See: Description
Code can be written or generated in specific manufacturer languages (e.g., ABB RAPID or KUKA KRL).
: Users can write and test robot programs in manufacturer-specific languages (like Mitsubishi's MELFA BASIC) without needing a physical robot.
You can simulate motion sequences to identify potential collisions and optimize cycle times before deploying programs to physical hardware.
: Supports multiple industrial robot languages, including: Industrial Robot Language (IRL) Mitsubishi MELFA BASIC V Kuka Robot Language (KRL) ABB Rapid ciros robotics
The future of Ciros Robotics and the broader robotics industry looks bright, with significant potential for growth and innovation. As the company continues to push the boundaries of what is possible with robotics, we can expect to see:
The Problem: The simulation runs perfectly, but the real robot fails. Why? Often, it is due to real-world factors ignored in the simulation (e.g., cable drag, part tolerance variations). The Solution: Enable "Physics Mode" in CIROS. Model the cable sag. Use statistical tolerance analysis on your CAD models.
In the sprawling, noisy cathedrals of modern manufacturing, we often imagine a dystopian landscape of brute force: massive hydraulic presses, sparks flying from welding arms, and robots that seem more like caged beasts than collaborators. Yet, nestled within this ecosystem of raw power is a quiet revolution. At the forefront of this shift is . While not a household name like Fanuc or KUKA, Ciros represents a critical evolution in automation: the move from brute force to intimate precision. Code can be written or generated in specific
CIROS is built on an concept. It includes a Robotics Assistant , an interactive multimedia guide that explains technical terms through graphics and animations, helping students advance from basic applications to complex industrial systems. Editions and Tools
: By finding and fixing programming errors in the simulation phase, companies can reduce the time required to set up a new production line by up to 50%.
CIROS Robotics stands as a cornerstone technology for modern automation literacy and industrial efficiency. By seamlessly blending precise 3D visualization, realistic physics, and open connectivity to real-world control systems, it empowers the next generation of engineers while optimizing the production facilities of today. Whether you are looking to scale up an automation curriculum or streamline a factory floor deployment, CIROS provides the virtual playground necessary to succeed in a digital-first industrial landscape. Often, it is due to real-world factors ignored
to streamline our manufacturing workflows. Being able to simulate mechanics, sensors, and complex robot trajectories before they even touch the factory floor is a game-changer for reducing downtime. Key highlights: Library Power:
is a high-performance 3D simulation system developed by Festo for factory automation and robotics. It serves as a comprehensive "digital twin" environment where users can plan, simulate, and program complex industrial robot work cells without the risk of physical collisions or hardware damage. Core Features of CIROS Studio
Don't simulate your entire factory on day one. Pick one problematic cell—perhaps the one that crashes most often or the bottleneck station. Simulate it, optimize it, then deploy the code to the real robot. Measure the improvement (usually 15-30% cycle time reduction).