Quantum eMotion Completes Simulation Proving Cryptography Resists Quantum Attacks

Quantum eMotion Corp. has successfully completed an internal quantum simulation project evaluating its Sentry-Q cryptographic architecture in collaboration with PINQ², using IBM's Qiskit framework to simulate Grover's algorithm. The study shows that the integration of Quantum eMotion's proprietary Quantum Random Number Generator (QRNG) significantly increases oracle complexity and circuit depth, thereby reducing the success rate of quantum attacks, particularly at real-world key sizes like 256 bits where the algorithm would require about 2¹²⁸ iterations to succeed. This finding supports the company's security-by-design approach and strengthens confidence in Sentry-Q's resistance to quantum attacks. Quantum eMotion plans to advance this work by developing hybrid testbenches and real-time emulation of cryptographic architectures enhanced with QRNG under constrained computing conditions, aiming to validate security features in embedded and edge computing environments. The company targets sectors such as Financial Services, Healthcare, Blockchain, and Cloud IT Security, leveraging its quantum-secure technologies to protect high-value assets and critical systems. Despite current financial challenges, these technological advancements position Quantum eMotion as a potential leader in the post-quantum cybersecurity landscape.