Quantum Systems Research
Building the foundation of the quantum future — from chips and compilers to entangled networks and cloud orchestration.
Purpose-Built Quantum Infrastructure
Yazhvin’s quantum team designs end-to-end systems spanning hardware, error correction, quantum compilers, and application-layer orchestration. Our ambition is to enable scalable, fault-tolerant quantum computing accessible to researchers and industries worldwide.
We build quantum silicon with atomic-level control, develop novel gate sets, simulate qubit interactions, and open-source toolchains that support real-world applications in cryptography, material science, and machine learning.
Research Focus Areas
Quantum Hardware
Custom quantum chips with low-noise control, cryogenic integration, and scalable qubit arrays.
Error Correction
Topological codes and real-time error tracking for reliable computation under decoherence.
Quantum Programming
Domain-specific languages, visual debuggers, and optimization-aware compilers.
Hybrid Algorithms
Bridging classical-quantum interfaces for ML, simulation, and cryptography.
Simulation & Emulation
Large-scale emulators to test quantum circuits in classical supercomputing environments.
Cloud Orchestration
Secure APIs and edge-cloud platforms to distribute quantum workloads globally.
Engineering the Quantum Internet.
We’re looking for physicists, system architects, and quantum theorists to build this future with us.