MUMBAI, India, June 22 -- Intellectual Property India has published a patent application (202641069917 A) filed by Chaitanya Bharathi Institute Of Technology; Mr. Sumanth Vadlamani; Mr. K. Gangadhara Rao; Dr. T. Satyanarayana Murthy; Prof. Sangeeta; Dr. Ramu Kuchipudi; Dr. N Sudhakar Yadav; Dr. B. Swathi Sowmya Bavirthi; Rudroju Sai Venkat; Dr. M Ramchander; and Mrs. Swathi Kothapalli on June 04, 2026, for Comprehensive Methodology For Quantum Circuit Design Featuring Advanced Error Correction Mechanisms.
Inventors include Mr. Sumanth Vadlamani; Mr. K. Gangadhara Rao; Dr. T. Satyanarayana Murthy; Prof. Sangeeta Gupta; Dr. Ramu Kuchipudi; Dr. N Sudhakar Yadav; Dr. B. Swathi Sowmya Bavirthi; Rudroju Sai Venkat; Dr. M Ramchander; and Mrs. Swathi Kothapalli.
The application for the patent was published on June 12, 2026, under issue no. 24/2026.
Abstract: The present invention relates to a comprehensive methodology for quantum circuit design featuring advanced error correction mechanisms. The methodology comprises generation of optimized quantum circuits, intelligent allocation of logical qubits to physical qubits, optimization of gate operations, continuous monitoring of quantum states, detection of computational errors, syndrome extraction, adaptive error correction, predictive fault analysis, fault-tolerant execution, resource optimization, and output validation. The invention continuously identifies and mitigates errors arising from decoherence, environmental disturbances, gate imperfections, and quantum noise. An adaptive correction framework dynamically selects suitable quantum error correction techniques based on runtime operational conditions. A predictive analytics engine forecasts potential fault conditions and initiates preventive corrective actions to minimize error propagation. The methodology further supports dynamic resource reassignment and computational recovery for maintaining execution continuity. The proposed framework significantly improves computational reliability, scalability, fault tolerance, and operational efficiency, thereby enabling practical deployment of advanced quantum computing systems across scientific, industrial, cryptographic, optimization, and artificial intelligence applications.
Disclaimer: Curated by HT Syndication.
