Name: Olivia Di Matteo
Type: User
Company: University of British Columbia
Bio: Quantum computing researcher interested in circuits, algorithms, open-source quantum software, and education.
Location: Vancouver, BC
Blog: glassnotes.github.io
Olivia Di Matteo's Projects
A Python package for generating and manipulating mutually unbiased bases and related objects.
SU(n) factorization in Python.
Materials for the undergraduate course in gate-model quantum computing at UBC.
Lecture materials for the ELEC 221 Signals and Systems course at UBC.
Fault-tolerant resource estimation of circuits for quantum RAM
Materials and notebooks for my first lecture series at TRIUMF, "An introduction to quantum computing and quantum annealing".
My playground for using neural networks to perform density matrix quantum tomography.
Python library for optimizing noisy functions.
A simple module for py3status that displays the currently clocked in task from org-mode.
PennyLane is a cross-platform Python library for differentiable programming of quantum computers. Train a quantum computer the same way as a neural network.
The website for PennyLane
A class library for operations on finite fields (a.k.a. Galois fields) which I find useful in my line of work.
A library for working with quantum error correction.
Quantum computing fidelity susceptibility with automatic differentiation
Generate QUEKO circuits in Python
Hands-on Python activities for undergraduate signals and systems courses.
Implementation of the uniformization procedure in Dankert et. al (PRA 80 012304, 2009) to construct unitary 2 designs using random circuits.