Commercial
AI & Energy
Infrastructure Program
Pioneering American energy abundance and AI dominance through advanced nuclear infrastructure.
Deep Atomic delivers integrated energy-and-thermal campuses where power generation, cooling production, and data center infrastructure are engineered as a unified system.
Strategic Outcome
Phased Deployment Model
Deep Atomic campuses allow operators to reduce exposure to grid constraints and deploy infrastructure ready for next-generation compute densities through a disciplined, phased approach.
Project Speed
Rapid deployment of a 100MW data center powered by the site's existing TVA interconnection and American-made Caterpillar natural gas reciprocating engines.
Project Core
Commissioning of five Deep Atomic MK60 SMRs delivering 300 MW of baseload capacity. Transitions the campus from grid-dependent to energy-independent.
Project Scale
Expansion to fifteen additional MK60 SMRs (1.2GW total). Powers a 1.0GW hyperscale data center while delivering 200MW excess baseload to America's grid.
Infrastructure Architecture
Integrated Nuclear-Powered Infrastructure
Energy production, cooling, and IT infrastructure engineered as one unified system. Our approach delivers energy-architected data center infrastructure where power generation, cooling production, and data center operations are coordinated physically and digitally.
Energy Generation Platform
The energy island is built around modular Generation III+ light-water reactor units (MK60) optimized for industrial and computational loads.
Microgrid & Distribution
- Short-Path Distribution: On-site generation eliminates long transmission paths and grid volatility.
- Integrated Control: Microgrid controller coordinates generation, storage, and IT load for stability.
- Resilience Layers: UPS, energy storage ride-through, and redundant power paths for mission-critical continuity.
Integrated Power & Cooling
A defining feature is thermal co-generation. Reactor thermal energy drives power conversion, while low-grade turbine exhaust steam drives absorption chillers.
Compute Compatibility
Thermal and electrical infrastructure is designed for future hardware power trajectories, not legacy enterprise loads.
Site Planning
Site Zoning & Layout Specifications
Strategic land allocation across ~225 acres, engineered for operational efficiency, safety, and future scalability.
Nuclear Energy Island
Houses the MK60 reactor module, containment (<100 m² footprint), steam turbine-generator building, and Paragon HIPS safety controls. Includes controlled access security perimeter.
AI Data Center Campus
Modular GPU clusters (H100/GB300-class), operations center, and rack-level cooling. Supports 150 kW+ rack densities across ~230,000 sq ft of data halls.
Utility Integration Zone
Integration corridor for steam and EDC EvapCo chilled-water piping. Contains the 13.8 kV redundant power loop, fiber backbone, and service access roads.
BESS & Storage
10 MWh Battery Energy Storage with supercapacitors. Provides up to 4 hours of backup and handles sub-15 ms power transfers for AI load variability.
Backup Generation
33 Caterpillar CG170B-20 units (75 MW) plus 6 Caterpillar C175 gensets (15 MW) for N+2 redundancy and black-start capability.
Expansion Reserve
Strategic reserve capacity for scaled compute growth and/or additional MK-series reactor units, subject to future regulatory approvals.
Project Timeline
Phase I Development
2026NEPA Initiation, Site Characterization, Financial Close.
Construction Start
2027Groundbreaking for Data Center Module A & Infrastructure.
Project Speed Live
2028100MW Data Center operational on Grid + Gas. Revenue generation begins.
SMR Fabrication
2029Deep Atomic begins MK60 module fabrication for Project Core.
Project Core Live
20315 MK60 Reactors online (300MW). Transition to nuclear baseload.
Project Scale Live
2034Full 1.2GW Nuclear capacity. 20 Reactors total. 1.0GW Data Center.
Financial Capability
A market-supported structure isolating risk while delivering ~$200M annual revenue at full operation.
DataCenterCo Sources ($2.7B Est.)
ReactorCo Sources ($1.9B Est.)
Incremental Investment by Phase ($ Billions)
Total Program Value: ~$18.2 Billion over 8 years
Security & Compliance
Secure by Design, Compliant by Default
Comprehensive Security Plan
Risk-informed, performance-based approach addressing cyber, physical, supply chain, and insider threats. Fully integrated with the site's existing Protective Force operations and DOE site requirements.
Regulatory Strategy
Preferred pathway via DOE authorization under 42 U.S.C. § 2201(g) (Atomic Energy Act), leveraging federal site jurisdiction for streamlined demonstration authority while meeting NRC safety standards.
Foreign Connection Transparency
Parker Tide LLC maintains active DOE Q-level and DoD TS clearances. Full transparency on foreign connections, CFIUS filings for safe-harbor clearance, and rigorous FOCI screening for all consortium partners.
The Team
Unmatched Pedigree
A consortium of industry leaders united to deliver American nuclear-industrial dominance.
Parker Tide
Security consulting, federal interface support, and PMO leadership. 20+ years of federal program experience.
Deep Atomic
Proprietary MK60 SMR technology. Integrates nuclear engineering with digital infrastructure expertise.
ClayCo
Design-build firm overseeing AI campus construction. Market leader in mission-critical hyperscale infrastructure.
Gleeds
Global consultancy providing cost modeling, risk management, and PMO services aligned with DOE methodologies.
Caterpillar
American-made natural gas reciprocating engines for Phase I bridging power. Industry-leading reliability and grid integration for data center loads.
Strategic Partners
Includes Framatome (Nuclear Fuel), Paragon (Safety Systems), and EDC EvapCo (Cooling & Thermal Management).
Conclusion
Deep Atomic delivers infrastructure where energy generation, cooling, and compute environments are engineered as one system — enabling hyperscale deployment beyond traditional energy constraints.
Integrated energy infrastructure for the future of large-scale compute.