The platform is designed to model, simulate, and visualize complex robotic work cells and entire production lines in a risk-free virtual environment. Its architecture is divided into specialized modules: CIROS Studio
: Use Gantt diagrams to calculate critical paths and total cycle times for production processes.
for training in industrial robotics. It allows users to design, program, and simulate robotic work cells in a risk-free virtual environment before deploying them to real hardware. 1. Getting Started: Installation & Interface Accessing the Software: CIROS is typically part of the CIROS Automation Suite
, engineers can simulate additional axes and complex paths to ensure the robot can reach every necessary point without colliding with its environment. 2. The Programming "Brain" ciros robotics
New versions of CIROS are integrating machine learning algorithms that don't just simulate a path but invent new, more efficient paths that no human programmer would conceive.
: Develop and validate robot programs virtually before downloading them to physical controllers.
| Year | Scale (sqm) | # of Exhibitors | # of Visitors | Notable Themes & Highlights | | :--- | :--- | :--- | :--- | :--- | | | 6,500 | 82 | 20,200 | Inaugural event | | 2013 | 12,000 | 120+ | 27,000 | Largest robot exhibition in China at the time | | 2014 | 16,000 | 216 | 38,572 | Rapid growth of local Chinese brands; featured 18 countries | | 2015 | 26,000 | 289 | 50,783 | First year at the National Exhibition and Convention Center (NECC) | | 2016 | 38,000 | 320+ | 56,775 | "Wisdom, Quality, Efficiency" theme; 40% annual growth | | 2017 | 56,000 | 368 | 80,000 | Expanded to include the SIAS automation show | | 2024 | 16,000 | 216 | Not specified | Return to NECC with international participation | | Future Plans | Expanding | Continuing | Continuing | Focus on "professional exhibition + high-level conference" model | The platform is designed to model, simulate, and
The narrative of CIROS Robotics follows the lifecycle of a modern industrial project, evolving through three distinct phases: 1. The "Digital Twin" Blueprint
Ciros is a highly sophisticated 3D simulation software platform designed specifically for factory automation, robotics, and mechatronics. Created by Dortmund University and commercialized heavily through partnerships with automation giants like Festo Didactic, Ciros provides a risk-free, digitally twin-mapped environment where users can design, program, and test complex industrial systems.
Create kinematic 3D simulations of entire manufacturing plants in real-time, optimizing cycle times before a single machine is moved on-site. Whether you are a student exploring automation and robotics It allows users to design, program, and simulate
Use the "Teach-In" panel to manually move the robot to specific coordinates and save them as "points." Write the control logic (e.g., ) to guide the robot through the saved points. Simulation:
CIROS completely revolutionizes this pipeline by enabling . It integrates diverse domains into a singular, high-performance interface:
is the industry-standard 3D simulation software ecosystem developed by Festo Didactic and VEROSIM Solutions, built to model, program, and virtually commission automated manufacturing systems. By creating a precise "Digital Twin" of physical hardware, CIROS allows engineers, researchers, and students to safely design robotic work cells, test Programmable Logic Controller (PLC) programs, and optimize complete factories without the risk of costly machinery collisions or material damage. Core Product Architecture
Any or Festo hardware modules you want highlighted
Optimizing high-speed pick-and-place robotics and ensuring seamless synchronization between delta robots and moving conveyor belts.