SHARDPROOF
The Problem
On-chain data exists in fragments. Transactions, state transitions, and protocol events scatter across blocks, chains, and execution layers. Trust is assumed. Verification is manual. Truth is opaque.
The infrastructure lacks integrity. Systems ingest data without proof. Validators trust without verification. The signal is fractured.
The Solution
ShardProof reconstructs fragmented on-chain signals into verified truth through zero-knowledge proof mechanisms. It ingests raw blockchain data, validates cryptographic integrity, and outputs trust-minimal proof streams in real time.
Every data point is reconstructed. Every state transition is verified. Every output is provable.
Architecture
Proof Reconstruction Layer
Fragments are collected from multiple chains and execution environments. ZK circuits validate each shard's integrity before reconstruction begins. Invalid shards are rejected at ingestion.
Data Integrity Mesh
A distributed verification network cross-references reconstructed states against cryptographic commitments. Consensus is achieved through proof aggregation, not trust.
Real-Time Monitoring Flow
Verified truth is streamed to subscribers with sub-second latency. Every proof includes full reconstruction metadata. Every stream is auditable.
The Outcome
Protocols consume verified data instead of raw signals. Validators operate on proof, not faith. The network state becomes forensically reconstructible at any point in history.
Trust is replaced with proof. Opacity is replaced with verification. Fragmentation is replaced with integrity.