A sovereign, decentralized cloud built by the people, for the people.
Designed to replace the centralized, monopolistic "cloud cartel."
The Power Cloud is a revolutionary, fully distributed cloud infrastructure built on the 10 deployment patterns.
Instead of being controlled by a few corporations, the Power Cloud is a network of compute nodes in homes, schools, businesses, and malls.
Its primary competitive advantage is economic: all services are billed in the energy-backed currency (KW Cash / Zaps). By co-locating compute with energy production, we reduce energy costs to near-zero marginal rates, creating a system the "cloud cartel" cannot compete with.
Restores the fundamental right to compute, store, and transmit data without surveillance or censorship. A decentralized mesh network ensures uptime during outages.
The energy-backed billing system ensures value stays in the local community. Node operators (homeowners, schools) earn real currency for their contributions.
Building a sovereign cloud starts with a new national backbone, owned and operated in the public interest.
A network of highly secure data centers run by a National Public Bank, managing the core digital ledger and large-scale AI economic forecasting.
Federated zones operated by public utilities, co-ops, and National Guard units. Responsible for real-time energy pricing, smart grids, and emergency response.
The final layer embedded in smart homes, EVs, and microgrids. Uses low-cost hardware for P2P trading and V2G energy exchange.
The "People's Cloud" is built from the ground up, starting with individual homes and community anchors.
Cost: $200 - $2,000
Hardware: Solar-powered, Raspberry Pi-class edge devices.
The foundational building block. Hosts lightweight workloads, processes sensor data, and runs AI inference models at the edge.
Cost: $5,000 - $50,000
Hardware: 2U to 8U compute and storage racks.
Key community anchors. Schools host secure educational platforms, while malls support retail analytics and smart signage.
Cost: (Varies)
Hardware: 4U to 42U rack servers.
Located in microgrids and co-ops, these hubs provide caching, GPU acceleration, and federated learning to support large-scale computation.
The rollout begins with a 150-node pilot in 2025, including 10 schools and 5 shopping malls.
It scales to 15 regional meshes in 2026, leading to full national integration in 2027.