SolarIA - AI Sovereignty Powered by the Sun
0% cloud, 100% off-grid. Complete data sovereignty with locally-run AI powered entirely by solar energy.
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The Problem with Cloud-Based AI
Today's AI infrastructure comes with significant challenges for technical decision-makers in organizations where data sovereignty and operational resilience are non-negotiable:
Cloud Dependency
Your most sensitive data traverses third-party infrastructure, creating compliance risks and unpredictable egress costs.
Network Vulnerability
Critical AI functions fail during connectivity issues, creating operational bottlenecks and service interruptions.
Energy Instability
Power outages can halt operations entirely, particularly in remote locations or regions with unstable infrastructure.
The SolarIA Solution
SolarIA delivers a complete paradigm shift in how organizations deploy and utilize artificial intelligence:
Our innovative system runs advanced LLMs, RAG (Retrieval Augmented Generation), semantic search, and business agent workflows completely locally, powered by the BLUETTI AC70 + 350W solar kit.
This revolutionary approach delivers complete data sovereignty, energy resilience, predictable costs, and a dramatically reduced environmental footprint - all without compromising on AI capabilities.
How SolarIA Works
Solar Power Generation
The 350W solar panel captures sunlight and converts it to electricity, feeding directly into the BLUETTI AC70 power station.
Energy Storage & Management
The AC70 with its 768 Wh LiFePO₄ battery stores energy, handles up to 500W of solar input, and provides clean power with ~20ms UPS protection.
Edge Computing
The SeverusPRO (Ryzen 9) operates in edge mode, running local LLMs and RAG systems with encrypted, project-isolated workspaces.
Intelligent Solar Scheduling
SolarIA employs sophisticated power management to maximize efficiency and uptime:
  • Resource-intensive tasks are automatically scheduled during peak solar production hours
  • Intelligent sleep modes conserve energy during low-light periods
  • Adaptive workload balancing based on available power and priority levels
  • UPS functionality ensures zero data loss during power transitions
1000W
AC Output
Pure sine wave output with 1500W surge capacity and Power Lifting up to 2000W for resistive loads
768Wh
Battery Capacity
LiFePO₄ chemistry with 3000+ cycle lifespan for years of reliable operation
500W
Solar Input
Fast solar charging capability with MPPT controller for optimal energy harvest
1574Wh
Extended Capacity
Optional B80 (806Wh) expansion battery doubles runtime for demanding applications
Use Cases: Emerging Markets & Public Services
SolarIA enables transformative AI applications in regions with limited infrastructure and connectivity challenges:
Community Healthcare
SolarIA delivers offline AI triage capabilities, local medical translation, and instant PDF report generation even in the most remote clinics. Healthcare workers can access diagnostic assistance, medication information, and treatment protocols without requiring internet connectivity.
Education Access
Deploy multilingual AI tutors in schools without stable internet connections. SolarIA provides personalized learning experiences, educational content generation, and assessment tools that function entirely offline, bridging the digital divide in underserved communities.
Agricultural Support
Embedded vision systems diagnose pest infestations and soil conditions while providing contextual farming recommendations. Farmers gain access to agricultural expertise through visual analysis, crop management guidance, and weather pattern interpretation - all without connectivity.

Each SolarIA deployment is completely self-sufficient, requiring no external power infrastructure or internet connectivity to deliver full AI capabilities. This makes it ideal for regions with developing infrastructure or during disaster response scenarios.
Use Cases: Enterprise Applications
SolarIA provides critical AI capabilities for businesses with stringent security requirements or challenging operational environments:
Sensitive Audit & Compliance
For legal, M&A, and financial teams handling confidential information, SolarIA enables:
  • Private RAG systems analyzing internal documents without data exposure
  • Zero data leakage with completely air-gapped operation when required
  • Compliance verification and risk assessment without cloud dependencies
Remote Industrial Sites
For OT/ICS environments with critical infrastructure and limited connectivity:
  • Local cybersecurity copilot for threat detection and response
  • Anomaly detection in operational technology systems
  • Emergency procedure assistance available regardless of network status
Pop-up Retail & Events
For temporary commercial operations requiring advanced capabilities:
  • AI sales assistant with complete product knowledge
  • Embedded catalog and inventory management
  • Offline-first payment processing and customer service
These enterprise applications demonstrate how SolarIA transforms operations by providing complete sovereignty over both data and energy, eliminating vulnerabilities associated with traditional cloud-based AI implementations.
Use Cases: Field Research & NGOs
Expeditions & Conservation
SolarIA empowers field researchers with powerful AI tools in the most remote environments:
  • Real-time species image classification without connectivity
  • Voice note synthesis and organization in the field
  • Daily summary generation of research findings
  • Geospatial data analysis with local computational resources
Humanitarian Aid
For organizations operating in crisis zones where infrastructure is compromised:
  • Local language translation for immediate communication
  • Automated form generation and needs assessment
  • Resource prioritization algorithms that function offline
  • Medical information access in connectivity-challenged areas
Field Journalism
For reporters working in remote or censorship-heavy regions:
  • Multilingual transcription of interviews and recordings
  • Content summarization and curation without cloud dependencies
  • Secure, local document processing to protect sources
  • Story analysis and development with complete privacy

