A Quantum ISA for High-Level Programming, Enabling Sequential Execution and Conditional Branching

This paper introduces a novel quantum instruction set architecture that abstracts quantum circuits to support high-level programming paradigms, including sequential execution and branching. By separating concerns between hardware and software, the proposed architecture simplifies quantum algorithm development, allowing programmers to work with classical structures while still being able to exploit quantum-specific behavior . This abstraction enables developers to focus on algorithm design without being burdened by low-level circuit construction, thus facilitating both hardware optimization and software innovation. The proposed architecture represents a step forward in bridging the gap between classical and quantum programming.