Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Limits of Adiabatic Quantum Algorithms

Published byBarrie Wiggins Modified over 8 years ago

Similar presentations

Presentation on theme: "The Limits of Adiabatic Quantum Algorithms"— Presentation transcript:

1 The Limits of Adiabatic Quantum Algorithms
Alper Sarikaya Advised by Prof. Dave Bacon Computer Science & Engineering Chemistry University of Washington Undergraduate Research Symposium May 15, 2009 Quantum Computing Theory Group:

2 Motivation Transistors are getting smaller
In 1994, Paul Shor showed that quantum algorithms have an exponential speed-up over their classical counterparts in factoring large prime numbers bits noisy bits quantum bit cm µm nm pm

3 Quantum Computation Qubit versus a classical bit .. where‘s the information stored? Adiabatically: take an incoming vector (input data), evolve the vector with an operator (a Hamiltonian); the answer is the smallest eigenvalue Think linear algebra (Math 308)! Deterministic Probabilistic “Quantum” 1 0.4 0.3 0.5 0.6 0.7 1 -1 -1

4 Simulating an Adiabatic Algorithm
Benefit of Quantum Algorithms: Infinite precision analog computation can efficiently solve NP-complete problems Adiabatic theorem - A physical system remains in its instantaneous eigenstate if a given perturbation is acting on it slowly enough and if there is a gap between the eigenvalue and the rest of the Hamiltonian's spectrum. - Max Born, Vladimir Fock (1928) What is the benefit of building an adiabatic quantum computer? Let’s compare the algorithm to a classical computer

5 Testing efficiency hypothesis numerically: If the relationship between the eigenvalue gap and the number of qubits is negatively proportional, then an adiabatic quantum computer only offers a polynomial speedup over a classically-based counterpart. To emulate a quantum computer classically, use the Markovian matrix as the operator in this study: where n is the number of qubits, β is varied between 0 and n, and the following two Hamiltonians are defined:

6 Data from a sample run:

7 Data from sample results:

8 Conclusions There is indeed an inverse exponential relationship between the number of qubits and the smallest eigenvalue gap Adiabatic quantum computers only offer a polynomial speedup! This is only a numerical simulation of the hypothesis, not a proof

9 Future Directions Move from numerical evidence in support of the hypothesis to a formal proof to conclusively uphold the efficiency concerns Remember D-Wave? Currently building an adiabatic quantum computer and gaining lots of capital from its promise – but it probably only offers a polynomial increase in efficiency!

10 Acknowledgments Advisor: Professor Dave Bacon UW Computer Science & Engineering Gregory Crosswhite UW Physics, Graduate Student Quantum Computing Theory Group This work supported in part by the National Science Foundation

Download ppt "The Limits of Adiabatic Quantum Algorithms"

Similar presentations

Department of Computer Science & Engineering University of Washington

Department of Computer Science & Engineering University of Washington
Closed Timelike Curves Make Quantum and Classical Computing Equivalent

Closed Timelike Curves Make Quantum and Classical Computing Equivalent
How Much Information Is In Entangled Quantum States? Scott Aaronson MIT |

How Much Information Is In Entangled Quantum States? Scott Aaronson MIT |
How Much Information Is In A Quantum State? Scott Aaronson MIT |

How Much Information Is In A Quantum State? Scott Aaronson MIT |
New Evidence That Quantum Mechanics Is Hard to Simulate on Classical Computers Scott Aaronson Parts based on joint work with Alex Arkhipov.

New Evidence That Quantum Mechanics Is Hard to Simulate on Classical Computers Scott Aaronson Parts based on joint work with Alex Arkhipov.
Pretty-Good Tomography Scott Aaronson MIT. Theres a problem… To do tomography on an entangled state of n qubits, we need exp(n) measurements Does this.

Pretty-Good Tomography Scott Aaronson MIT. Theres a problem… To do tomography on an entangled state of n qubits, we need exp(n) measurements Does this.
New Computational Insights from Quantum Optics Scott Aaronson.

New Computational Insights from Quantum Optics Scott Aaronson.
Solving Hard Problems With Light Scott Aaronson (Assoc. Prof., EECS) Joint work with Alex Arkhipov vs.

Solving Hard Problems With Light Scott Aaronson (Assoc. Prof., EECS) Joint work with Alex Arkhipov vs.
Scott Aaronson (MIT) Based on joint work with John Watrous (U. Waterloo) BQP PSPACE Quantum Computing With Closed Timelike Curves.

Scott Aaronson (MIT) Based on joint work with John Watrous (U. Waterloo) BQP PSPACE Quantum Computing With Closed Timelike Curves.
Samuel J. Lomonaco, Jr. Dept. of Comp. Sci. & Electrical Engineering University of Maryland Baltimore County Baltimore, MD 21250

Samuel J. Lomonaco, Jr. Dept. of Comp. Sci. & Electrical Engineering University of Maryland Baltimore County Baltimore, MD 21250
Local Hamiltonians in Quantum Computation Funding: Slovak Research and Development Agency, contract No. APVV- 0673-07, European Project QAP 2004-IST- FETPI-15848,

Local Hamiltonians in Quantum Computation Funding: Slovak Research and Development Agency, contract No. APVV , European Project QAP 2004-IST- FETPI-15848,
THE QUANTUM COMPLEXITY OF TIME TRAVEL Scott Aaronson (MIT)

THE QUANTUM COMPLEXITY OF TIME TRAVEL Scott Aaronson (MIT)
1 Optimization Algorithms on a Quantum Computer A New Paradigm for Technical Computing Richard H. Warren, PhD Optimization.

1 Optimization Algorithms on a Quantum Computer A New Paradigm for Technical Computing Richard H. Warren, PhD Optimization.
Adiabatic Evolution Algorithm Chukman So (19195004) Steven Lee (18951053) December 3, 2009 for CS C191 In this presentation we will talk about the quantum.

Adiabatic Evolution Algorithm Chukman So ( ) Steven Lee ( ) December 3, 2009 for CS C191 In this presentation we will talk about the quantum.
Resent Progress in Quantum Algorithms Min Zhang. Overview What is Quantum Algorithm Challenges to QA What motivates new QAs Quantum Theory in a Nutshell.

Resent Progress in Quantum Algorithms Min Zhang. Overview What is Quantum Algorithm Challenges to QA What motivates new QAs Quantum Theory in a Nutshell.
Lecture 17 Introduction to Eigenvalue Problems

Lecture 17 Introduction to Eigenvalue Problems
Boris Altshuler Columbia University Anderson Localization against Adiabatic Quantum Computation Hari Krovi, Jérémie Roland NEC Laboratories America.

Boris Altshuler Columbia University Anderson Localization against Adiabatic Quantum Computation Hari Krovi, Jérémie Roland NEC Laboratories America.
Adiabatic Quantum Computation with Noisy Qubits Mohammad Amin D-Wave Systems Inc., Vancouver, Canada.

Adiabatic Quantum Computation with Noisy Qubits Mohammad Amin D-Wave Systems Inc., Vancouver, Canada.
Quantum Phase Estimation using Multivalued Logic.

Quantum Phase Estimation using Multivalued Logic.
March 11, 2015CS21 Lecture 271 CS21 Decidability and Tractability Lecture 27 March 11, 2015.

March 11, 2015CS21 Lecture 271 CS21 Decidability and Tractability Lecture 27 March 11, 2015.

Similar presentations

Ads by Google