Access the compute layer built on renewable infrastructure.
The SolarCompute marketplace is the user-facing access layer to a growing network of distributed compute infrastructure deployed at solar and battery-backed sites.
It is designed to give users a clearer pathway into infrastructure-backed AI and high-performance workloads as the network expands across more machines, more sites, and broader categories of compute demand.
What defines marketplace access
- Access to SolarCompute-operated infrastructure
- Capacity backed by solar and battery-enabled sites
- Clearer compute pathways as the network expands
- Support for multiple workload categories over time
- A platform built around real infrastructure, not abstract listings
Platform access, not a speculative exchange.
This page explains how SolarCompute is shaping user access to compute capacity across the network. It is not a token marketplace, not a speculative pricing board, and not a generic listing page detached from infrastructure reality.
The purpose of the marketplace is to give users a structured way to access compute as more machine classes, more workloads, and more network capacity come online.
The machine formats the network is currently built around.
SolarCompute standardises infrastructure deployment so system behaviour, monitoring, and compute execution remain more consistent across the network.
Case System
Entry-level infrastructure format for lighter compute demand and smaller workload execution.
View MachinesTower System
Mid-scale deployment format designed for heavier throughput and broader job handling.
View MachinesRack System
Higher-density system format intended for larger deployment environments and stronger capacity.
View MachinesCompute access becomes clearer as infrastructure grows.
As the network matures, SolarCompute can present more defined pathways into compute capacity, workload suitability, and infrastructure-backed access.
Broader Compute Tiers
Over time, the platform can support more differentiated infrastructure classes as network deployment expands.
Clearer Workload Matching
Users can be routed toward compute environments better matched to the type of workload they need to run.
More Visible Capacity
As more infrastructure is deployed, the platform can surface clearer network readiness, capacity groupings, and access pathways.
The platform is being shaped for multiple compute classes.
These categories reflect the types of workloads SolarCompute is building toward as infrastructure, routing, and capacity continue to mature.
Text
Language inference, summarisation, search, and text-processing workflows.
Image
Generation, editing, training, and visual-processing workloads.
Audio
Speech, transcription, generation, and audio model execution.
Video
Rendering, transformation, and broader media-processing workflows.
Data
Batch processing, analytics, indexing, and data-heavy compute tasks.
Robotics
Longer-term simulation and model execution categories for machine interaction.
Structured access built on real infrastructure.
SolarCompute is building platform access around infrastructure readiness, machine consistency, and broader capacity over time — not around abstract promises.
Now
Early users gain access to a platform built on real deployed infrastructure as the network continues to expand.
Next
As deployment grows, the platform can present clearer system groupings, stronger workload pathways, and more visible network depth.
Later
A more mature access layer can emerge once infrastructure scale, workload diversity, and operating visibility are stronger across the network.
A supporting infrastructure tool.
The calculator supports host-side understanding by helping explain indicative earnings and system economics across current machine classes.
It is part of the broader platform structure rather than a live exchange layer, helping clarify how infrastructure participation works on the host side of the network.
Explore SolarCompute as the network continues to grow.
Join early access to explore the platform as infrastructure capacity, workload support, and user pathways continue to mature.