QSilver 30 | Quantum Computing and Programming Workshop
We are happy to announce our QSilver workshop organized by QLibya. Join us in the intermediate-level “Quantum Computing and Programming” workshop focusing on complex numbers, QFT, and Shor’s Algorithm.
About our quantum workshop
This edition of QSilver is a one-week online workshop on quantum computing and quantum programming based on the intermediate material Silver prepared by QWorld. The scope of the QSilver workshop covers complex numbers and Bloch sphere, Quantum Fourier Transform, and Shor’s Algorithm.
Silver is a task-based tutorial composed of Jupyter notebooks. Participants will be completing the tutorial with the mentoring support through Discord as well as onsite sessions, which will be conducted by the QLibya team. Jupyter notebooks will be in English, but lecturing & mentoring will be available in Libyan Arabic if needed (via Discord).
Homework will be given daily and the participants who successfully complete the homework will be awarded a Silver diploma.
Content
Silver is an intermediate quantum programming tutorial that uses Qiskit and Cirq frameworks. Each notebook contains some theoretical background about the subject and programming tasks. While it seems like a quantum programming tutorial, quantum computing concepts are eventually taught through programming.
Silver is designed for everyone with a basic knowledge of quantum computing concepts like qubits, quantum gates, and quantum circuits and some hands-on experience in quantum programming. No background in physics is required as it focuses on programming and mathematical aspects.
The content is divided into 5 sections.
- Introduction to complex numbers (Basics of complex numbers, quantum states, and operators with complex numbers)
- Bloch Sphere (Global and local phase, Bloch sphere, operations on Bloch sphere)
- Operations with Complex Numbers (Quantum gates with complex numbers, operations on Bloch sphere)
- Quantum Fourier Transform and its applications
- Shor’s algorithm
Bronze does not involve any complex numbers which facilitate the learning process and allow visualization of states and gates in the 2D plane. Silver starts by introducing the complex numbers and discusses quantum states and quantum operators with complex numbers alongside the introduction of the Bloch Sphere. The rest of the tutorial is devoted to Quantum Fourier Transform and its applications, including quantum phase estimation and order finding, and finally, Shor’s algorithm is introduced.
Schedule of the quantum workshop
The quantum workshop will be held for 4 days, requiring approximately 18 hours of training. Participants are expected to follow the workshop materials and complete the tasks on their own. Each day, there will be a live session about the content of the day and participants will have a chance to ask their questions. During the day and after the live session, participants will be working on their own on the day’s material while getting help from the mentors on the Discord channel. The topics to be covered each day by the participants are given below:
August 17 Sunday:
9:00 – 12:00 – Introduction to complex numbers
August 18 Monday:
9:00 – 12:00 – Bloch sphere, Operations with complex numbers
August 19 Tuesday:
9:00 – 12:00 – Quantum Fourier transform and its applications
August 20 Wednesday :
9:00 – 12:00 – Order Finding Algorithm and Shor’s Algorithm
Homework and Diploma
We will use the Canvas learning management system for homework tracking. Homework will be given on a daily basis and it will involve both multiple-choice questions and coding assignments. Participants who earn 50/100 within the deadline will be awarded a QSilver diploma.
Application
You may apply for the workshop by filling out the application form by August 16th. Applications later than the deadline may not be taken into consideration.
https://forms.gle/kq7KGTs4fEEDvEVP6
Our Team
Organizer: QLibya Team, Research Consulting and Training Center (RCC)
Workshop Lead: AbdulMalek Baitulmal
Mentors: Feras Shita, Firas Nuri, Rami Hareb
Contact: qlibya [at] qworld.net