solutions for space technology. Learn how NanoXplore’s NG-ULTRA SoC FPGA, SYSGO’s PikeOS for MPU, and Lauterbach’s TRACE32®development and debugging tools work together to simplify the development of reliable, safety-certified aerospace applications.
Quantum Leap in Avionics: Enhancing Security, Airworthiness, and Safety
Discover the forefront of Avionics Security with industry pioneers wolfSSL and SYSGO. Explore how their innovative solutions and certifications are revolutionizing Security, airworthiness, and Safety in critical Aerospace systems.
Rust Embedded on PikeOS
SYSGO supports the Rust language for our RTOS PikeOS. It has been tested for x86_64 and armv8hf architectures, but may run on other 64bit-architectures as well. The implementation is basing on Embedded Rust and the Rust code is executed as plain PikeOS native processes running within isolated partitions. PikeOS processes have a low memory footprint and minimum requirement to the operating system. This in turn makes the rust code way more applicable to Safety and Security certification in comparison to rust systems that require a POSIX environment.
Immutable Linux in the World of Embedded
Immutable Linux represents a paradigm shift in system architecture, where the operating system is rendered immutable, impervious to alterations once deployed. At its core, Immutable Linux embodies the principle of immutability, wherein the operating system's state remains constant and unchangeable post-installation. In our webcast, you'll discover how Immutable Linux can revolutionize your embedded systems with enhanced security, reliability, and ease of maintenance.
Setting up an Immutable Embedded Linux (ELinOS) Instance
Experience the simplicity of deploying our Industrial-grade Embedded Linux ELinOS as Immutable OS onto your target with our powerful Eclipse-based CODEO development environment. Customize features, kernel, and file system effortlessly to build a powerful yet lightweight Linux instance in seconds. With CODEO, you can focus on developing your application. See how easy it is in our video demonstration. An immutable system minimizes the risks of malware and system tampering by preventing changes to system files. This leads to increased system security and integrity, which is invaluable in the IoT world where devices often operate remotely and without direct human intervention.
Flight Management System at Embedded World 2024
With this demo we present a Flight Management System application (Flyance developed by Thales Avionics) running on top of PikeOS. The demo can communicate with an external computer via the network to indicate the current position of the plane. A web/Qt application is running on the computer to show the plane flying.
Digital Cluster for Automotive Dashboards at Embedded World 2024
Our automotive demo showcases a pre-integrated certifiable digital cluster platform, an essential component in modern vehicle dashboards. It showcases an in-vehicle dashboard generated by DiSTI’s GLStudio as well as the CoreAVI VulkanSC graphics driver, all underpinned by the cybersecurity and safety-certifiable PikeOS (up to ASIL D), ensuring both high levels of functionality as well as compliance with industry standards. Operating on the powerful NXP i.MX8QuadMax SoC, based on the ARMv8 architecture, this setup demonstrates the cutting-edge in automotive display systems, realizing the integration of a number of key technologies in this sector.
COBOT Simulator at Embedded World 2024
Revolutionizing industrial Safety, our IIoT virtual robot demo demonstrates innovative technologies, integrating laser scanners for real-time obstacle avoidance and smart wheel systems for adaptive mobility. Displayed via a captivating on-screen virtual robot and managed through an EtherCAT-enabled Linux system on the SCB 100 platform, this demonstration highlights the seamless integration of Safety and efficiency in modern industrial IoT environments.
Deterministic Behavior for Embedded Systems with Cache Coloring
The be-all and end-all of safety is deterministic behavior. This means that one knows in advance exactly how an electronically programmable system will behave. The whole purpose behind cache coloring is to achieve better deterministic behavior of applications through the exact knowledge and definition of the physically available memory area. The idea behind this is to group certain processes (threads) into a partition and allocate them to the known and previously defined physical memory.
Speed-up Mission-Critical Heterogeneous SoC Development with PikeOS and TRACE32
Learn how SYSGO and Lauterbach are helping to simplify mission-critical embedded software development and speed-up the development and certification process with PikeOS, PikeOS for MPU and TRACE32.
Accelerating Avionics Design and Deployment with COTS Solutions
Modern commercial Avionics companies are increasingly architecting their next generation airborne platforms based upon industry Safety and technology standards, an approach which accelerates the design, development and deployment of next generation airborne platforms. Using commercial-off-the-shelf (COTS) hardware and software solution stacks from suppliers with proven Safety and Security credentials further reduces risk and accelerates time-to-deployment.