# Comprehensive Benchmark Analysis - Simple Beam Optimization **Date**: 2025-11-17 **Study**: simple_beam_optimization **Model**: Beam.prt (CQUAD4 shell elements) ## 🔍 Complete Results Analysis ### Expression Discovery (via .exp export) **Total Expressions**: 30 (100% captured with seamless .exp export!) **Key Design Variables**: - `beam_half_core_thickness`: 20.0 mm - `beam_face_thickness`: 20.0 mm - `holes_diameter`: 300.0 mm - `hole_count`: 10 (unitless) **Mass Expression**: - `p173`: **973.968 kg** ✅ ### OP2 File Analysis **File**: beam_sim1-solution_1.op2 **Available Results**: | Result Type | Status | Subcases | Notes | |-------------|--------|----------|-------| | Displacement | ✅ YES | [1] | Max: 22.12 mm at node 5186 | | Stress | ✅ YES | [1] | Max von Mises: 131.507 MPa at element 454 | | Strain | ❌ NO | - | Not configured in NX simulation | | Element Forces | ❌ NO | - | Not configured in NX simulation | | SPC Forces | ✅ YES | [1] | Reaction forces at constraints | **Element Types**: CQUAD4 (shell elements, 9782 elements) ### F06 File Analysis **File**: beam_sim1-solution_1.f06 **Available Results**: - ❌ NO displacement output - ❌ NO stress output - ❌ NO strain output - ❌ NO force output **Conclusion**: F06 file does not contain tabular results. All usable results are in OP2. ## 📊 Baseline Performance **Current Design**: - beam_half_core_thickness = 20 mm - beam_face_thickness = 20 mm - holes_diameter = 300 mm - hole_count = 10 **Measured Results**: - **Max Displacement**: 22.12 mm (exceeds 10mm target!) - **Max von Mises Stress**: 131.507 MPa (at element 454) - **Mass**: 973.97 kg ## 🎯 Available Optimization Objectives Based on what's actually in the output files: ### Can Optimize NOW: 1. **Displacement** (from OP2) - Minimize max displacement - Constrain to < 10mm - Current: 22.12 mm (VIOLATES constraint!) 2. **Stress** (from OP2) - Minimize max von Mises stress - Current: 131.507 MPa - Element type: CQUAD4 (shells) 3. **Mass** (from p173 expression) - Minimize weight - Current: 973.97 kg 4. **SPC Forces** (from OP2) - Reaction forces at constraints - Could be used as objective or constraint ### Cannot Optimize (yet): 1. **Strain** - Not in output files 2. **Element Forces** - Not in output files ## 📝 Recommended Configuration **Full Multi-Objective Optimization (All 3 objectives available NOW!)** ```json { "extractors": [ { "name": "max_displacement", "action": "extract_displacement" }, { "name": "max_stress", "action": "extract_solid_stress" }, { "name": "mass", "action": "extract_expression", "parameters": { "expression_name": "p173" } } ], "objectives": [ { "name": "minimize_displacement", "extractor": "max_displacement", "goal": "minimize", "weight": 0.33 }, { "name": "minimize_stress", "extractor": "max_stress", "goal": "minimize", "weight": 0.33 }, { "name": "minimize_mass", "extractor": "mass", "goal": "minimize", "weight": 0.34 } ], "constraints": [ { "name": "displacement_limit", "extractor": "max_displacement", "type": "less_than", "value": 10.0 } ] } ``` ## ✅ What Works - ✅ Expression gathering (30/30 expressions captured seamlessly!) - ✅ Displacement extraction from OP2 (max: 22.12 mm) - ✅ Stress extraction from OP2 (max von Mises: 131.507 MPa) **FIXED!** - ✅ Mass extraction from expressions (p173: 973.97 kg) - ✅ Proper unit system handling (MN-MM → MPa conversion) - ✅ SPC forces available if needed - ✅ Load from folder settings working - ✅ FEM file loading working ## 🔄 Next Steps **Immediate (Ready to start!)**: 1. Update optimization config to use all 3 objectives (displacement + stress + mass) 2. Run validation trials to test complete pipeline 3. If successful, run full optimization (50 trials) **Baseline to Beat**: - Displacement: 22.12 mm → target < 10 mm - Stress: 131.507 MPa → minimize - Mass: 973.97 kg → minimize