Case Study: During a recent conservation expedition to monitor endangered species in the Amazon basin, researchers deployed SolarIA to process over 10,000 camera trap images daily. The system identified and classified species with 94% accuracy while operating completely off-grid for 21 consecutive days, dramatically reducing the expedition's carbon footprint compared to traditional methods requiring generator power.
Technical Specifications
Energy System
BLUETTI AC70:
  • 768 Wh LiFePO₄ battery (3000+ cycle lifespan)
  • 1000W pure sine wave output (1500W surge)
  • Power Lifting technology: 2000W for resistive loads
  • Solar input up to 500W
  • UPS functionality with ~20ms switchover
  • Multiple output ports (AC, USB-C, USB-A, DC)
Solar Components
PV350 Foldable Panel:
  • 350W nominal power output
  • Monocrystalline silicon cells
  • Foldable design for portability
  • Weather-resistant construction
  • Integrated kickstand
  • Optional alternative: 2× PV200 panels
Computing Hardware
SeverusPRO:
  • AMD Ryzen 9 processor
  • Local LLM execution capability
  • RAG (Retrieval Augmented Generation)
  • Semantic search functionality
  • Encrypted storage
  • Project isolation architecture
Typical Runtime (AC70 Alone)
With the optional B80 expansion battery (806Wh), total capacity increases to 1574Wh, effectively doubling runtime across all load scenarios and enabling 24/7 operation for properly sized workloads with adequate solar input.
SolarIA Configuration Options
1
SolarIA Micro
Our entry-level configuration optimized for basic AI workloads:
  • BLUETTI AC70 (768Wh) power station
  • PV350 solar panel (350W)
  • SeverusPRO AI Basic 2TB
  • Intelligent scheduling: heavy tasks during daylight, sleep mode at night
  • Ideal for: basic document processing, routine analytics, and scheduled batch operations
Starting at $23,495
2
SolarIA Plus
Extended capacity configuration for longer missions and higher workloads:
  • BLUETTI AC70 (768Wh) power station
  • B80 expansion battery (806Wh) for 1574Wh total
  • PV350 solar panel or 2× PV200 panels
  • SeverusPRO AI Premium 12TB
  • Ideal for: continuous operation, complex analytics, and multimedia processing
Starting at $34,795
3
SolarIA Field
Ruggedized configuration for challenging environments:
  • BLUETTI APEX300 (2764Wh) power station
  • B300K expansion battery (10KW)
  • 2x PV350 panels
  • Cluster 2x SeverusPRO AI Basic or Premium
  • Ideal for: expeditions, disaster zones, and extreme environments
Starting at $45,995
All configurations come with our comprehensive SolarIA software suite including local LLM capabilities, RAG framework, semantic search functionality, and business agent workflows. Custom configurations are available for specialized use cases - contact our solutions team for details.
Return on Investment & Total Cost of Ownership
Financial Benefits
SolarIA delivers substantial cost advantages compared to cloud-based AI solutions:
  • Eliminated Cloud Subscriptions: No ongoing AI service fees or unpredictable usage-based billing
  • Zero Data Egress Costs: Process all data locally without expensive data transfer charges
  • Controlled Capital Expenditure: One-time purchase with reusable energy components
  • Reduced Operational Disruptions: Maintain productivity in unstable energy environments
  • Extended Hardware Lifespan: LiFePO₄ battery technology with 3000+ cycle capacity
  • Predictable Total Cost: No surprises from escalating cloud costs or service changes
Comparative TCO Analysis
SolarIA typically achieves ROI within 6-8 months for organizations processing sensitive data or operating in locations with unreliable infrastructure. The system's energy independence further accelerates ROI in regions with high electricity costs or frequent outages.

Case Study: A financial services firm implemented SolarIA for processing sensitive client documents, eliminating $42,000 in annual cloud AI costs while ensuring complete data sovereignty. The system paid for itself in under 5 months while simultaneously eliminating a significant compliance risk.
Frequently Asked Questions
Can SolarIA run 24/7?
Yes, SolarIA can operate continuously if your average power consumption remains at or below 50-60W with the PV350 panel in typical sunlight conditions. For higher loads or less ideal solar conditions, we recommend:
  • Scheduling resource-intensive tasks during peak solar hours
  • Adding the B80 expansion battery to increase capacity to 1574Wh
  • Implementing dual solar panels (up to 500W input capacity for AC70)
Our system includes intelligent workload management that automatically adapts to available power.
What happens during cloudy weather?
SolarIA includes sophisticated power management that automatically adjusts during reduced solar input:
  • The system enters eco-mode, reducing power consumption
  • Non-essential tasks are automatically deprioritized
  • Critical functions remain operational using stored battery power
  • Full recharge may take longer depending on cloud cover
For deployments in consistently cloudy regions, we recommend the SolarIA Plus configuration with expanded battery capacity.
Can I keep my data strictly local?
Absolutely. By default, SolarIA operates in sovereign mode with:
  • Zero cloud connectivity requirements
  • Complete local processing of all data
  • Encrypted storage with robust access controls
  • Option for true air-gapped operation
For organizations with strict compliance requirements, we provide documentation certifying the air-gapped nature of the system when operated in sovereign mode.
Ready to Experience Truly Sovereign AI?
Take the next step toward complete data sovereignty and energy independence with SolarIA. Our team will help you determine the optimal configuration for your specific requirements.
Contact our solutions team at contact@solaria-ai.com or call us at +1 (555) 123-4567