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Summarize this text. Text: A quantum computer exploits quantum mechanical phenomena to perform calculations exponentially faster than any modern traditional computer. At very tiny scales, physical matter acts as both particles and as waves, and quantum computing uses specialized hardware to leverage this behavior. The operating principles of quantum devices is beyond the scope of classical physics. When deployed at scale, quantum computers could be used in a wide variety of applications such as: in cybersecurity to break existing encryption methods while helping researchers create new ones, in meteorology to develop better weather forecasting etc. However, the current state of the art quantum computers are still largely experimental and impractical.

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Prompt:
Summarize this text.
Text: A quantum computer exploits quantum mechanical phenomena to perform
calculations exponentially faster than any modern traditional computer. At very
tiny scales, physical matter acts as both particles and as waves, and quantum
computing uses specialized hardware to leverage this behavior. The operating
principles of quantum devices is beyond the scope of classical physics. When
deployed at scale, quantum computers could be used in a wide variety of
applications such as: in cybersecurity to break existing encryption methods
while helping researchers create new ones, in meteorology to develop better
weather forecasting etc. However, the current state of the art quantum
computers are still largely experimental and impractical.

🎉 Task executed successfully. Here is the response:

---

Quantum computers utilize quantum mechanical phenomena to perform calculations significantly faster than traditional computers. They exploit the particle-wave duality of matter at tiny scales. The operating principles of quantum computers extend beyond classical physics. Once fully developed, they could have vast applications, including breaking current encryption methods and improving weather forecasting. However, current quantum computers are still largely experimental and impractical.

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