实现实用的量子计算机需要在硬件和软件方面都取得突破。
Understanding the fundamental limits of quantum computation is crucial for its future development.
理解量子计算的基本限制对其未来发展至关重要。
The interplay between quantum mechanics and information theory is at the heart of quantum computing.
The interplay between quantum mechanics and information theory is at the heart of quantum computing.
量子力学和信息理论之间的相互作用是量子计算的核心。
Topological quantum computing offers a promising path to fault-tolerant quantum computation.
拓扑量子计算为容错量子计算提供了一条有前途的路径。
The key to advancing quantum computing lies in the development of robust quantum algorithms and error-correcting codes.
推进量子计算的关键在于开发强大的量子算法和纠错码。
Quantum error correction is not just a theoretical concept; it is a practical necessity for building scalable quantum computers.
量子纠错不仅仅是一个理论概念;它是构建可扩展量子计算机的实际需求。
The most exciting aspect of quantum computing is the potential to solve problems that are currently intractable for classical computers.
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