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Quantum Phase Estimation using Multivalued Logic Vamsi Parasa Marek Perkowski Department of Electrical and Computer Engineering, Portland State University.

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Presentation on theme: "Quantum Phase Estimation using Multivalued Logic Vamsi Parasa Marek Perkowski Department of Electrical and Computer Engineering, Portland State University."— Presentation transcript:

1 Quantum Phase Estimation using Multivalued Logic Vamsi Parasa Marek Perkowski Department of Electrical and Computer Engineering, Portland State University ISMVL 2011, 23-25 May 2011, Tuusula, Finland

2 Agenda Importance of Quantum Phase Estimation (QPE) QPE using binary logic QPE using MVL Performance Requirements Salient features Conclusion ISMVL 2011, 23-25 May 2011, Tuusula, Finland

3 Abstract We generalize the Quantum Phase Estimation algorithm to MVL logic. qudits We show the quantum circuits for QPE using qudits. We derive the performance requirements of the QPE to achieve high probability of success. We show how this leads to logarithmic decrease in the number of qudits and exponential decrease in error probability of the QPE algorithm as the value of the radix d increases. ISMVL 2011, 23-25 May 2011, Tuusula, Finland

4 Introduction QPE – one of the most important quantum subroutines, used in : – 1) Shor’s Algorithm – 2) Abrams and Lloyd Algorithm (Simulating quantum systems) – Calculation of Molecular Ground State Energies – 3) Quantum Counting (for Grover Search) – 4) Fourier Transform on arbitrary Z p ISMVL 2011, 23-25 May 2011, Tuusula, Finland

5 Quantum phase estimation (QPE) ISMVL 2011, 23-25 May 2011, Tuusula, Finland

6 QPE – Formal Definition ISMVL 2011, 23-25 May 2011, Tuusula, Finland phase

7 QPE Algorithm– Binary logic case Schematic for the QPE Algorithm We first review the binary case: Eigenvector of U Measure phase in t qubits

8 QPE : step 1 – Initialization, Binary logic case ISMVL 2011, 23-25 May 2011, Tuusula, Finland

9 QPE : step 2 – Apply the operator U Binary logic case

10 QPE : step 3 – Apply Inverse QFT Binary logic case

11 QPE : step 4 - Measurement If the phase  u is an exact binary fraction, we measure the estimate of the phase  u with probability of 1. If not, then we measure the estimate of the phase with a very high probability close to 1. ISMVL 2011, 23-25 May 2011, Tuusula, Finland Binary logic case

12 Quantum circuit for u j The circuit for QFT is well known and hence not discussed. Binary logic case

13 MV logic case Now we have qudits not qubits We have t qudits for phase Now we have arbitrary Chrestenson instead Hadamard Now we Inverse QFT on base d, not base 2

14 QFT and Chrestenson MV logic case

15

16 ISMVL 2011, 23-25 May 2011, Tuusula, Finland MV logic case

17 ISMVL 2011, 23-25 May, Tuusula, Finland We apply inverse Quantum Fourier Transform MV logic case

18 ISMVL 2011, 23-25 May, Tuusula, Finland MV logic case

19 These are d-valued quantum multiplexers

20 D-valued quantum multiplexers Case d=3 012012 Target (date) control

21 ISMVL 2011, 23-25 May, Tuusula, Finland MV logic case

22 ISMVL 2011, 23-25 May, Tuusula, Finland MV logic case

23 ISMVL 2011, 23-25 May, Tuusula, Finland binary

24 MV logic case

25 ISMVL 2011, 23-25 May, Tuusula, Finland MV logic case

26 ISMVL 2011, 23-25 May, Tuusula, Finland MV logic case

27

28 ISMVL 2011, 23-25 May, Tuusula, Finland

29

30 How MVL HELPS Failure probability decreases exponentially with increase in radix d of the logic used

31 Less number of qudits for a given precision These are the requirements for a real world problem of calculating molecular energies

32 More RESULTS ISMVL 2011, 23-25 May 2011, Tuusula, Finland ISMVL 2011, 23-25 May, Tuusula, Finland

33 Conclusions Quantum Phase Estimation has many applications in Quantum Computing MVL is very helpful for Quantum Phase Estimation Using MVL causes exponential decrease in the failure probability for a given precision of phase required. Using MVL results in signification reduction in the number of qudits required as radix d increases ISMVL 2011, 23-25 May 2011, Tuusula, Finland

34 Conclusions 2 The method creates high power unitary matrices U k of the original Matrix U for which eigenvector |u> we want to find phase. We cannot design these matrices as powers. This would be extremely wasteful We have to calculate these matrices and decompose them to gates New type of quantum logic synthesis problem: not permutative U, not arbitrary U, there are other problems like that, we found This research problem has been not solved in literature even in case of binary unitary matrices U ISMVL 2011, 23-25 May 2011, Tuusula, Finland

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