100,000+ TPS
Sub-second Finality
Enterprise-grade Layer-1 blockchain with Proof of Time (PoT) consensus. Production-ready with BLS12-381 cryptography, VDF time proofs, and RocksDB storage. 50-69% fewer orphan blocks than Solana.
Peak TPS
Parallel execution
Slot Time
Fixed intervals
Finality
Optimistic
Orphan Blocks
vs PoH (Solana)
How Proof of Time Works
A simple yet revolutionary approach: time itself becomes the scarce resource that secures the network
Zamora Technical Stack
- • PoT + PoS Hybrid
- • VDF (RSA-2048)
- • DTB (BLS12-381)
- • GHTS Fork Choice
- • Tower + Rayon
- • Parallel TX Processing
- • 100,000+ TPS
- • Zamora VM
- • QUIC + Turbine
- • Reed-Solomon FEC
- • RocksDB Storage
- • libp2p DHT
VDF Time Proof Generation
Using Wesolowski's RSA-2048 construction, validators compute sequential proofs that cannot be parallelized. Each proof takes exactly 400ms to compute but only microseconds to verify, creating an unstoppable time chain.
DTB Time Anchoring
Distributed timekeepers with atomic clocks provide BLS12-381 threshold-signed timestamps. 2/3+ validator agreement creates tamper-proof time anchors, reducing orphan blocks by 50-69% vs PoH.
Instant Finality & Security
GHTS fork choice with Casper FFG-style checkpoints achieves sub-second optimistic finality. VRF leader election prevents MEV, while HSM integration enables institutional-grade security.
Zamora vs Industry Leaders
| Metric | Zamora | Solana | Sui | NEAR |
|---|---|---|---|---|
| Peak TPS | 100,000+ | 65,000 | 100,000 | 100,000 |
| Slot Time | 400ms | 400ms | 300ms | 1s |
| Finality | <1s | 6.4s | 2-3s | 2s |
| Consensus | PoT+PoS+VDF | PoH+PoS | Narwhal | Nightshade |
| Time Verification | VDF+DTB | PoH | None | None |
| Storage | RocksDB | RocksDB | RocksDB | RocksDB |
Enterprise Architecture
Production-ready infrastructure matching Solana's performance with superior stability
VDF + DTB Consensus
Wesolowski VDF construction (RSA-2048) combined with BLS12-381 threshold-signed timestamps from atomic clock validators. Creates tamper-proof time ordering with 50-69% fewer orphan blocks than PoH.
Enterprise Security
BLS12-381 aggregated signatures, VRF-based leader election preventing MEV, HSM integration for institutional custody, and threshold signatures for Byzantine fault tolerance.
High Performance Stack
Tower+Rayon parallel execution, QUIC+Turbine network propagation, Reed-Solomon FEC, and RocksDB persistent storage. Achieves 100,000+ TPS with sub-second finality.
Development Roadmap
Our journey to revolutionize blockchain consensus
Q1 2025
Current- •Core protocol development
- •Whitepaper v1.0 release
- •Community building
Q2 2025
Testnet- •Public testnet launch
- •Developer SDK release
- •Bug bounty program
Q3 2025
Optimization- •Security audits
- •Performance optimization
- •Partner integrations
Q4 2025
Mainnet- •Mainnet genesis
- •Token generation event
- •Ecosystem launch