Summer School on Quantum Information Processing- Gate-based and Annealing Systems - Remote
from
Monday, 28 August 2023 (09:00)
to
Friday, 1 September 2023 (17:00)
Monday, 28 August 2023
10:10
Welcome and introdction to JSC
-
Kristel Michielsen
Welcome and introdction to JSC
Kristel Michielsen
10:10 - 10:30
10:30
Introduction to gate-based quantum computing
-
Dennis Willsch
(
Forschungszentrum Jülich, JSC
)
Introduction to gate-based quantum computing
Dennis Willsch
(
Forschungszentrum Jülich, JSC
)
10:30 - 11:30
Introduction to quantum bits and quantum gates Programming and Simulating quantum circuits Applications: QFT, Quantum Adder, QAOA
12:30
Introduction to quantum annealing
-
Madita Willsch
Introduction to quantum annealing
Madita Willsch
12:30 - 13:30
This talk is a general introduction to quantum annealing. It covers - how does a quantum annealer work in theory and what can it be used for - what are the theoretical and practical limitations - how to solve problems on quantum annealers, in particular D-Wave quantum annealers as the one hosted by JSC: - the basic information about the architecture of D-Wave quantum annealers - how to formulate an optimization problem as a QUBO or Ising problem - different encoding strategies - how to incorporate constraints - how to embed a (logical) problem onto the given hardware graph (considering physical connectivity) - how to send a problem to the quantum annealer using D-Wave's Ocean SDK and how to interpret the response Finally, some small examples are presented and the talk ends with a short hands-on exercise.
15:00
Quantum annealing applications
-
Dennis Willsch
Quantum annealing applications
Dennis Willsch
15:00 - 16:00
Optimization Problems: Airline Scheduling, TSP, Garden Optimization Constraint Problem: 2-SAT Machine Learning Problem: Quantum Support Vector Machine Sampling Problem: Quantum Boltzmann Machin
Tuesday, 29 August 2023
09:00
QUBO Formulation and QAOA: A tutorial on encoding and solving combinatorial optimization problems - part I
-
Alejandro Montanez
QUBO Formulation and QAOA: A tutorial on encoding and solving combinatorial optimization problems - part I
Alejandro Montanez
09:00 - 10:00
In this tutorial, we will dive into combinatorial optimization problems and explore how effectively encode these problems using the Quadratic Unconstrained Binary Optimization (QUBO) formulation and how to tackle them using the Quantum Approximate Optimization Algorithm (QAOA).
10:00
Introduction of hands-on topics
Introduction of hands-on topics
10:00 - 10:20
In this session, the topics for the hands-on sessions will be introduced.
10:20
Hardware & Software Setup
Hardware & Software Setup
10:20 - 11:00
11:00
Hands-on session
Hands-on session
11:00 - 13:00
13:00
QUBO Formulation and QAOA: A tutorial on encoding and solving combinatorial optimization problems - part II
-
Alejandro Montanez
QUBO Formulation and QAOA: A tutorial on encoding and solving combinatorial optimization problems - part II
Alejandro Montanez
13:00 - 14:00
In this tutorial, we will dive into combinatorial optimization problems and explore how effectively encode these problems using the Quadratic Unconstrained Binary Optimization (QUBO) formulation and how to tackle them using the Quantum Approximate Optimization Algorithm (QAOA).
14:00
Hands-on session
Hands-on session
14:00 - 16:00
16:00
Simulation of quantum systems
-
Kristel Michielsen
Simulation of quantum systems
Kristel Michielsen
16:00 - 17:00
- Full dynamics of a CLOSED quantum spin-1/2 system: gate-based quantum computer & quantum annealer - Full dynamics of an OPEN quantum spin-1/2 system: gate-based quantum computer & quantum annealer - Solving the time-dependent Schrödinger equation numerically - (Part of) our histrory of simulating quantum computers
Wednesday, 30 August 2023
09:00
Developing a theory of macroscopic resonant tunneling of flux in a double-well potential in the presence of realistic flux noise - a pen & paper excercise
-
Jaka Vodeb
Developing a theory of macroscopic resonant tunneling of flux in a double-well potential in the presence of realistic flux noise - a pen & paper excercise
Jaka Vodeb
09:00 - 09:30
Superconducting qubits based on different forms of quantum dynamics of magnetic flux in SQUIDs continue demonstrating steady progress. Nevertheless, the low-frequency flux noise in SQUID structures remains the major obstacle to their further development to the level necessary for quantum computing applications. Because of this noise, quantum coherence is essentially reduced to the states with the same qubit value of either 0 or 1 (characterized by the same average value of flux). Only minimal coherence exists between states 0 and 1. We will develop a theory of macroscopic resonant tunneling of flux in a double-well potential in the presence of realistic flux noise with a significant low-frequency component.
09:30
Quantum simulation using quantum annealers
-
Jaka Vodeb
Quantum simulation using quantum annealers
Jaka Vodeb
09:30 - 10:30
I will talk about the first experimental signatures of two-dimensional many-body false vacuum decay in a quantum material emerging from microscopic interactions. We used a programmable noisy superconducting quantum simulator with 2008 qubits in order to perform simulations corresponding to our specific experiment on quantum domain reconfiguration in a topical electronic crystal. We carefully chose a simulator with the same measured noise spectrum to ensure the fidelity of the model correspondence between the two systems, thereby presenting a realization of simulating real-world open quantum systems according to the original vision of Feynman.
10:30
Hands-on session
Hands-on session
10:30 - 12:00
13:00
Simulating noise of quantum computers
-
Kevissen Sellapillay
Simulating noise of quantum computers
Kevissen Sellapillay
13:00 - 14:00
As much as we want to isolate them, we must see quantum machines as open systems. Interactions happen between the quantum machine and its environment leading to decoherence. This effectively give different types of noise at the level of the machine. What are they and how can we take them into account when doing simulation on our classical computer?
14:00
Hands-on session
Hands-on session
14:00 - 15:00
Thursday, 31 August 2023
11:00
Gate-based Quantum Computing - A Broader Perspective
-
David DiVincenzo
Gate-based Quantum Computing - A Broader Perspective
David DiVincenzo
11:00 - 12:00
13:00
Hands-on session
Hands-on session
13:00 - 16:05
16:05
Quantum Annealing - A Broader Perspective
-
Viv Kendon
Quantum Annealing - A Broader Perspective
Viv Kendon
16:05 - 17:00
Friday, 1 September 2023
09:00
Hands-on session
Hands-on session
09:00 - 11:00
11:00
Feedback session
Feedback session
11:00 - 12:00
14:00
The future of quantum computing
-
Kristel Michielsen
The future of quantum computing
Kristel Michielsen
14:00 - 15:00
15:00
Wrap-up and goddbye
-
Nils Küchler
Wrap-up and goddbye
Nils Küchler
15:00 - 15:30