FJ-II VIVA (BATCH-2)

1234567891011121314151617181920
Across
  1. 5. Abstract machine model underlying classical computability theory
  2. 8. Measurement outcome probabilities are obtained by taking modulus square of
  3. 10. Inner product ⟨ψ|φ⟩ defines this fundamental geometric property
  4. 13. If two states are orthogonal, their inner product evaluates to
  5. 16. Two-qubit gate flipping target conditioned on control qubit
  6. 17. Metric counting sequential layers of gates in a circuit
  7. 18. Condition where two states have zero inner product
  8. 19. Sum of probabilities of all measurement outcomes equals this value
  9. 20. Single-qubit gate creating equal superposition from basis states
Down
  1. 1. Exponential state-space exploration via superposition
  2. 2. Circuit simplification by eliminating redundant gates
  3. 3. Number of basis states in a 3-qubit system
  4. 4. Process of reducing gate count and circuit depth
  5. 6. Property ensuring no information loss in quantum gates
  6. 7. Mathematical structure used to represent quantum states
  7. 9. Process of expressing a state as a linear combination of basis vectors
  8. 11. Algorithm distinguishing constant vs balanced functions in one query
  9. 12. Error arising due to interaction with environment
  10. 14. Deutsch-Jozsa algorithm provides this type of speedup
  11. 15. Non-classical correlation exploited in quantum information tasks