taraVRbuilder is a comprehensive software solution designed to streamline the planning, simulation, and visualization of intralogistics and warehouse systems. By integrating 3D layout planning, simulation, and visualization into a single platform, it enables users to efficiently design and optimize logistics processes without the need for multiple specialized tools. Its intuitive interface allows for quick creation of 3D models, making it accessible even to those without extensive CAD or programming experience. Key Features and Functionality: - 3D Layout Planning: Users can create detailed 3D layouts using an extensive library of over 500 configurable objects, facilitating the design of factories, conveyor systems, and storage facilities. - Simulation: The software offers real-time 3D simulation of material flows and processes, enabling users to analyze and optimize system performance effectively. - Visualization: taraVRbuilder provides tools to generate impressive animations and videos, enhancing presentations and aiding in stakeholder communication. - User-Friendly Interface: With drag-and-drop functionality and no requirement for CAD or programming skills, the software is designed for ease of use, allowing quick adoption by planners, consultants, and sales teams. - Integration Capabilities: It supports the import of 2D and 3D data and offers interfaces for data exchange, such as AutomationML, ensuring seamless integration with other engineering tools. Primary Value and User Solutions: taraVRbuilder addresses the challenges faced by companies in planning and visualizing complex intralogistics systems. By consolidating essential functions into one accessible tool, it reduces the need for multiple software solutions, thereby lowering costs and training requirements. The software empowers users to create accurate 3D representations of their logistics processes, facilitating better decision-making, improved communication with stakeholders, and more efficient project execution. Its ability to simulate and visualize systems in real-time allows for early detection of potential issues, leading to optimized designs and reduced implementation risks.