Tutorial introduction to classical and quantum automata - part II

Speaker: 

Abuzer Yakaryilmaz, University of Latvia

Date: 

07/12/2022 - 12:00

The seminar will include the second part of a lecture on classical and quantum automata. After having a few examples on the DFAs with discussions on their limitations, we introduce their probabilistic and quantum variants. We present a representative algorithm for each of these variants, followed by a discussion on the quantum advantages in finite automata settings. We shortly review the recent implementations of QFA algorithms on real quantum hardware.

Dr Yakaryilmaz works at the Center for Quantum Computing Science, University of Latvia (https://quantum.lu.lv/). He is also one of the founders of the QWorld organization (https://qworld.net/), which promotes the use of quantum computing.

Historia zmian

Data aktualizacji: 01/02/2023 - 09:48; autor zmian: Jarosław Miszczak (miszczak@iitis.pl)

The seminar will include the second part of a lecture on classical and quantum automata. After having a few examples on the DFAs with discussions on their limitations, we introduce their probabilistic and quantum variants. We present a representative algorithm for each of these variants, followed by a discussion on the quantum advantages in finite automata settings. We shortly review the recent implementations of QFA algorithms on real quantum hardware.

Dr Yakaryilmaz works at the Center for Quantum Computing Science, University of Latvia (https://quantum.lu.lv/). He is also one of the founders of the QWorld organization (https://qworld.net/), which promotes the use of quantum computing.

Data aktualizacji: 01/02/2023 - 09:48; autor zmian: Jarosław Miszczak (miszczak@iitis.pl)

The seminar will include the second part of a lecture on classical and quantum automata. After having a few examples on the DFAs with discussions on their limitations, we introduce their probabilistic and quantum variants. We present a representative algorithm for each of these variants, followed by a discussion on the quantum advantages in finite automata settings. We shortly review the recent implementations of QFA algorithms on real quantum hardware.

Dr Yakaryilmaz works at the Center for Quantum Computing Science, University of Latvia (https://quantum.lu.lv/). He is also one of the founders of the QWorld organization (https://qworld.net/), which promotes the use of quantum computing.

Data aktualizacji: 01/02/2023 - 09:47; autor zmian: Jarosław Miszczak (miszczak@iitis.pl)

The seminar will include the second part of a lecture on classical and quantum automata. After having a few examples on the DFAs with discussions on their limitations, we introduce their probabilistic and quantum variants. We present a representative algorithm for each of these variants, followed by a discussion on the quantum advantages in finite automata settings. We shortly review the recent implementations of QFA algorithms on real quantum hardware.

Dr Yakaryilmaz works at the Center for Quantum Computing Science, University of Latvia (https://quantum.lu.lv/). He is also one of the founders of the QWorld organization (https://qworld.net/), which promotes the use of quantum computing.

Data aktualizacji: 05/12/2022 - 17:13; autor zmian: Jarosław Miszczak (miszczak@iitis.pl)

The seminar will include the second part of a lecture on classical and quantum automata. After having a few examples on the DFAs with discussions on their limitations, we introduce their probabilistic and quantum variants. We present a representative algorithm for each of these variants, followed by a discussion on the quantum advantages in finite automata settings. We shortly review the recent implementations of QFA algorithms on real quantum hardware.

Dr Yakaryilmaz works at the Center for Quantum Computing Science, University of Latvia (https://quantum.lu.lv/). He is also one of the founders of the QWorld organization (https://qworld.net/), which promotes the use of quantum computing.

Data aktualizacji: 05/12/2022 - 17:05; autor zmian: Jarosław Miszczak (miszczak@iitis.pl)