Distributed
Intelligent
Supercomputer

Spinor unites billions of devices into a planetary-scale compute fabric, bringing the first billion-user decentralised computing systems online.
Whitepaper (Coming Soon)

Imagine the future of the internet.

Today’s compute infrastructure—latency-tolerant, transactional backends—can no longer keep pace with the demands of virtual economies, decentralised networks, AI, and IoT.
The Distributed Intelligent Supercomputer, powered by our pioneering Spinor Compute Model, transforms billions of devices into a global, real-time supercomputer that delivers uncompromising performance and full decentralisation.

Decentralised supercomputing power at your fingertips.

Spinor is the platform for building and scaling next-generation distributed systems.

By solving the locality problem in compute models, Spinor powers performance-critical distributed systems.
Latency:
1-10ms Execution Time
Scale:
Unlimited TPS
(Transactions-per-Second)
Scaling Model:
∞ thanks to logarithmic synchronisation overhead
Spinor Compute Model
The parallel programming interface
A new paradigm for building high-performance parallel programs and distributed systems
Compute Fabric
Distributed Networks
Globally-distributed networks of nodes that secure and power the platform
Spinor Consensus
Topological Consensus Model
Advanced form of DAG consensus with locality intrinsics achieving real-time performance and scalability

How It Works

Spinor operates as a massively parallel, globally distributed, and decentralised network, delivering HPC-level performance with real-time latencies. At its core, the Spinor Compute Model (SCM) is a breakthrough in distributed computing, designed with locality as a first-class concern. Built on decades of research, SCM enables high-performance computation at planetary scale.
Illustration of a key feature: scalable, represented by two groups of circles connecting.
Distributed
Traditional blockchains attempt to force non-distributed computing (smart contracts, dApps) onto a distributed fabric, leading to severe limitations. Spinor is the first blockchain built for truly distributed systems, unlocking real-time databases, large-scale simulations, protein docking, and AI inference—all decentralised and running natively on-chain.
Illustration of a key feature: stable, represented by two groups of circles connecting.
Intelligent
Spinor’s compute model and cryptographic primitives enable computations to set and achieve high-level goals. With agent-based intelligence, Spinor automates complex decision-making, allowing programs to operate autonomously without human oversight.
Illustration of a key feature: a supercomputer, represented by a scaled-up spiral.
Supercomputing
Spinor’s locality model and hyper-localising distributed scheduler ensure low-latency, high-throughput computation across the network. Transactions are confirmed in under 10ms, exceeding the <30ms threshold required for real-time performance. This enables previously impossible decentralised applications, from real-time AI inference to large-scale simulations—all on-chain.
Built with AI-powered operations and security, it eliminates the need for traditional devops and sysadmin, making petascale platforms accessible to everyone.

Use cases

By addressing the challenges of scalability, decentralisation, and performance, Spinor empowers industries ranging from gaming and defence to AI training and digital twins.
Digital Twins
Drug Discovery
Gaming
Quantitative Finance
Synthetic Training Environments
High-Performance Data Processing

Spinor Frameworks

Quark
Compute Engine
Showcasing Spinor’s might, Quark is our pioneering engine built for crunching immense distributed state with strong-consistency and real-time demands. It is being applied to massive online game worlds, complex scientific simulations, high-fidelity AI training environments and metaverses with tens of thousands of concurrent users.
Nova
AI Inference Framework
Build powerful AI inference workloads and agents on Spinor's decentralised network.
Tachyon
Decentralised Real-time Database
Combing a Redis-like API and performance across a distributed network, Tachyon is designed to meet the performance demands of AI inference, games and high-performance apps.
Gluon
DePIN Super-Net Framework
Powerful cryptographic primitives for building, bootstrapping and securing specialised DePIN protocols.