The article discusses the limitations of traditional quantum computing due to the costly infrastructure and exclusive setups required, which restrict its accessibility and impact. However, decentralized quantum computing is emerging as an alternative approach that extends the benefits of quantum computing to a wider range of industries. By distributing computational tasks across decentralized networks, quantum computing can become more accessible, scalable, and energy-efficient. This decentralized model allows businesses, academics, researchers, and developers who previously lacked access to quantum-level computing power to harness its benefits without the high costs. Decentralized quantum networks also have the potential to address industry demands, such as in the automotive industry for advanced simulations, and can generate substantial economic value while aligning with environmental goals. However, security concerns related to data integrity and encryption need to be addressed. Overall, decentralized quantum computing has the potential to democratize advanced problem-solving and pave the way for broader innovation and computational breakthroughs.



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