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I can provide information on the current state and trends of quantum computing.

Scalable quantum computing refers to the development of quantum computers that can handle a large number of qubits while maintaining the necessary control and coherence to perform complex computations. While quantum computing is still in its early stages, significant progress has been made in recent years, and many experts in the field are optimistic about the potential for scalable quantum computing to emerge.

Several technological approaches are being pursued to achieve scalability in quantum computing. These include superconducting qubits, trapped ion systems, topological qubits, and others. Each approach has its own set of challenges and advantages, and active research is ongoing to address these issues.

The number of qubits in quantum computers has been steadily increasing, and milestones have been reached, such as achieving quantum supremacy, which is when a quantum computer outperforms classical computers on a specific task. However, it's important to note that current quantum computers are still relatively small-scale and face various technical challenges in terms of qubit quality, error rates, and decoherence.

There is a growing community of researchers, engineers, and companies worldwide actively working on improving the technology, developing error-correcting codes, and advancing the understanding of quantum algorithms and applications. As a result, it is conceivable that scalable quantum computing systems will continue to evolve and emerge over time.

However, it is difficult to predict precisely when or how scalable quantum computing will become a reality. It depends on numerous factors, including technological advancements, investment in research and development, breakthroughs in error correction, and improvements in qubit quality and stability.

While the path to scalable quantum computing may be challenging, many experts believe that it holds tremendous potential for solving complex problems in areas such as cryptography, optimization, drug discovery, materials science, and more. Continued progress and innovation in the field could ultimately lead to the realization of scalable quantum computing systems in the future.

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