Looking ahead, Google is poised to accelerate the path toward practical quantum computing by advancing both superconducting and neutral atom technologies in parallel. This complementary approach strengthens scalability, performance and flexibility, enabling progress in quantum error correction, system architecture and real-world applications. As collaboration with leading research institutions deepens and engineering challenges are steadily overcome, the prospect of commercially viable quantum systems by the end of the decade becomes increasingly realistic, opening the door to solving complex problems that are beyond the reach of classical computing.
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**Submission Statement**
Looking ahead, Google is poised to accelerate the path toward practical quantum computing by advancing both superconducting and neutral atom technologies in parallel. This complementary approach strengthens scalability, performance and flexibility, enabling progress in quantum error correction, system architecture and real-world applications. As collaboration with leading research institutions deepens and engineering challenges are steadily overcome, the prospect of commercially viable quantum systems by the end of the decade becomes increasingly realistic, opening the door to solving complex problems that are beyond the reach of classical computing.