BTQ Technologies Corp., a global leader in quantum technology, has launched its Quantum Proof-of-Work (QPoW) Simulator, a publicly accessible platform that demonstrates a fully quantum-native mining algorithm. Designed to function on quantum hardware while remaining verifiable using classical systems, this development marks a significant advancement toward safeguarding digital assets from emerging quantum threats.
The newly released simulator provides a quantum-based equivalent to the widely used SHA-256 Proof-of-Work system used in Bitcoin. It enables developers, researchers, and blockchain miners to explore a quantum-secure consensus model that retains compatibility with existing classical infrastructure. The company has framed this initiative as a foundational step in future-proofing the digital asset space against evolving cybersecurity risks posed by quantum computing advancements.
BTQ’s announcement follows recent recognition from the Quantum Internet and Networked Systems Alliance (QuINSA), which adopted QPoW as the first consensus work item in its baseline standard. BTQ has also been appointed as the chair of the alliance’s quantum communications working group, further cementing the company’s role in shaping upcoming global standards for quantum-secure blockchain technology.
Through this simulator, users can witness live mining cycles that showcase measurable quantum advantage via coarse-grained boson sampling. The platform allows adjustment of several operational parameters—such as photon count, optical modes, and measurement bins—enabling a deeper understanding of the performance-security trade-offs involved. It also features interactive analytics tools to validate mining submissions through statistical checks like total-variation-distance and peak-bin-percentage evaluations.
A key technical benefit of QPoW lies in its energy efficiency. Unlike traditional Proof-of-Work systems that rely on brute-force hashing and are prone to escalating energy consumption, QPoW leverages the quality of photonic hardware. The algorithm decouples mining difficulty from power usage, allowing network security to scale without a proportional increase in resource demand.
BTQ Launches World's First Quantum Proof-of-Work Simulator, Delivering the First Commercial Demonstration of Quantum Advantage in Blockchain Consensus 🔗 https://t.co/MiOnJ1uqoy $BTQ $BTQQF pic.twitter.com/YXEZqzBUh0
— BTQ Technologies (@BTQ_Tech) July 8, 2025
The QPoW mechanism shifts the consensus task from hash inversion, which is vulnerable to quantum speed-ups such as Grover’s algorithm, to boson sampling—an inherently hard quantum problem. This renders the system resistant to known quantum attacks while maintaining a level playing field among quantum mining devices.
— BTQ Technologies (@BTQ_Tech) July 8, 2025
BTQ’s initiative also aligns with growing international momentum toward mandatory quantum readiness. In the European Union, the Coordinated Implementation Roadmap mandates member states to commence migration to post-quantum cryptography by 2026 and protect critical infrastructure by 2030. Similarly, the U.S. National Institute of Standards and Technology (NIST) took a significant step in March 2025 by designating the HQC algorithm as a post-quantum standard. These policy shifts reflect a clear directive to transition from theoretical preparedness to real-world implementation.
The systemic importance of quantum-secure transaction systems was recently emphasized at a high-level conference hosted by the Bank for International Settlements. At this event, 39 central banks reportedly acknowledged the necessity for quantum-resistant ledger technology in future monetary systems. QPoW’s hybrid architecture—quantum-native yet verifiable through classical methods—positions it as a viable candidate for central bank digital currency pilots and other high-value financial applications.
This latest development forms part of BTQ’s broader quantum technology roadmap. The company recently announced the Quantum Stablecoin Settlement Network (QSSN), designed to extend quantum security to tokenized fiat currencies. It also initiated a strategic collaboration with QPerfect to validate the QPoW algorithm on neutral-atom quantum processors.
BTQ’s efforts reflect a commitment to delivering a practical and scalable quantum advantage through its end-to-end technology stack. By addressing energy efficiency, post-quantum resilience, and regulatory alignment, the QPoW initiative paves the way for accelerated adoption of quantum-secure blockchain solutions in both public and institutional contexts.
