Six milestones. One direction.

Q3 2024Testnet 01 · Completed

Babbage

Testing ground for deterministic parallel inference. Establishes the foundation of OPoC. Supports LLAMA 3.1 7B quantized and Flux.1. Multi-VM framework with WASM + EVM, Solidity smart contracts live.

Parallel inferenceWASM + EVMFlux.1 + Llama

Q4 2024Testnet 02 · Completed

Finney

OPoC consensus implemented. Third-party node operators join. Slashing and inactivity leak deployed but not enforced with real tokens. WASM-defined AI Agents with IPFS-based memory and configuration storage.

OPoC consensusThird-party nodesAI Agents (WASM)IPFS storage

Q2 2025Testnet 03 · Completed

Turing α

Threshold Signature Scheme (TSS) enables nodes to sign transactions on behalf of AI Agents on any blockchain. Inference batching for parallel execution. Slashing and inactivity leak activated with testnet tokens. Agents can now control real crypto assets.

TSS + distributed keysCross-chain signingInference batchingSlashing active

Now · LivePhase 01 · Live

ShannonBootstrap

Single-cluster nodes, no staking required. Serves efficient open-weights LLMs and image diffusion. Eight GPU configurations supported, minimum two GPUs (Pro6K is the single-card exception). Buy-back-and-burn active from day one. This phase runs the external revenue engine that bootstraps the token's economic floor before mainnet.

LiveNo staking2× 4090 baseline2/4× 50902/4× L40s1/2× Pro6KOPoC verificationEncrypted binaries

SoonPhase 02 · Coming next

HopfieldSharded inference

Multiple machines joined into a single logical serving unit. Model weights split across the cluster, unlocks frontier-class models the market pays premium rates to access. Single GPU entry point opens the network to consumer users and gamers for the first time. OPoC verification extends cleanly into the sharded regime.

Multi-machine clustersFrontier modelsSingle GPU entryConsumer market opens

SoonPhase 03 · Mainnet

UOMI MainnetFull OPoC + Staking

All Phase 01 and 02 configurations continue operating. Full OPoC consensus activates at L1 level. TEE Web2 Oracles let AI Agents access Web2 data and subscriptions with minimized trust assumptions and latency. A TSS-enabled bridge with relayers enables trustless bridging of blockchain assets between UOMI and other chains. A Finite State Automata system gives agents autonomous transaction triggering. Node operators gain the option to stake $UOMI to secure the blockchain, staking rewards layer on top of inference earnings. The UOMI DAO launches, and the autonomous AI Agent layer built during the testnet era goes live on the production chain.

All previous configsFull OPoC at L1TEE Web2 OraclesTSS-enabled bridgeFinite State AutomataStake-backed OPoCSlashing engagedUOMI DAOAI Agents on mainnet

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