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Download [ FreeCourseWeb.com ] Oreilly - Quantum Computing in Action, Video Edition

FreeCourseWeb com Oreilly Quantum Computing in Action Video Edition

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[ FreeCourseWeb.com ] Oreilly - Quantum Computing in Action, Video Edition

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2024-07-02 23:47

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001. Part 1. Quantum computing introduction.mp4

3.9 MB

002. Chapter 1. Evolution, revolution, or hype.mp4

51.7 MB

003. Chapter 1. The disruptive parts of QC Getting closer to nature.mp4

15.8 MB

004. Chapter 1. Hybrid computing.mp4

7.5 MB

005. Chapter 1. Abstracting software for quantum computers.mp4

18.5 MB

006. Chapter 1. From quantum to computing or from computing to quantum.mp4

7.8 MB

007. Chapter 1. Summary.mp4

2.9 MB

008. Chapter 2. Hello World, quantum computing style.mp4

5.5 MB

009. Chapter 2. Running a first demo with Strange.mp4

9.3 MB

010. Chapter 2. Inspecting the code for HelloStrange.mp4

23.6 MB

011. Chapter 2. Obtaining and installing the Strange code.mp4

8.3 MB

012. Chapter 2. Next steps.mp4

2.4 MB

013. Chapter 2. Summary.mp4

1.6 MB

014. Chapter 3. Qubits and quantum gates The basic units in quantum computing.mp4

17.1 MB

015. Chapter 3. Qubit notation.mp4

21.1 MB

016. Chapter 3. Gates Manipulating and measuring qubits.mp4

9.0 MB

017. Chapter 3. A first [quantum] gate Pauli-X.mp4

3.5 MB

018. Chapter 3. Playing with qubits in Strange.mp4

18.2 MB

019. Chapter 3. Visualizing quantum circuits.mp4

5.8 MB

020. Chapter 3. Summary.mp4

1.9 MB

021. Part 2. Fundamental concepts and how they relate to code.mp4

2.6 MB

022. Chapter 4. Superposition.mp4

20.4 MB

023. Chapter 4. The state of a quantum system as a probability vector.mp4

23.2 MB

024. Chapter 4. Introducing matrix gate operations.mp4

19.0 MB

025. Chapter 4. The Hadamard gate The gate to superposition.mp4

5.6 MB

026. Chapter 4. Java code using the Hadamard gate.mp4

10.9 MB

027. Chapter 4. Summary.mp4

2.4 MB

028. Chapter 5. Entanglement.mp4

5.6 MB

029. Chapter 5. Independent probabilities The classic way.mp4

14.4 MB

030. Chapter 5. Independent probabilities The quantum way.mp4

7.4 MB

031. Chapter 5. The physical concept of entanglement.mp4

16.2 MB

032. Chapter 5. A gate representation for quantum entanglement.mp4

13.1 MB

033. Chapter 5. Creating a Bell state Dependent probabilities.mp4

7.7 MB

034. Chapter 5. Mary had a little qubit.mp4

5.0 MB

035. Chapter 5. Summary.mp4

997.9 KB

036. Chapter 6. Quantum networking The basics.mp4

10.4 MB

037. Chapter 6. Obstacles to quantum networking.mp4

35.2 MB

038. Chapter 6. Pauli-Z gate and measurement.mp4

10.6 MB

039. Chapter 6. Quantum teleportation.mp4

27.0 MB

040. Chapter 6. A quantum repeater.mp4

9.4 MB

041. Chapter 6. Summary.mp4

2.1 MB

042. Part 3. Quantum algorithms and code.mp4

6.1 MB

043. Chapter 7. Our HelloWorld, explained.mp4

18.5 MB

044. Chapter 7. Abstractions at different levels.mp4

9.1 MB

045. Chapter 7. Other languages for quantum computing simulators.mp4

5.6 MB

046. Chapter 7. Strange High-level and low-level approaches.mp4

12.0 MB

047. Chapter 7. StrangeFX A development tool.mp4

24.0 MB

048. Chapter 7. Creating your own circuits with Strange.mp4

31.0 MB

049. Chapter 7. Simulators, cloud services, and real hardware.mp4

13.5 MB

050. Chapter 7. Summary.mp4

3.1 MB

051. Chapter 8. Secure communication using quantum computing.mp4

20.0 MB

052. Chapter 8. Quantum key distribution.mp4

6.3 MB

053. Chapter 8. Naive approach.mp4

12.1 MB

054. Chapter 8. Using superposition.mp4

23.9 MB

055. Chapter 8. BB84.mp4

22.8 MB

056. Chapter 8. QKD in Java.mp4

14.3 MB

057. Chapter 8. Summary.mp4

1.6 MB

058. Chapter 9. Deutsch-Jozsa algorithm.mp4

13.5 MB

059. Chapter 9. Properties of functions.mp4

16.1 MB

060. Chapter 9. Reversible quantum gates.mp4

11.3 MB

061. Chapter 9. Defining an oracle.mp4

15.3 MB

062. Chapter 9. From functions to oracles.mp4

10.2 MB

063. Chapter 9. Deutsch algorithm.mp4

16.6 MB

064. Chapter 9. Deutsch-Jozsa algorithm.mp4

11.1 MB

065. Chapter 9. Conclusion.mp4

2.6 MB

066. Chapter 9. Summary.mp4

1.7 MB

067. Chapter 10. Grover s search algorithm.mp4

13.7 MB

068. Chapter 10. Classical search problems.mp4

22.3 MB

069. Chapter 10. Quantum search Using Grover s search algorithm.mp4

11.3 MB

070. Chapter 10. Probabilities and amplitudes.mp4

15.6 MB

071. Chapter 10. The algorithm behind Grover s search.mp4

40.6 MB

072. Chapter 10. Conclusion.mp4

2.0 MB

073. Chapter 10. Summary.mp4

2.2 MB

074. Chapter 11. Shor s algorithm.mp4

5.8 MB

075. Chapter 11. The marketing hype.mp4

10.6 MB

076. Chapter 11. Classic factorization vs. quantum factorization.mp4

4.2 MB

077. Chapter 11. A multidisciplinary problem.mp4

4.4 MB

078. Chapter 11. Problem description.mp4

6.5 MB

079. Chapter 11. The rationale behind Shor s algorithm.mp4

26.3 MB

080. Chapter 11. The quantum-based implementation.mp4

8.4 MB

081. Chapter 11. Creating a periodic function using quantum gates.mp4

10.0 MB

082. Chapter 11. Calculating the periodicity.mp4

7.3 MB

083. Chapter 11. Implementation challenges.mp4

6.0 MB

084. Chapter 11. Summary.mp4

2.5 MB

085. Appendix A. Getting started with Strange.mp4

6.4 MB

086. Appendix A. Obtaining and installing the demo code.mp4

2.6 MB

087. Appendix A. The HelloStrange program.mp4

8.3 MB

088. Appendix B. Linear algebra.mp4

6.0 MB

089. Appendix B. Matrix-matrix multiplication.mp4

2.6 MB

090. Appendix B. Tensor product.mp4

2.6 MB

Bonus Resources.txt

0.4 KB
 

Total files 92

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