What question did this study set out to answer?

The aim is to present PauliEngine, a framework that optimizes symbolic arithmetic for quantum operations.

February 11, 2026Open Access

PauliEngine: High-Performant Symbolic Arithmetic for Quantum Operations

Key Points

The aim is to present PauliEngine, a framework that optimizes symbolic arithmetic for quantum operations.
Developed a C++ framework with efficient primitives for Pauli string operations.
Implemented binary symplectic representation and optimized bitwise operations.
Created a Python interface for accessibility and ease of use.
PauliEngine achieves substantial speedups compared to existing implementations.
Supports both numerical and symbolic coefficients, enhancing flexibility.

Abstract

Quantum computation is inherently hybrid and fast classical manipulation of qubit operators is necessary to ensure scalability in quantum software. We introduce PauliEngine, a high-performance C++ framework that provides efficient primitives for Pauli string multiplication, commutators, symbolic phase tracking, and structural transformations. Built on a binary symplectic representation and optimized bitwise operations, PauliEngine supports both numerical and symbolic coefficients and is accessible through a Python interface. Runtime benchmarks demonstrate substantial speedups over state-of-the-art implementations. PauliEngine provides a scalable backend for operator-based quantum-software tools and simulations.

PauliEngine: High-Performant Symbolic Arithmetic for Quantum Operations

Key Points

Abstract

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