Run workloads on solar-powered compute infrastructure.
Access distributed capacity built from energy, infrastructure, and network control.
SolarCompute gives users access to distributed compute capacity powered by solar generation and battery-backed energy. Run AI, rendering, container, and batch workloads through a controlled infrastructure network with clearer visibility, expanding capacity, and a zero-emission direction.
Compute built on a stronger infrastructure model
SolarCompute connects compute demand to solar generation, battery-backed energy, and controlled machine deployment — creating a different pathway for AI infrastructure growth.
Energy-backed compute access
Workloads run across infrastructure deployed close to renewable energy, helping expand compute supply beyond traditional data centre models.
Controlled machine deployment
SolarCompute manages the infrastructure layer directly, improving consistency, reliability, and network-wide operational control.
Clearer workload visibility
Track workload flow, usage, and activity through a connected platform designed for better transparency and user control.
Request access. Submit workloads. Scale with the network.
SolarCompute is building a simple pathway from approved access to distributed workload execution.
Request access
Join early access and connect to the platform as the infrastructure network expands.
Submit workloads
Run AI, rendering, container, and batch jobs across available network capacity.
Track execution
Monitor progress, workload state, and usage through a cleaner operational workflow.
Grow with capacity
As infrastructure is deployed across more energy sites, workload access and network depth increase.
Built for current and future compute demand
SolarCompute is being shaped around real infrastructure demand across today’s active workloads and the categories expected to grow over time.
AI & GPU Workloads
Training, inference, fine-tuning, and GPU-intensive compute tasks across distributed infrastructure.
Rendering & Media
Rendering pipelines and future image, audio, and video workload support as the platform expands.
Batch, Data & Robotics
Containerised jobs, data-heavy pipelines, simulation, and future robotics-oriented compute categories.
Infrastructure first. Marketplace maturity over time.
SolarCompute is focused on building the infrastructure layer correctly first: energy-aligned deployment, controlled machines, network reliability, and growing workload support.
As capacity matures, workload classes, access tiers, and broader commercial structure can be introduced on top of a stronger operational foundation.
What this means today
- Approved user access as the network grows
- Infrastructure-led expansion before broad commercial scale
- Workload support shaped around real platform capability
- Better alignment between energy supply and compute demand
Track jobs and usage in real time
Monitor job execution, workload state, and platform activity through an operational dashboard designed for visibility, control, and cleaner infrastructure interaction.
- Live job and queue visibility
- Usage tracking and workload monitoring
- Simple execution flow
- Growing access to distributed compute
Infrastructure that scales from energy outward
Instead of relying only on centralised capacity, SolarCompute expands by deploying compute where solar generation and stored renewable energy are available.
Over time, this creates a broader network footprint, stronger infrastructure distribution, and a pathway to lower-emission compute at larger scale.
What this unlocks
- Growing compute availability
- Broader infrastructure distribution
- Improved workload matching over time
- Future regional execution opportunities
Access the SolarCompute network
Join early access to explore solar-powered compute infrastructure while the network, workload support, and deployment footprint continue to expand.