tasq/node_modules/agentic-flow/docs/quantum-goap/EXECUTION_SUMMARY.md

# Quantum Research GOAP Execution Summary

## Quick Reference

**Project**: Observer-Agnostic Measurement Theorem Implementation
**Status**: Planning Complete ✅
**Next Action**: 1.1 Formalize Theorem

## Key Metrics

| Metric | Value |
|--------|-------|
| Total Actions | 47 |
| Critical Path Length | 18 actions |
| Estimated Duration | 28-40 weeks |
| Budget Required | $280,000 |
| Success Probability | 85% |
| Parallel Opportunities | 23 actions |
| Speedup Potential | 1.43× |

## Phase Overview

```
Phase 1: Theoretical Foundation       (Weeks 1-2)   Cost: 9    [██████]
Phase 2: Simulation Infrastructure    (Weeks 2-4)   Cost: 19   [████████████]
Phase 3: Testing & Validation         (Weeks 3-5)   Cost: 15   [██████████]
Phase 4: Computational Validation     (Week 5)      Cost: 3    [██]
Phase 5: Experimental Design          (Weeks 6-8)   Cost: 23   [██████████████]
Phase 6: Hardware & Lab Setup         (Weeks 9-16)  Cost: 34   [████████████████████]
Phase 7: Data Collection              (Weeks 17-20) Cost: 17   [███████████]
Phase 8: Analysis & Interpretation    (Weeks 21-22) Cost: 14   [█████████]
Phase 9: Publication                  (Weeks 23-24) Cost: 17   [███████████]
```

## Critical Path

```
START → Formalize Theorem → Verify Proof → Define Predictions
      → Design Apparatus → Pre-registration → Secure Funding
      → Procure Hardware → Build Setup → Calibrate
      → Data Collection → Statistical Analysis → Paper → END
```

## Immediate Next Steps

### Step 1: Initialize Project Structure
```bash
mkdir -p observer-invariance/{src,tests,docs,examples,data}
cd observer-invariance
cargo init --lib
git init
```

### Step 2: Begin Theorem Formalization
- Convert informal statement to LaTeX
- Define all mathematical objects precisely
- State assumptions and falsification criteria
- Target: 3-5 days

### Step 3: Start Rust Implementation
- Set up project with nalgebra, num-complex dependencies
- Implement basic quantum math primitives
- Write initial test suite
- Target: 2-3 days (parallel with Step 2)

## Resource Requirements

### Minimum Team
- 1× PI (quantum theorist) - 20% time
- 1× Postdoc/Grad Student - 100% time
- 1× Software Developer - 50% time (Weeks 2-5)
- 1× Lab Technician - 50% time (Weeks 13-20)
- 1× Statistical Consultant - as needed

### Budget Breakdown
| Category | Amount |
|----------|--------|
| Personnel | $70,000 |
| Hardware (SPDC, detectors, optics) | $120,000 |
| Lab Space & Operations | $15,000 |
| Publication & Dissemination | $5,000 |
| Contingency (20%) | $70,000 |
| **TOTAL** | **$280,000** |

## Risk Mitigation Priority

1. 🔴 **CRITICAL**: Secure funding early (40% risk of delay)
2. 🟡 **HIGH**: Order long-lead hardware immediately (30% risk)
3. 🟡 **MEDIUM**: Hire experienced experimentalist (20% risk)
4. 🟢 **LOW**: Multiple journal submission targets identified

## Success Criteria

### Simulation Phase (Weeks 1-5)
- ✅ All tests pass with 95%+ coverage
- ✅ Singles invariance verified to machine precision
- ✅ Duality bound V² + D² ≤ 1.0 confirmed
- ✅ CLI generates publication-quality figures

### Experimental Phase (Weeks 6-20)
- ✅ Apparatus achieves V > 0.98, S > 2.5
- ✅ 15M events collected across 3 controllers
- ✅ Drift logs show stability < 0.1%/hour
- ✅ Blinding protocol maintained throughout

### Analysis Phase (Weeks 21-22)
- ✅ Equivalence confirmed: |Δp| < 5×10⁻⁴
- ✅ No controller-dependent effects detected
- ✅ All systematics ruled out
- ✅ Results match simulation predictions

### Publication Phase (Weeks 23-24)
- ✅ Paper submitted to peer-reviewed journal
- ✅ Code + data published with DOIs
- ✅ Preprint available on arXiv
- ✅ Reproducibility documentation complete

## Parallel Execution Clusters

### Cluster A: Theory + Simulation (Weeks 2-4)
Spawn 5 agents concurrently:
- Theorist: Formalize theorem
- Rust Dev A: math.rs module
- Rust Dev B: eraser.rs module
- Rust Dev C: duality.rs module
- Test Engineer: Comprehensive test suite

### Cluster B: Experimental Design (Weeks 6-8)
Spawn 4 agents concurrently:
- Optical Designer: Apparatus CAD + BOM
- Experimentalist: Calibration protocols
- Statistician: Analysis plan + power analysis
- Coordinator: Integrate into pre-registration

### Cluster C: Publication (Weeks 23-24)
Spawn 4 agents concurrently:
- Author A: Introduction + Theory sections
- Author B: Methods + Results sections
- Author C: Figures, tables, supplement
- Data Engineer: Code/data repository setup

## Execution Commands

### Start Phase 1
```bash
# Initialize coordination
npx claude-flow@alpha hooks pre-task \
  --description "Phase 1: Theoretical Foundation"

# Spawn theorist agent
npx claude-flow@alpha agent spawn \
  --type theorist \
  --task "Formalize Observer-Agnostic Measurement theorem in LaTeX"

# Track progress
npx claude-flow@alpha hooks memory retrieve \
  --key "quantum-research/world-state"
```

### Start Phase 2 (Parallel)
```bash
# Initialize swarm
npx claude-flow@alpha swarm init \
  --topology mesh \
  --max-agents 5

# Spawn Rust development agents
npx claude-flow@alpha agent spawn --type coder --name rust-math
npx claude-flow@alpha agent spawn --type coder --name rust-eraser
npx claude-flow@alpha agent spawn --type coder --name rust-duality
npx claude-flow@alpha agent spawn --type tester --name test-engineer

# Monitor swarm
npx claude-flow@alpha swarm status
```

## Document Index

- **[GOAP_IMPLEMENTATION_PLAN.md](GOAP_IMPLEMENTATION_PLAN.md)**: Full 15,000-word detailed plan
- **[EXECUTION_SUMMARY.md](EXECUTION_SUMMARY.md)**: This quick reference (you are here)
- **World State**: Memory key `quantum-research/world-state`
- **Action Log**: Memory key `quantum-research/actions`

## Contact & Collaboration

For questions about this implementation plan:
- Review full GOAP analysis: `/workspaces/agentic-flow/docs/quantum-goap/GOAP_IMPLEMENTATION_PLAN.md`
- Check memory state: `npx claude-flow@alpha hooks memory retrieve --key quantum-research/goal-plan`
- Request agent assistance: Use Claude Code's Task tool or MCP coordination

---

**Generated**: 2025-10-14
**Version**: 1.0
**Planning Framework**: GOAP with A* Pathfinding
**Total Analysis Time**: ~2 hours
**Confidence Level**: High (85% success probability with proper resources)

Ready to begin execution. 🚀