Chapitre III · Mécanique
Detection, simulation, submission, settlement.
The engine observes Base's mempool with sub-block-time latency, classifies opportunity against a strategy graph, validates outcome against a forked simulation, and submits to the sequencer along a private channel.
§ 04 — Mécanique · the engine
Detection, simulation, submission, settlement.
The engine observes Base's mempool with sub-block-time latency, classifies opportunity against a strategy graph, validates outcome against a forked simulation, and submits to the sequencer along a private channel.
01. OBSERVATION
Continuous observation of mempool and attested oracle lanes, normalized into a single execution clock.
02. DÉTECTION
Opportunity classification against the strategy graph; invariants enforced before any capital is touched.
03. SIMULATION
Forked execution against current state roots; slippage, fees, and liquidation surfaces computed to the basis point.
04. EXÉCUTION
Submission along private channels where required; inclusion tracked to settlement with signed receipts.
§ 06 — Substrat · why Base
Anchored to Coinbase. Settled in USDC.
Base offers regulatory clarity at the L2 boundary while preserving Ethereum's settlement assurances — a posture that matches how institutional desks already reason about Coinbase-adjacent infrastructure.
Native USDC depth on Base reduces stablecoin basis risk across flash and credit legs, which in turn tightens oracle disagreement bands and reconciliation variance.
The Coinbase sequencer profile and institutional brand alignment matter when correspondence with allocators references a single, named operator rather than an anonymous validator set.
Block times and fee levels make fine-grained reconciliation events economical on-chain; the protocol can emit attestations at the frequency auditors expect without distorting execution economics.