The UK's most
accurate
& complete
automated
solar
quotes.
unparalleled
speed & efficiency.
- Pre-qualify leads
- Low user friction
- Higher conversion
- Trust & transparency
- Unique marketing opportunity
boundary.
Accurate property boundary detection.
Understand the available roof space division on terraced and semi-detached properties where roofing is continuous.
boundary.
Accurate property boundary detection.
Understand the available roof space division on terraced and semi-detached properties where roofing is continuous.
build trust.
We factor all of the key variables that impact calculations. Other tools are intentionally conservative to avoid the risk of overestimation.
We reflect real-world ROI’s.
- Load shifting
- Finance pairing
- Inverter configuration
- Lead generation
- Tariff selection
roof shape analysis.
AI computer vision detects precise roof shapes and measurements removing obstructions like dormers, skylights, chimney, existing panels or air vents to find the optimum space for panels.
99% accuracy of surface coverage.
roof shape analysis.
AI computer vision detects precise roof shapes and measurements removing obstructions like dormers, skylights, chimney, existing panels or air vents to find the optimum space for panels.
99% accuracy of surface coverage.
panel layout.
Automated balance of aesthetics, optimal array width (keeping scaffolding costs down), and sunlight optimisation.
panel layout.
Automated balance of aesthetics, optimal array width (keeping scaffolding costs down), and sunlight optimisation.
shading.
For every hour of the year, within 10cm of accuracy –differentiating tree shade from solid shade, factoring seasonal vegetation density.
shading.
For every hour of the year, within 10cm of accuracy –differentiating tree shade from solid shade, factoring seasonal vegetation density.
energy
generation.
Hourly physics-based weather data derived from satellite and ground observations at ~25km resolution to model the impact of sun, temperature, and wind on each panel diode.
energy
generation.
Hourly physics-based weather data derived from satellite and ground observations at ~25km resolution to model the impact of sun, temperature, and wind on each panel diode.
storey
detection.
Lidar satellite determines the number of storey's for each roof and the width of each array.
Accurately calculate the scaffolding requirements.
storey
detection.
Lidar satellite determines the number of storey's for each roof and the width of each array.
Accurately calculate the scaffolding requirements.
string
optimisation.
Panels with lower currents are isolated from higher performing panels, maximising the overall generation of the array.
get granular.
- Control pricing & margin.
- Factor staff, supplier, admin & delivery costs.
- Works with your own existing database of products & specs.
integrated
with api.
- Get the vital data directly.
- Integrate into your existing product flow.
Request;
Property co-ordinates
Response;
Whole property data;
Satellite tile
(DCDAD5as a geo-referenced image)
Property boundary
(as a coordinate polygon)
Lidar
(as a geo-referenced image)
Obstructions
(as labelled coordinate polygons)
Roof-specific data
(provided for each roof);
Roof boundary
(coordinate polygon + holes)
Slope (0-180 degrees)
Direction (0-360 degrees)
Fit: Number of panels
Energy production
(total annual energy production)
Quotation
(product pricing and savings)
trusted.
“We’re not just automating quotes, we’re making them transparent. Customers can see exactly how their system has been designed and what it’s based on.”
— Founder, Heatable
