Institutional-Grade
Blockchain
Infrastructure.
Engineered for high-stakes financial environments: SXIAUM delivers unparalleled security, true finality, and limitless scalability through a deterministic sharding architecture. The foundation for the next generation of global capital markets.
A MEV-Resistant, Parallel-Execution
Layer 1 Blockchain
with Verkle State Cryptography
SXIAUM
Max TPS
Contract TPS
Time to Finality
Block Time
State Proof Size
Parallel Efficiency
High-throughput 4,500+ Max TPS with 1,200+ parallel smart contract execution.
Sub-second 1.2-second deterministic block finality & 1.0s block propagation.
Succinct ~2.5 KB Verkle state proof size with an 8.5x parallel OCC speedup.
Core Principles
Designed from first principles to solve the blockchain trilemma for enterprise deployment.
Native Commit-Reveal
MEV Elimination
MEV protection is a foundational protocol property. Transaction intent is encrypted via SHA-256 commitments C(Tx, r) prior to ordering, eliminating frontrunning, sandwich attacks, and JIT liquidity (π* = 0).
100% EVM Equivalent
& Native Tooling
Zero developer migration tax. Deploy any Solidity smart contract unmodified using MetaMask, Hardhat, Foundry, and standard eth_ RPC methods transparently wrapped with Commit-Reveal protection.
Parallel EVM & OCC
Execution Engine
Throughput via algorithmic innovation rather than hardware escalation. Optimistic Concurrency Control (OCC) and EIP-2930 Access Matrix routing deliver 4,500+ TPS with an 8.5x parallel speedup.
Zero-Cost Abstractions
& Memory Safety
Implemented entirely in Rust for maximum throughput, deterministic runtime safety, and zero garbage collection. Powered by libp2p P2P networking and embedded redb storage.
Verkle State Trees
& ZK-Provable Runtime
Replaces legacy Merkle Patricia Tries with 256-branch Verkle Trees (IPA/KZG polynomial commitments), reducing proof sizes by 40x to ~2.5 KB. Fully ZK-provable using SP1 and Groth16.
& Frontrunning Protection
& 4,500+ Parallel EVM TPS
& ZK-Provable Cryptography