Online: Introduction to Quantum Computing and Algorithms, 1st Ed.
2-day basic course on quantum computers and the algorithms that control them.
Compared to ordinary computers, quantum computers behave very differently. Instead of bits, the basic units of quantum computers are quantum bits, qubits. By exploiting quantum superposition and entanglement of the qubits, quantum computers have the potential to revolutionise high-performance computing.
Quantum computers differ from their classical counterparts also when it comes to the basic computational operators. Before they can be utilised, quantum computers require tailor-made programs and algorithms.
In this course, we will go through the basic operating principles of quantum computers and put the theory into immediate hands-on practice. We will get acquainted with quantum algorithm programming by using Kvasi, the Atos Quantum Learning Machine, capable of emulating a 30+ qubit quantum computer.
Prerequisites: No previous experience with quantum computers is expected. Basic programming skills and familiarity with the Jupyter Notebook environment is an asset, however; quick overview of Jupyter usage.
Lecturers: Jami Rönkkö (CSC) and Mikael Johansson (CSC)
Schedule: 9:00 – 16:00 both days
Day 1: Introduction, basic algorithms, myQLM on notebooks.csc.fi
9:00 Morning session, includes 2×15 minute breaks as suitable
Introduction
Quantum computers, what are they?
Quantum algorithms, intro to myQLM
Hands-on 0: Superposition and measurements
Hands-on 1: Creation of an EPR pair
12:00 Lunch
13:15 Afternoon session, includes 2×15 minute breaks as suitable
Hands-on 1: Creation of an EPR pair
Hands-on 2: Parametrized gates
Hands-on 3: Quantum Fourier transform
Hands-on 4: The Deutsch algorithm
Getting ready for Day 2: Logging into Kvasi
16:00 End of Day 1
Day 2: Noise and other physical constraints, Kvasi.csc.fi
9:00 Morning session, includes 2×15 minute breaks as suitable
Introduction
Hands-on 5: Abstract gates
Hands-on 6: Circuit conversion for the Deutsch algorithm
Effect of noise on quantum computing
Hands-on 7: Noisy simulation of the Deutsch algorithm
12:00 Lunch
13:15 Afternoon session, includes 2×15 minute breaks as suitable
Hands-on 7: Noisy simulation of the Deutsch algorithm
Hybrid classical + quantum computing
Quantum Approximate Optimization Algorithm, QAOA
Hands-on 8: MaxCut with QAOA
Other algorithms
Wrapping up
16:00 End of Day 2
Aika
30.11.2020 - 1.12.2020
klo 09:00 - 16:00
Järjestäjä
https://www.eurocc-finland.fi