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Atomizer/optimization_engine/solve_simulation_simple.py
Anto01 3a0ffb572c feat: Add centralized configuration system and Phase 3.2 enhancements 
Major Features Added:

1. Centralized Configuration System (config.py)
   - Single source of truth for all NX and environment paths
   - Change NX version in ONE place: NX_VERSION = "2412"
   - Change Python environment in ONE place: PYTHON_ENV_NAME = "atomizer"
   - Automatic path derivation and validation
   - Helper functions: get_nx_journal_command()
   - Future-proof: Easy to upgrade when NX 2506+ released

2. NX Path Corrections (Critical Fix)
   - Fixed all incorrect Simcenter3D_2412 references to NX2412
   - Updated nx_updater.py to use config.NX_RUN_JOURNAL
   - Updated dashboard/api/app.py to use config.NX_RUN_JOURNAL
   - Corrected material library path to NX2412/UGII/materials
   - All files now use correct NX2412 installation

3. NX Expression Import System
   - Dual-method expression gathering (.exp export + binary parsing)
   - Robust handling of all NX expression types
   - Support for formulas, units, and dependencies
   - Documented in docs/NX_EXPRESSION_IMPORT_SYSTEM.md

4. Study Management & Analysis Tools
   - StudyCreator: Unified interface for study/substudy creation
   - BenchmarkingSubstudy: Automated baseline analysis
   - ComprehensiveResultsAnalyzer: Multi-result extraction from .op2
   - Expression extractor generator (LLM-powered)

5. 50-Trial Beam Optimization Complete
   - Full optimization results documented
   - Best design: 23.1% improvement over baseline
   - Comprehensive analysis with plots and insights
   - Results in studies/simple_beam_optimization/

Documentation Updates:
- docs/SYSTEM_CONFIGURATION.md - System paths and validation
- docs/QUICK_CONFIG_REFERENCE.md - Quick config change guide
- docs/NX_EXPRESSION_IMPORT_SYSTEM.md - Expression import details
- docs/OPTIMIZATION_WORKFLOW.md - Complete workflow guide
- Updated README.md with NX2412 paths

Files Modified:
- config.py (NEW) - Central configuration system
- optimization_engine/nx_updater.py - Now uses config
- dashboard/api/app.py - Now uses config
- optimization_engine/study_creator.py - Enhanced features
- optimization_engine/benchmarking_substudy.py - New analyzer
- optimization_engine/comprehensive_results_analyzer.py - Multi-result extraction
- optimization_engine/result_extractors/generated/extract_expression.py - Generated extractor

Cleanup:
- Removed all temporary test files
- Removed migration scripts (no longer needed)
- Clean production-ready codebase

Strategic Impact:
- Configuration maintenance time: reduced from hours to seconds
- Path consistency: 100% enforced across codebase
- Future NX upgrades: Edit ONE variable in config.py
- Foundation for Phase 3.2 Integration completion

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-17 14:36:00 -05:00

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"""
Simple NX Journal Script to Just Solve Simulation
This is a simplified version that just opens and solves the simulation
without trying to update linked parts (for simple models).
Usage: run_journal.exe solve_simulation_simple.py <sim_file_path>
"""
import sys
import NXOpen
import NXOpen.CAE
def main(args):
"""
Open and solve a simulation file without updates.
Args:
args: Command line arguments
args[0]: .sim file path
"""
if len(args) < 1:
print("ERROR: No .sim file path provided")
return False
sim_file_path = args[0]
print(f"[JOURNAL] Opening simulation: {sim_file_path}")
try:
theSession = NXOpen.Session.GetSession()
# Set load options to load linked parts from directory
print("[JOURNAL] Setting load options for linked parts...")
import os
working_dir = os.path.dirname(os.path.abspath(sim_file_path))
# Complete load options setup
theSession.Parts.LoadOptions.LoadLatest = False
theSession.Parts.LoadOptions.ComponentLoadMethod = NXOpen.LoadOptions.LoadMethod.FromDirectory
searchDirectories = [working_dir]
searchSubDirs = [True]
theSession.Parts.LoadOptions.SetSearchDirectories(searchDirectories, searchSubDirs)
theSession.Parts.LoadOptions.ComponentsToLoad = NXOpen.LoadOptions.LoadComponents.All
theSession.Parts.LoadOptions.PartLoadOption = NXOpen.LoadOptions.LoadOption.FullyLoad
theSession.Parts.LoadOptions.SetInterpartData(True, NXOpen.LoadOptions.Parent.All)
theSession.Parts.LoadOptions.AllowSubstitution = False
theSession.Parts.LoadOptions.GenerateMissingPartFamilyMembers = True
theSession.Parts.LoadOptions.AbortOnFailure = False
referenceSets = ["As Saved", "Use Simplified", "Use Model", "Entire Part", "Empty"]
theSession.Parts.LoadOptions.SetDefaultReferenceSets(referenceSets)
theSession.Parts.LoadOptions.ReferenceSetOverride = False
print(f"[JOURNAL] Load directory set to: {working_dir}")
# Close any currently open parts
print("[JOURNAL] Closing any open parts...")
try:
partCloseResponses1 = [NXOpen.BasePart.CloseWholeTree]
theSession.Parts.CloseAll(partCloseResponses1)
except:
pass
# Open the .sim file
print(f"[JOURNAL] Opening simulation...")
basePart1, partLoadStatus1 = theSession.Parts.OpenActiveDisplay(
sim_file_path,
NXOpen.DisplayPartOption.AllowAdditional
)
workSimPart = theSession.Parts.BaseWork
partLoadStatus1.Dispose()
# Switch to simulation application
theSession.ApplicationSwitchImmediate("UG_APP_SFEM")
simPart1 = workSimPart
theSession.Post.UpdateUserGroupsFromSimPart(simPart1)
# Solve the simulation directly
print("[JOURNAL] Starting solve...")
markId3 = theSession.SetUndoMark(NXOpen.Session.MarkVisibility.Visible, "Start")
theSession.SetUndoMarkName(markId3, "Solve Dialog")
markId5 = theSession.SetUndoMark(NXOpen.Session.MarkVisibility.Invisible, "Solve")
theCAESimSolveManager = NXOpen.CAE.SimSolveManager.GetSimSolveManager(theSession)
# Get the first solution from the simulation
simSimulation1 = workSimPart.FindObject("Simulation")
simSolution1 = simSimulation1.FindObject("Solution[Solution 1]")
solution_solves = [simSolution1]
print("[JOURNAL] Submitting solve...")
theCAESimSolveManager.SubmitSolves(solution_solves)
theSession.DeleteUndoMark(markId5, "Solve")
print("[JOURNAL] Solve submitted successfully!")
return True
except Exception as e:
print(f"[JOURNAL] ERROR: {e}")
import traceback
traceback.print_exc()
return False
if __name__ == '__main__':
success = main(sys.argv[1:])
sys.exit(0 if success else 1)
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