Amada 3i is designed for unmanned operation. The software automatically optimizes the nesting layout to prioritize "tombstone" parts (parts that will hold the sheet in place while smaller parts fall away). It tells the automation system when to change chucks and how to stack finished parts by job number.
How does it stack up against generic solutions like TruTops (Trumpf) or the new Cincinnati software? amada 3i software
| Feature | Amada 3i | Generic 3rd Party CAM | | :--- | :--- | :--- | | Bending Simulation | Real-time physics engine (Dr. ABE) | Usually 2D or basic visualization only | | Material Library | Amada’s proprietary historical database | User must manually input tonnage tables | | Machine Kinematics | Perfect; built by the machine builder | Good, but often misses specific tool changer limits | | Update Cost | Included in service plan | Expensive annual maintenance fees | | Ease of Use | Tablet-style, minimal keyboard | Traditional Windows-based, heavy mouse use | Amada 3i is designed for unmanned operation
The Verdict: For owners of Amada equipment, 3i is superior because it understands the exact limits of your specific servo-electric motor or fiber source. Generic software treats all lasers as the same. Common variants:
The software outputs code specifically for AMADA’s AMNC (AMADA Numerical Control) systems. This ensures that the G-code generated is perfectly optimized for the machine’s motion control logic, preventing jitter or inefficient movements.
3i stands for Integrated, Intelligent, Interactive.
It’s Amada’s proprietary software environment for:
Common variants: