IQIS Lecture 6.2 — Abstract computation and reversible computation
IQIS Lecture 6.6 — Deutsch’s algorithm
IQIS Lecture 6.5 — Quantum function evaluation
IQIS Lecture 3.2 — Dimension argument for entanglement
IQIS Lecture 6.1 — Overview of Lecture 6
IQIS Lecture 5.2 — Classical one-time pads
IQIS Lecture 6.7 — The Bernstein-Vazirani algorithm
IQIS Lecture 5.4 — Insecure quantum key distribution
IQIS Lecture 5.10 — Device-independent tests and Bell inequalities (continued)
IQIS Lecture 7.12 — Summary: Stinespring and Kraus representations
IQIS Lecture 5.5 — Security of shared randomness
IQIS Lecture 5.6 — Security of shared randomness (continued)
IQIS Lecture 4.9 — Density operators and lack of knowledge
Reversing the Effects of Errors During Quantum Operations - Seminar Series with Serge Rosenblum
Michael P. Frank: Fundamental Physics of Reversible Computing — An Introduction, Part 1
Reversible Computing
(IWQC20) Matteo Pozzi: Using Reinforcement Learning to Perform Qubit Routing in Quantum Compilers
M2 L2 Schrödinger equation for time evolution operator
QC Theory Lecture 9 Reversible computation
The ULTIMATE One Time Pad Tutorial
