- Add DEVELOPMENT_ROADMAP.md with 7-phase plan for LLM-driven optimization
- Phase 1: Plugin system with lifecycle hooks
- Phase 2: Natural language configuration interface
- Phase 3: Dynamic code generation for custom objectives
- Phase 4: Intelligent analysis and decision support
- Phase 5: Automated HTML/PDF reporting
- Phase 6: NX MCP server integration
- Phase 7: Self-improving feature registry
- Update README.md to reflect LLM-native philosophy
- Emphasize natural language workflows
- Link to development roadmap
- Update architecture diagrams
- Add future capability examples
- Reorganize documentation structure
- Move old dev docs to docs/archive/
- Clean up root directory
- Preserve all working optimization engine code
This sets the foundation for transforming Atomizer into an AI-powered
engineering assistant that can autonomously configure optimizations,
generate custom analysis code, and provide intelligent recommendations.
This commit completes the optimization loop infrastructure by implementing
the full FEM regeneration workflow based on the user's working journal.
## Changes
### FEM Regeneration Workflow (solve_simulation.py)
- Added STEP 1: Switch to Bracket.prt and update geometry
- Uses SetActiveDisplay() to make Bracket.prt active
- Calls UpdateManager.DoUpdate() to rebuild CAD geometry with new expressions
- Added STEP 2: Switch to Bracket_fem1 and update FE model
- Uses SetActiveDisplay() to make FEM active
- Calls fEModel1.UpdateFemodel() to regenerate FEM with updated geometry
- Added STEP 3: Switch back to sim part before solving
- Close and reopen .sim file to force reload from disk
### Enhanced Journal Output (nx_solver.py)
- Display journal stdout output for debugging
- Shows all journal steps: geometry update, FEM regeneration, solve, save
- Helps verify workflow execution
### Verification Tools
- Added verify_parametric_link.py journal to check expression dependencies
- Added FEM_REGENERATION_STATUS.md documenting the complete status
## Status
### ✅ Fully Functional Components
1. Parameter updates - nx_updater.py modifies .prt expressions
2. NX solver - ~4s per solve via journal
3. Result extraction - pyNastran reads .op2 files
4. History tracking - saves to JSON/CSV
5. Optimization loop - Optuna explores parameter space
6. **FEM regeneration workflow** - Journal executes all steps successfully
### ❌ Remaining Issue: Expressions Not Linked to Geometry
The optimization returns identical stress values (197.89 MPa) for all trials
because the Bracket.prt expressions are not referenced by any geometry features.
Evidence:
- Journal verification shows FEM update steps execute successfully
- Feature dependency check shows no features reference the expressions
- All optimization infrastructure is working correctly
The code is ready - waiting for Bracket.prt to have its expressions properly
linked to the geometry features in NX.
🤖 Generated with [Claude Code](https://claude.com/claude-code)
Co-Authored-By: Claude <noreply@anthropic.com>
