As published on the 3DS blog, this article was written by DELMIA Machining expert Dominique Galmel.

DELMIA Machining implements all four pillars of AI‑assisted CAM programming—virtual twins, knowledge platforms, virtual companions, and AI learning—delivering 40–75% programming time reduction through feature recognition, automatic programming from know‑how, and feed & speed optimization.

From AI philosophy to DELMIA implementation

AI in machining means algorithms that learn from machining data to optimize toolpaths, parameters, and help make decisions—choosing better tools, feeds, speeds, and strategies based on experience encoded in data, not just rules.
 

This aligns directly with the company strategy around 3DUNIV+RSES which is a decision infrastructure.

1. Virtual twins: Model how machining should behave

2. Knowledge platforms: Turn tribal knowledge into digital capital

3. Virtual companions: Structure reasoning with AI; humans arbitrate trade‑offs

4. Generative experience: embedding AI in the process

DELMIA Machining delivers this infrastructure today across transportation, industrial equipment and aerospace & defense manufacturing. Here’s how:

1. Virtual Twin: Complete NC cell simulation

A machining virtual twin goes beyond static 3D geometry. DELMIA Machining models:

• Machine kinematics + constraints (axis limits, spindle dynamics, spindle speeds, accelerations)

• Cutting tools + cutting conditions (tool geometry, insert grades feed rates, depths of cut, cutting forces)

• Material behavior (workpiece properties, heat generation, surface quality)

• Real machining data (vibration, power consumption, cycle deviations)

Key capability: Program and simulate all NC cells end‑to‑end.

• Improve machine tending through full work cell simulation

• Connect to virtual controllers (NC controller software in the loop for realistic behavior)

• Validate before cutting: Collision detection, reachability, cycle time estimation

This creates the “should” behavior foundation that AI builds upon.

2. Knowledge & Know‑How Platform: NC Knowledge Manager

DELMIA’s NC Knowledge Manager captures and operationalizes machining expertise:

What it captures:

• Company standards and rules

• Tooling and parameter libraries

• Cutting strategies and best practices

What it delivers:

• Assure standards across teams and plants

• Avoid programming mistakes

• Reduce training time for new programmers

• Minimize knowledge loss when experts retire

This becomes the digital capital that powers AI‑assisted decisions.

3. Generative Tool Path: AI‑Driven Automation

DELMIA Machining’s Generative Tool Path implements core AI‑assisted capabilities available today:

Feature Recognition

Retrieve proven programming from similar parts via:

• Automatic feature detection (pockets, contours, holes, bosses)

• Part family matching

• Constraint‑preserving transfer across machining cells

Result: Programming time slashed for repeat/variant parts without starting from scratch.

Read the full article and "See it in Action":