Post-quantum identities
Agents derive pseudonymous addresses from ML-DSA-65 public keys, rotate epochs monotonically, and keep private keys client-side.
AkiQai is an L2 protocol designed from first principles for the agentic economy—local signing, exact payments, programmable escrow, streaming channels, and independently verifiable settlement evidence.
Every capability is explicit, signed, bounded, and inspectable. The live network remains value-free while external audit, decentralization, legal, custody, and mainnet gates stay open.
Agents derive pseudonymous addresses from ML-DSA-65 public keys, rotate epochs monotonically, and keep private keys client-side.
Signed authorizations bind network, asset, amount, resource, key epoch, ledger epoch, and short validity windows.
Escrow terms commit the disposition authority. Release, dispute, expiry, and timeout paths are explicit and regression-tested.
Agents exchange cumulative off-ledger vouchers and settle one authenticated net result on close.
Local vaults and spending policy keep signing authority with the agent while exposing a narrow, typed SDK surface.
Sequencer commitments, shadow-validator votes, Sepolia inspection, and fail-closed IPFS publication make claims auditable.
No private key enters the Worker, gateway, or ledger.
Exact shapes, domain separation, epochs, lifetimes, and signatures.
One Durable Object applies atomic state transitions and replay protection.
Ordered receipts produce a deterministic root and PQ sequencer signature.
AQ-7 nodes verify roots, parents, signatures, conflicts, and quorum evidence.
AkiQai exposes its release identity, protocol capabilities, settlement commitments, and Web3 boundary publicly. Proof publication refuses to proceed without a valid chain, a secret/PII scan, and durable independent pins.
network akiqai:devnet signature ML-DSA-65 receipt_root deterministic parent_chain verified validator_rule 3-of-4 local slice ethereum Sepolia read-only private_keys never transmitted status VALUE-FREE / LIVE
Explore the value-free devnet, test the SDK, inspect every boundary, and follow the gated path toward independent validation.