The beauty of quantum computing lies in its ability to harness the peculiarities of quantum mechanics for computational advantage.
量子计算的美在于它能够利用量子力学的特性来获得计算优势。
The development of quantum computing requires a multidisciplinary approach, combining physics, mathematics, and computer science.
量子计算的发展需要一种多学科的方法,结合物理学、数学和计算机科学。
Understanding the complexity of quantum systems is key to unlocking their computational potential.
理解量子系统的复杂性是释放其计算潜力的关键。
The future of quantum computing lies in the integration of theoretical insights and experimental advancements.
量子计算的未来在于理论洞察和实验进展的整合。
Quantum algorithms reveal the power of quantum mechanics in ways that classical algorithms cannot.
量子算法以经典算法无法做到的方式揭示了量子力学的力量。
The challenge in quantum computing is not just to build a quantum computer, but to understand what it can do.
量子计算的挑战不仅在于建造量子计算机,还在于理解它能做什么。
The interplay between quantum mechanics and computer science opens up new frontiers in both fields.
量子力学和计算机科学之间的相互作用为这两个领域开辟了新的前沿。
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。
Quantum computing represents a new paradigm in information processing.
The future of quantum computing will depend on our ability to control and manipulate quantum systems with high precision.
量子计算的未来将取决于我们高精度控制和操纵量子系统的能力。
Collaboration across disciplines is key to advancing quantum computing research.
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