Litcius/Paper detail

One Gate Scheme to Rule Them All: Introducing a Complex Yet Reduced Instruction Set for Quantum Computing

Jianxin Chen, Dawei Ding, Weiyuan Gong, Cupjin Huang, Qi Ye

202410 citationsDOI

Abstract

The design and architecture of a quantum instruction set are paramount to the performance of a quantum computer. This work introduces a gate scheme for qubits with XX + YY coupling that directly and efficiently realizes any two-qubit gate up to single-qubit gates. First, this scheme enables high-fidelity execution of quantum operations, especially when decoherence is the primary error source. Second, since the scheme spans the entire SU(4) group of two-qubit gates, we can use it to attain the optimal two-qubit gate count for algorithm implementation. These two advantages in synergy give rise to a quantum Complex yet Reduced Instruction Set Computer (CRISC). Though the gate scheme is compact, it supports a comprehensive array of quantum operations. This may seem paradoxical but is realizable due to the fundamental differences between quantum and classical computer architectures.

Topics & Concepts

Quantum computerQuantum gateQubitComputer scienceQuantum error correctionControlled NOT gateQuantum circuitQuantum decoherenceQuantum networkQuantum algorithmScheme (mathematics)Set (abstract data type)Universal setTopology (electrical circuits)Theoretical computer scienceAlgorithmQuantum mechanicsQuantumPhysicsMathematicsElectrical engineeringEngineeringMathematical analysisProgramming languageQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum-Dot Cellular Automata