MUMBAI, India, June 30 -- Intellectual Property India has published a patent application (202641075546 A) filed by Vellore Institute Of Technology on June 18, 2026, for System And Method For Quantum-Inspired Real-Time Adaptive Decision Routing And Multi-Parameter Optimization In Distributed Computing Infrastructure.
Inventors include M. Malathi; Shlok Kumar Goenka; and Raghav Tibrewal.
The application for the patent was published on June 26, 2026, under issue no. 26/2026.
Abstract: ABSTRACT The present invention discloses a Quantum-Inspired Adaptive Decision Routing (QIADR) apparatus and method for real-time multi-variable optimization in distributed computing infrastructure. The apparatus comprises a Physical Domain (100) including Edge Nodes (110, 120), IoT Gateways (130), Load Balancers (140), and Network Telemetry Sensors (150), a Quantum-Inspired Processing Core (200), and a Decision Output & Actuation domain (300). Routing and resource allocation variables received through the Input Network Telemetry Signal (200) are encoded as simulated quantum superposition state vectors using a State Vector Encoder (210). A Coupling Matrix Module (220) propagates correlated updates among interdependent variables, while an Interference Calculator (230) amplifies optimal routing paths and suppresses suboptimal alternatives. An Entropy Monitoring Module (240) dynamically determines routing commitment through a Measurement Collapse Path (260). Routing decisions are transmitted through a Hardware Actuation Interface (270) and continuously calibrated through a Telemetry Feedback Loop (400), thereby improving routing accuracy, throughput, and latency in heterogeneous network environments. FIG. 1.
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