Iraquin Protocol

A verification-first settlement layer for compute-intensive systems

Enabling AI, financial engines, and off-chain computation to settle without global re-execution

The Compute Problem

blockchains bind consensus to a canonical execution environment. That works for simple transactions. It breaks for compute-heavy systems.

Gas Explosion

Complex AI models and heavy logic cause gas costs to scale rapidly when executed directly on-chain

~15 TPS

Ethereum processes roughly 15 transactions per second — modern AI systems require thousands

Trust Gap

Decentralized compute networks exist — but without native, trustless on-chain settlement of results

Execution does not belong inside consensus. Verification does.

What is Iraquin?

Iraquin is a blockchain built around verification-first settlement. Instead of binding consensus to execution, Iraquin validates externally computed state transitions through modular proof systems.

While operating as an independent chain, Iraquin is designed to serve as settlement infrastructure for compute networks, AI systems, and other blockchain ecosystems requiring verifiable state transitions.

Architectural Contrast

Core Model

State Machine Replication

Proof Validated Settlement

State Transition Function

VM defined and canonical

Defined by proof class

Execution Role

Defines Validity

Generates candidate state-diff

Rollback Handling

Reorganization possible

Forward correction only

Consensus Responsibility

Agree on execution result

Agree on intents + validate proofs

Compute Environment

Constrained to VM

Native external environments

Core Properties

Verification, Not Replication

Traditional blockchains replicate execution across validators. Iraquin verifies outcomes instead, eliminating redundant computation while preserving deterministic state evolution.

On-Chain AI Settlement

AI inference runs off-chain and settles on-chain through verifiable proofs. AI decisions that move capital can be audited and enforced without global re-execution.

Pluggable Verification Layer

TEE attestations, Optimistic fraud proofs and zk verification supported as the network evolves. Iraquin verifies proofs — not execution.

No Rollback. Deterministic Finality.

Once ordered, state is never reverted. Invalid execution is resolved through forward correction, preserving a linear and auditable history.

Unbounded Off-Chain Compute

Heavy computation executes off-chain and settles through deterministic state diffs. Execution is not constrained by on-chain VM gas limits.

Explore the Protocol

Dive deeper into the architecture, roadmap, and technical design.

Read Whitepaper →

Protocol Roadmap

PHASE 1

Protocol Foundation

Establish the verification-first settlement layer and launch a public testnet to validate deterministic proof defined state transitions.

PHASE 2

Mainnet & Verifiable AI Activation

Launch mainnet with economically secured verification and enable verifiable AI governance and external compute settlement.

PHASE 3

Decentralization & Ecosystem Expansion

Transition towards DAO-driven governance while expanding ecosystem integration and stregthening marketplace adoption.

PHASE 4

Network Maturity & Global Integration

Scale iraquin as a cross chain verification infrastructure layer with advanced proof support and broad institutional adoption.