Presentation is loading. Please wait.

Presentation is loading. Please wait.

Poomipat Phusayangkul

Published byCharles Leonard Modified over 6 years ago

Similar presentations

Presentation on theme: "Poomipat Phusayangkul"— Presentation transcript:

1 Poomipat Phusayangkul
Quantum Computing Presented by: Poomipat Phusayangkul Monsit Pornnumpa

2 History of QuanTum Computer
The idea of a computational by physicists and computer scientists like: Charles H. Bennett Charles H. Bennett Paul A. Benioff David Deutsch Richard P. Feynman 1982: Feynman explained how such quantum computer would be able to act as a simulator for quantum physics. 1985: Deutsch realized that Feynman's assertion could eventually lead to a general purpose quantum computer and published a crucial theoretical paper. David Deutsch Richard P. Feynman 1994: Unfortunately, all that could be found were a few rather contrived mathematical problems.

3 WHAT is QUANTUM COMPUTER?
Device for computation that makes direct use of superposition and entanglement, to perform operations on data. In a quantum computer, the amount of data is measured by qubits. Quantum properties of particles can be used to represent and structure data.

4 Coherent Superposition
A qubit can exist in states corresponding to a blend or superposition of these classical states. A qubit can exist simultaneously as both 0 and 1. Experiment of Coherent Superposition:

5 Entanglement A quantum mechanical phenomenon in which of two or more objects reference to each other. It is possible to prepare two particles in a single quantum state such when one is spin-up, another one will always spin-down and vice versa. As a result, measurements performed on one system seem to be instantaneously influencing other systems entangled with it. Closely concerned with the emerging technologies of quantum computing, cryptography, and teleportation.

6 Classical VS Quantum Consider first a classical computer that operates on a 3 bit register. Qubits can be in a superposition of all the classically allowed states. For an n qubit quantum register, recording the state of the register requires 2n complex numbers. Number of classical states encoded in a quantum register grows exponentially with the number of qubits.

7 ! QUANTUM POWER ! Quantum computer could solve Integer factorization problem easily. Most of the popular public key ciphers could be much more quickly broken, including forms of RSA, ElGamal and Diffie-Hellman. The time for a quantum computer to solve a problem will, reducing from years to seconds. Quantum chip Consider a problem that has these four properties: The only way to solve it is to guess answers repeatedly and check them. There are n possible answers to check. Every possible answer takes the same amount of time to check. There are no clues about which answers might be better: generating possibilities randomly is just as good as checking them in some special order.

8 Obstacle in building Quantum Computer
The field of quantum information processing has made numerous promising advancements since its conception, However, a few potentially large obstacles still remain that prevent us from just building one. an ion-trap the core of a quantum computer Below are the list of requirements for a practical quantum computer: scalable physically to increase the number of qubits qubits can be initialized to arbitrary values quantum gates faster than decoherence time Turing-complete gate set qubits can be read easily What errors need correction? To date, the designs of quantum computer involved ion traps, cavity quantum electrodynamics (QED), and NMR.

9 THE END Reference http://en.wikipedia.org/wiki/Quantum_computer
In Thai Reference

Download ppt "Poomipat Phusayangkul"

Similar presentations

Quantum Computing: Whats It Good For? Scott Aaronson Computer Science Department, UC Berkeley January 10, 2002 www.cs.berkeley.edu/~aaronson.

Quantum Computing: Whats It Good For? Scott Aaronson Computer Science Department, UC Berkeley January 10,
Quantum Computing Ambarish Roy 16.508. Presentation Flow.

Quantum Computing Ambarish Roy Presentation Flow.
1 Welcome to the presentation on Computational Capabilities with Quantum Computer By Anil Kumar Javali.

1 Welcome to the presentation on Computational Capabilities with Quantum Computer By Anil Kumar Javali.
A Brief Introduction to Quantum Computation 1 Melanie Mitchell Portland State University 1 This talk is based on the following paper: E. Rieffel & W. Polak,

A Brief Introduction to Quantum Computation 1 Melanie Mitchell Portland State University 1 This talk is based on the following paper: E. Rieffel & W. Polak,
Quantum Computation and Error Correction Ali Soleimani.

Quantum Computation and Error Correction Ali Soleimani.
Quantum Entanglement David Badger Danah Albaum. Some thoughts on entanglement... “Spooky action at a distance.” -Albert Einstein “It is a problem that.

Quantum Entanglement David Badger Danah Albaum. Some thoughts on entanglement... “Spooky action at a distance.” -Albert Einstein “It is a problem that.
Deterministic teleportation of electrons in a quantum dot nanostructure Deics III, 28 February 2006 Richard de Visser David DiVincenzo (IBM, Yorktown Heights)

Deterministic teleportation of electrons in a quantum dot nanostructure Deics III, 28 February 2006 Richard de Visser David DiVincenzo (IBM, Yorktown Heights)
Matthew Guidry. The Fundamentals of Cryptography  One of the fundamentals of cryptography is that keys selected for various protocols that are computationally.

Matthew Guidry. The Fundamentals of Cryptography  One of the fundamentals of cryptography is that keys selected for various protocols that are computationally.
Memory Hierarchies for Quantum Data Dean Copsey, Mark Oskin, Frederic T. Chong, Isaac Chaung and Khaled Abdel-Ghaffar Presented by Greg Gerou.

Memory Hierarchies for Quantum Data Dean Copsey, Mark Oskin, Frederic T. Chong, Isaac Chaung and Khaled Abdel-Ghaffar Presented by Greg Gerou.
Quantum Computing Lecture 1 Michele Mosca. l Course Outline

Quantum Computing Lecture 1 Michele Mosca. l Course Outline
Quantum vs. DNA Computing

Quantum vs. DNA Computing
Quantum Information Processing

Quantum Information Processing
Quantum computing Alex Karassev. Quantum Computer Quantum computer uses properties of elementary particle that are predicted by quantum mechanics Usual.

Quantum computing Alex Karassev. Quantum Computer Quantum computer uses properties of elementary particle that are predicted by quantum mechanics Usual.
By: Mike Neumiller & Brian Yarbrough

By: Mike Neumiller & Brian Yarbrough
Michael A. Nielsen University of Queensland Quantum Mechanics I: Basic Principles Goal of this and the next lecture: to introduce all the basic elements.

Michael A. Nielsen University of Queensland Quantum Mechanics I: Basic Principles Goal of this and the next lecture: to introduce all the basic elements.
Quantum Computing David Dvorak CIS 492. Quantum Computing Overview What is it? How does it work? –The basics –Clarifying with examples Factoring Quantum.

Quantum Computing David Dvorak CIS 492. Quantum Computing Overview What is it? How does it work? –The basics –Clarifying with examples Factoring Quantum.
Quantum Computing The Next Generation of Computing Devices? by Heiko Frost, Seth Herve and Daniel Matthews.

Quantum Computing The Next Generation of Computing Devices? by Heiko Frost, Seth Herve and Daniel Matthews.
Quantum Computing Presented by: Don Davis PHYS 3305 11-20-2008.

Quantum Computing Presented by: Don Davis PHYS
Quantum Computing BCS Belgium Branch.

Quantum Computing BCS Belgium Branch.
Quantum Information Jan Guzowski. Universal Quantum Computers are Only Years Away From David’s Deutsch weblog: „For a long time my standard answer to.

Quantum Information Jan Guzowski. Universal Quantum Computers are Only Years Away From David’s Deutsch weblog: „For a long time my standard answer to.

Similar presentations

Ads by Google