In a landmark achievement for decentralized technology, the Qubic network has officially become the fastest blockchain in history. During a live mainnet test, the Layer 1 protocol reached an unprecedented 15.52 million transactions per second (TPS), as independently verified by the renowned security firm CertiK. This result sets a new industry benchmark for real-world blockchain performance.
Unlike simulated testnet trials or Layer 2 scaling setups, this milestone was accomplished on the live mainnet—without rollups, gas fees, or external dependencies. The test demonstrates Qubic’s native capability to handle extreme transaction volumes with instant finality and zero delay.
Verified Performance Metrics
The stress test was conducted using Qubic’s unique tick-based architecture, which processes transactions in synchronized cycles. While the test ran for an extended period, CertiK’s certification focused on the 10 peak ticks, where the system achieved:
- Peak TPS: 15,527,637
- Total Transfers: 1.518 billion
- Finality: Instant
These metrics place Qubic far ahead of other major networks. For comparison:
- TON reached approximately 104,715 TPS in a simulated testnet environment.
- Solana achieves around 65,000 TPS under ideal conditions.
- Networks like Sui, Aptos, and Arbitrum all operate below 1 million TPS.
Qubic’s performance isn’t just about speed—it’s about redefining what’s possible in decentralized infrastructure.
Designed for Advanced Applications
Qubic’s architecture supports more than just payments or token transfers. Its tick-based model combines atomic consensus, execution, and finality into a single efficient cycle. This opens the door to computationally intensive use cases such as:
- AI Model Training: Running complex inference and deep learning pipelines on-chain.
- DePIN Networks: Supporting real-time data from sensor meshes and geospatial systems.
- Composable DeFi: Enabling sophisticated financial products with instant settlement.
By eliminating gas fees and delays, Qubic provides a scalable foundation for next-generation applications in AI, decentralized physical infrastructure, and even artificial general intelligence (AGI).
Transparency and Auditability
All test data is publicly verifiable. CertiK’s full report and Qubic’s on-chain logs provide complete transparency into the results. Interested users can review:
- Real-time performance visualizations
- Tick-by-tick transaction logs
- The official CertiK audit report
This level of openness ensures that the achievements are not just theoretical but demonstrable and reproducible.
Frequently Asked Questions
What makes Qubic different from other high-speed blockchains?
Qubic uses a tick-based consensus mechanism that processes transactions in batches within synchronized cycles. This allows for atomic execution and instant finality without relying on Layer 2 solutions or off-chain processing.
How can developers build on Qubic?
The network supports smart contracts and decentralized applications tailored for high-throughput use cases. Developers can explore the documentation and tools to begin building AI-driven or DePIN projects.
Is Qubic’s performance sustainable under normal loads?
Yes. The architecture is designed to maintain high efficiency whether under stress-test conditions or during regular operation. Its fee-less model also ensures that costs don’t scale with usage.
What role does CertiK play?
CertiK is a leading security firm that provides formal verification and auditing services for blockchain projects. Their independent validation adds credibility to performance claims.
Can Qubic handle real-time AI processing?
Absolutely. The network’s high throughput and low latency make it suitable for AI inference, training cycles, and other compute-intensive tasks—all executed on-chain.
Are transactions really free?
Yes. Qubic uses a useful Proof-of-Work (uPoW) mechanism that eliminates gas fees. Users can transact without worrying about rising costs during network congestion.
The Future of Decentralized Compute
Qubic’s record-breaking throughput marks a significant step toward scalable, accessible decentralized computing. By supporting complex applications like AI and real-time data systems, it offers a practical infrastructure for the next wave of Web innovation.
For those interested in the technical specifics or development opportunities, detailed resources and network statistics are available online.
This article is for informational purposes only. It is not intended as investment or financial advice. Always conduct your own research and consult with a qualified professional before making financial decisions.