You're reading from Quantum Computing and Blockchain in Business Exploring the applications, challenges, and collision of quantum computing and blockchain

Product type Paperback

Published in Mar 2020

Publisher Packt

ISBN-13 9781838647766

Length 334 pages

Edition 1st Edition

Languages

Python

Tools

Blockchain

Concepts

Blockchain

Author (1):

Arunkumar Krishnakumar

View More author details

Table of Contents (20) Chapters

Preface

1. Introduction to Quantum Computing and Blockchain

2. Quantum Computing – Key Discussion Points FREE CHAPTER

3. The Data Economy

4. The Impact on Financial Services

5. Interview with Dr. Dave Snelling, Fujitsu Fellow

6. The Impact on Healthcare and Pharma

7. Interview with Dr. B. Rajathilagam, Head of AI Research, Amrita Vishwa Vidyapeetham

Conclusion

8. The Impact on Governance

9. Interview with Max Henderson, Senior Data Scientist, Rigetti and QxBranch

Conclusion

10. The Impact on Smart Cities and Environment

11. Interview with Sam McArdle, Quantum Computing Researcher at the University of Oxford

Conclusion

12. The Impact on Chemistry

13. The Impact on Logistics

14. Interview with Dinesh Nagarajan, Partner, IBM

Conclusion

15. Quantum-Safe Blockchain

16. Nation States and Cyberwars

17. Conclusion – Blue Skies

18. Other Books You May Enjoy

19. Index

Conclusion

Deep technologies such as quantum computing and Blockchain can bring paradigm shifts in the way the chemical industry innovates and operates. Quantum computing use cases in chemistry are similar to those in healthcare, as they are largely about simulating and calculating chemical reactions using quantum algorithms and devices.

There are two other key acceleration factors for chemistry applications of quantum computing. One is the aspect that molecules can be modeled more naturally within qubits using different circuitry. We saw trapped ion qubits that were more suitable for chemistry than superconductor qubit circuits. The other interesting aspect is the ability to use NISQ devices for chemistry. NISQ devices can be perfect for chemistry as noise can be used as a feature in modeling behaviors of molecules.

This is not quite the case in quantum computing solutions for cryptography; therefore, in their ability to leverage noisy qubits, chemistry...