Stargate Framework - Investment Metrics Dashboard
Real-time feasibility analysis and ROI projections for wormhole technology development
Energy Requirement
12.5 TW
↓ 15% from initial estimates
Total Investment Needed
$8.2B
Phase 1: $2.1B
Time to Prototype
3.5y
6 months ahead of schedule
Energy Efficiency
87%
↑ 12% with Base-3 optimization
Development Progress
Theoretical Framework
95%
Mathematical Validation
88%
Prototype Design
72%
Material Sourcing
45%
Lab Testing
12%
Investment Breakdown
| Category | Phase 1 | Phase 2 | Phase 3 |
|---|---|---|---|
| Research & Development | $450M | $380M | $220M |
| Materials & Components | $620M | $1.2B | $890M |
| Infrastructure | $380M | $750M | $1.1B |
| Testing & Validation | $290M | $410M | $520M |
| Personnel & Operations | $360M | $480M | $650M |
| Total per Phase | $2.1B | $3.22B | $3.38B |
Total Investment: $8.7B over 7 years
Energy Requirements Over Time
Base-3 ternary fission reduces energy requirements by 35% compared to traditional approaches. Peak consumption occurs during wormhole initialization, with steady-state operation requiring only 2.3 TW for Earth-Mars transit.
Development Timeline
1
Q1 2025 - Q4 2025
Complete theoretical validation and secure Phase 1 funding
2
Q1 2026 - Q2 2027
Build and test Base-3 energy reactor prototype
3
Q3 2027 - Q4 2028
Develop Base-8 electromagnetic containment system
4
Q1 2029 - Q2 2030
Integrate navigation systems and conduct first portal tests
5
Q3 2030 - Q4 2031
Full system integration and human-rated testing
ROI Calculator
Estimated Annual Revenue:
$5B
Break-even in 2.8 years after operations begin
Market Opportunity
Addressable Markets:
- Space Logistics: $450B by 2035
- Interplanetary Mining: $1.2T by 2040
- Space Tourism: $85B by 2032
- Scientific Research: $230B by 2035