Explore quantum computing concepts and their implementation in APL through this 22-minute conference talk from Dyalog '23. Delve into the fundamentals of quantum hardware, qubits, and circuits before discovering how APL naturally expresses quantum concepts. Learn to create and manipulate qubits, work with quantum registers, apply circuits, and perform measurements using the quAPL library. Witness the implementation of the Deutsch-Jozsa algorithm and gain insights into ongoing developments in this emerging field. Understand how APL's unique features make it a promising language for quantum computing, potentially revolutionizing the way quantum programs are written and scaled.
Overview
Syllabus
Introduction
Quantum computing hardware
Quantum bits qubits and circuits
quAPL as a "native" language for quantum computing
Creating and manipulating qubits
Multiple qubits and quantum registers
Applying quantum circuits to registers
Measuring qubits
Deutsch-Jozsa algorithm in quAPL
Ongoing work and request for collaborators
Taught by
Dyalog User Meetings
