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KINDS OF COMPUTERS

KINDS OF COMPUTERS. Classical Computer. Computable Tractable Problem. Efficient solution. Standard. Quantum Computer. Computable Intractable Problem. Hybrid. Adiabatic. Non computable Problem. Hyper- computer. Infinite. Kieu's Algorithm. Diophantine Equation. Quantum System.

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KINDS OF COMPUTERS

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  1. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  2. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  3. KINDS OF COMPUTERS Classical Computer Computable Tractable Problem Efficient solution Standard Quantum Computer Computable Intractable Problem Hybrid Adiabatic Non computable Problem Hyper- computer Infinite SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  4. Kieu's Algorithm Diophantine Equation Quantum System Coherent state Solution state SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  5. Two sources of Kieu's Algorithms Quantum System Dynamical Algebra Coherent States Ortho- normalized Polynomials Generalized Oscillator SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  6. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  7. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  8. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  9. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  10. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  11. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  12. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  13. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  14. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  15. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  16. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  17. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  18. REFERENCES • T. D. Kieu, “Computing the non-computable,” Contemporary Physics 44(1), pp. 51–71, 2003. • T. D. Kieu, “Quantum algorithm for the Hilbert’s tenth problem,” Int. J. Theor. Phys. 42(7), pp. 1461–1478, 2003. • T. D. Kieu, “Quantum hypercomputation,” Minds and Machines 12, pp. 541–561, 2002. • T. D. Kieu, “Numerical simulations of a quantum algorithm for Hilbert’s tenth problem,” in Quantum Information and Computation, E. Donkor, A. R. Pirich, and H. E. Brandt, eds., Proc. of SPIE 5105, pp. 89–95, SPIE, Bellingham, WA, 2003. • T. D. Kieu, “Hypercomputation with quantum adiabatic processes,” Theoretical Computer Science 317, pp. 93–104, 2004. • T. D. Kieu, “A reformulation of Hilbert’s tenth problem through quantum mechanics,” Proc. R. Soc. Lond. A 460, pp. 1535–1545, 2004. • J. P. Antoine et al., “Temporally stable coherent states for infinite well and P¨oschl-Teller potentials,” Math. Phys. 42(6), pp. 2349–2387, 2001. • A. Sicard, J. Ospina, and M. Velez, “Numerical simulations of a possible hypercomputational quantum algorithm,” in Proceedings 7th International Conference on Adaptative and Natural Computing Algorithms - ICANNGA 2005, B. Ribeiro, ed., Springer-Verlag, (University of Coimbra, Portugal), 21st - 23rd March 2005. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

  19. SPIE 05, QIC III, EAFIT University Orlando, USA – March 28 April 1 2005

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