Transform Your Solar Assets into High-Value Revenue Streams
Unlock additional revenue from your solar installations through distributed compute services – turning excess capacity into profit.
Why Solar Sites Are Perfect for Edge Compute
Your solar infrastructure already has 70% of what's needed for high-value compute services.
Existing Power Infrastructure
Solar installations already have robust electrical systems, grid connections, and power management capabilities required for compute operations.
Zero-Carbon Computing
Provide sustainable compute services during peak solar hours, attracting environmentally conscious enterprise customers willing to pay premium rates.
Strategic Locations
Remote solar sites offer ideal distributed computing locations, reducing latency for edge applications while maintaining security and access control.
Built-in Security
Solar facilities already have perimeter security, monitoring systems, and controlled access – essential requirements for compute infrastructure.
Concrete Revenue Projections
Based on actual market rates and validated demand from 60+ companies in our pilot pipeline.
Year | Jetson Orin Nano | RTX 4080 | Total Annual Revenue |
---|---|---|---|
1 | $104,000 | $23,000 | $127,000 |
3 | $146,000 | $27,000 | $173,000 |
5 | $167,000 | $31,000 | $198,000 |
Additional Revenue Streams
- Insurance premium reductions (40-60% through data services)
- Enhanced grid services revenue from real-time optimization
- Carbon credit optimization through zero-carbon compute hours
- Agricultural analytics revenue (for agrivoltaic installations)
- Equipment predictive maintenance cost savings
Proven Market Demand
Real customers, validated use cases, and measurable business impact across multiple industries.
AI/ML Model Training
Universities and AI companies need distributed compute for model training during peak solar hours.
Agricultural Robotics
Real-time processing for autonomous harvesting robots requires low-latency edge computing.
Insurance Risk Processing
Accelerated claims processing reducing payout times from 30-60 days to 7-14 days.
Financial Risk Assessment
High-frequency trading algorithms and risk calculations for financial services companies.
Research Computing
University partnerships for distributed scientific computing during off-peak grid hours.
Web3/DePIN Networks
Distributed infrastructure networks requiring geographically diverse compute nodes.
Rapid Deployment Timeline
From assessment to revenue generation in as little as 8 weeks.
Site Assessment
Technical evaluation of power infrastructure, connectivity, and compute deployment feasibility.
Week 1Integration Planning
Custom deployment plan, regulatory compliance review, and hardware specification.
Weeks 2-4Pilot Deployment
Install compute nodes, AsobaCode CLI integration, and performance validation testing.
Month 2Revenue Generation
Full-scale operation with customer workloads and monthly revenue reporting.
Month 3+Technical Architecture
Enterprise-grade compute infrastructure designed for solar installations.
Hardware Specifications
Jetson Orin Nano (240 TOPS), RTX 4080 (9,728 CUDA cores), distributed across 480 TOPS total AI processing power with 96GB distributed VRAM.
10-Minute Deployment
AsobaCode CLI enables rapid deployment and management of compute workloads with automated scaling and monitoring.
Seamless Integration
Compatible with existing solar monitoring systems, no interference with primary energy operations, automated compliance monitoring.
Ready to Transform Your Solar Assets?
Join the first 10 solar asset owners to unlock distributed compute revenue streams.