As quantum computing rapidly evolves, researchers and developers require sophisticated tools to program and experiment with quantum systems. Cirq, an open source quantum computing framework developed by Google, has become a valuable resource in this realm. Designed specifically for building and executing quantum algorithms on quantum computers, Cirq offers a comprehensive and flexible platform. It bridges the gap between theoretical quantum computing research and practical applications, making it a powerful tool for those in the quantum computing field.
Cirq is an open source framework primarily intended for designing, simulating, and running quantum circuits on near-term quantum computers, specifically those based on quantum gates. Written in Python, it is well-suited for researchers and developers with experience in quantum mechanics or quantum programming who aim to experiment with, optimise, and deploy quantum algorithms on quantum hardware or simulators.
The framework is designed with noisy intermediate-scale quantum (NISQ) devices in mind. NISQ devices, which represent the current state of quantum computing hardware, contain a limited number of qubits and are affected by noise and errors. Cirq's focus on NISQ-era computers makes it especially relevant, as it provides tools for addressing challenges associated with running algorithms on noisy, low-qubit systems.
Special features of Cirq
Cirq's development is guided by its suitability for practical quantum computation, particularly with NISQ devices. Here are some of its standout features.
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