Antoine/CAD-Documenter
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
3e40e5b7a02ab531688121ea15387eb730824790
CAD-Documenter/docs/ATOMIZER_INTEGRATION.md
Mario Lavoie ca51b10c45 Add comprehensive documentation and examples 
- docs/USAGE.md: Full usage guide with CLI options, Python API, troubleshooting
- docs/ATOMIZER_INTEGRATION.md: Guide for FEA/Atomizer integration
- examples/sample_config.toml: Annotated configuration example
- README.md: Expanded with installation, usage, architecture
2026-01-27 20:18:28 +00:00

183 lines
5.2 KiB
Markdown
Raw Blame History

# Atomizer Integration Guide
CAD-Documenter generates FEA optimization hints that integrate with Atomizer, the Atomaste optimization framework.
## Overview
When you explain your CAD model in a video walkthrough, CAD-Documenter extracts:
1. **Optimization objectives** - What you want to minimize/maximize
2. **Design constraints** - Limits and requirements
3. **Design parameters** - Variables that could be optimized
4. **Critical regions** - Areas requiring careful FEA attention
## Verbal Cues → Atomizer Hints
### Objectives
| What You Say | Generated Objective |
|--------------|---------------------|
| "minimize the weight" | `{"name": "mass", "direction": "minimize"}` |
| "maximize stiffness" | `{"name": "stiffness", "direction": "maximize"}` |
| "reduce stress" | `{"name": "stress", "direction": "minimize"}` |
| "keep the frequency high" | `{"name": "frequency", "direction": "maximize"}` |
| "minimize deflection" | `{"name": "displacement", "direction": "minimize"}` |
### Constraints
| What You Say | Generated Constraint |
|--------------|---------------------|
| "must fit in 200mm" | `{"type": "envelope", "value": "200mm"}` |
| "under 500 grams" | `{"type": "limit", "value": "500g"}` |
| "frequency above 100 Hz" | `{"type": "minimum", "value": "100 Hz"}` |
| "stress cannot exceed 150 MPa" | `{"type": "maximum", "value": "150 MPa"}` |
### Parameters
Mentioning these terms adds them to potential design parameters:
- thickness, wall thickness
- radius, fillet radius
- diameter, hole size
- length, width, height
- angle, spacing, count
- rib dimensions
### Critical Regions
| What You Mention | FEA Concern |
|-----------------|-------------|
| "this fillet is important" | Stress concentration |
| "corner stress" | Stress concentration |
| "bearing load here" | Contact stress |
| "weld joint" | Fatigue concern |
| "interface between parts" | Contact analysis |
## Output Format
### atomizer_hints.json
```json
{
"assembly_name": "Motor Bracket Assembly",
"generated": "2026-01-27T20:15:00",
"model_understanding": {
"components": [
{
"name": "Main Bracket",
"material": "Aluminum 6061-T6",
"function": "Motor mounting",
"features": ["M6 holes", "fillet radii"]
}
],
"materials_mentioned": ["Aluminum 6061-T6", "Steel"]
},
"optimization_hints": {
"objectives": [
{"name": "mass", "direction": "minimize", "source": "Mentioned 'lightweight' in transcript"},
{"name": "stiffness", "direction": "maximize", "source": "Mentioned 'stiff' in transcript"}
],
"constraints": [
{"type": "envelope", "value": "200mm", "raw_match": "must fit in (\\d+)"},
{"type": "minimum", "value": "100 Hz", "raw_match": "greater than (\\d+)"}
],
"parameters": ["thickness", "fillet_radius", "rib_count"]
},
"fea_hints": {
"critical_regions": [
{"feature": "fillet", "concern": "stress_concentration"},
{"feature": "interface", "concern": "contact_analysis"}
],
"study_suggestions": [
"Modal analysis recommended - frequency/vibration mentioned",
"Topology optimization could reduce mass while maintaining performance"
]
},
"transcript_summary": "This assembly provides structural support for a NEMA 23 motor..."
}
```
## Using with Atomizer
### 1. Generate Hints
```bash
cad-doc walkthrough.mp4 --atomizer-hints
```
### 2. Load in Atomizer
```python
# In Atomizer study setup
from atomizer import Study
import json
with open("walkthrough_docs/atomizer_hints.json") as f:
hints = json.load(f)
study = Study.from_hints(hints)
# Hints pre-populate:
# - Objective functions
# - Constraints
# - Suggested parameters
# - Critical regions for mesh refinement
```
### 3. Review and Refine
The hints are suggestions, not final configurations:
- Verify objectives match your actual goals
- Add specific constraint values
- Map parameters to CAD model variables
- Adjust mesh refinement regions
## Best Practices
### During Recording
1. **State objectives clearly**
- "The goal is to minimize weight while maintaining stiffness"
- "We need to keep the first natural frequency above 100 Hz"
2. **Quantify constraints**
- "Maximum envelope is 200mm by 150mm by 100mm"
- "Weight budget is 500 grams"
- "Stress must stay below 150 MPa"
3. **Point out critical features**
- "This fillet is critical for stress concentration"
- "The bearing surface here sees high contact stress"
4. **Mention what could be optimized**
- "The wall thickness could potentially be reduced"
- "These rib dimensions are candidates for optimization"
### After Generation
1. Review `atomizer_hints.json` for accuracy
2. Add missing numerical values
3. Map parameters to your CAD model
4. Use critical regions to guide mesh refinement
5. Run initial FEA to validate hints
## Example Workflow
1. **Record walkthrough** explaining bracket design
2. **Run CAD-Documenter** with `--atomizer-hints`
3. **Review hints** in generated JSON
4. **Import into Atomizer** for optimization study
5. **Iterate** based on FEA results
## Limitations
- Hints are extracted from verbal/visual cues only
- Numerical values may need refinement
- Complex multi-objective problems need manual setup
- Material properties should be verified against database
Reference in New Issue View Git Blame Copy Permalink