The board wants a quantum advantage now, not in the distant future. The focus shifts from perfect qubits to leveraging noisy ones for measurable business value, emphasizing pragmatic error mitigation.
Topological Framework Exploiting Quantum Error Correction
The H.O.T. Framework is a three-layer system designed to enhance the performance of NISQ hardware. This framework acknowledges and exploits the hardware’s quirks to achieve results beyond perceived limits. The system is designed to provide value today, without waiting for technological breakthroughs.
Layered Approach to Topology-Inspired Quantum Error Correction
The first layer is V5 Orphan Measurement Exclusion, which identifies and discards anomalous shots before contaminating the signal. This is followed by Recursive Geometric Circuitry, embedding error mitigation into the circuit structure using self-similar patterns. The final layer focuses on ECDLP on real hardware, utilizing noise-robust subroutines and mapping them onto error-mitigated gate patterns.
Quantum Error Correction via Topological Circuit Design
Job ID `qiskit-provider-real-device-b1a3c7` successfully recovered a 21-qubit ECDLP key. This indicates that complex calculations, thought impossible on current hardware, can be achieved through this approach. These circuits are performing exceptionally well, even exceeding the average T2 time of the qubits involved.
Topologically Governed Quantum Systems for Practical Error Mitigation
The focus should be on managing and leveraging system properties rather than viewing noise as a barrier. The emphasis is on producing tangible outcomes on existing hardware, and not the theoretical work. The key question is not if quantum computing will break crypto, but when.
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