This is an introduction to quantum computing meant for those in IT, cybersecurity, and related fields who might not have substantial math or physics background. The concepts will be explored with minimal mathematics. This would include basic concepts, the use of the Bloch sphere, quantum superposition, and quantum gates. Particular attention will be paid to practical applications such as the impact on cryptography and security, Quantum resistant cryptography and the NISTIR 8240.
Quantum computing is fast approaching a practical reality. QC impacts the future of computing as well as security issues. QC will render current asymmetric cryptographic methods insecure. That requires QC resistant algorithms. IT personnel and cybersecurity professionals must have at least a basic conceptual understanding of quantum computing.
What you'll learnand how you can apply it
 Understand conceptually quantum computing
 Have a fundamental understanding of quantum gates
 Know the impact of QC on cybersecurity and cryptography
 Understand the basics of quantum resistant cryptography
This training course is for you because...
 IT personnel (programmers, network admins, etc.) can gain an understanding of quantum computing without having an extensive physics and math background.
 The impact of QC on IT and cybersecurity is so significant that all professionals in these fields need to have at least a working knowledge.
 It is a prerequisite for more advanced training.
Prerequisites
 None. This is meant for those without a relevant background.
Recommended Followup:
 Mathematics for Quantum Computing Live Online Training (search O'Reilly for upcoming dates)
 Further with Quantum computing Live Training (coming soon)
About your instructor

Dr. Chuck Easttom is the author of 29 books and over 60 research papers. He is an inventor with 22 computer science patents. He holds a Doctor of Science (D.Sc.) and a Ph.D. as well as three masters degrees. He is also a Distinguished Speaker of the ACM Distinguished Visitor of the IEEE as well as a Senior Member of the ACM and Senior Member of the IEEE. He currently is an adjunct lecturer for Georgetown University and the University of Dallas.
Schedule
The timeframes are only estimates and may vary according to how the class is progressing
Segment 1: Introductory concepts (45 mins)
 What is quantum physics
 How does it relate to computing
 History of QC
 Break (10)
Segment 2: Just a little math (45 mins)
 Some very basic discussion of vectors
 Braket notation
 Probabilities
 Break (10)
Segment 3: Quantum Computing and Security (45 mins)
 Current cryptography
 What QC means to current cryptography
 Shor’s algorithm
 NIST competition
 A look at some specific algorithms.
 Break (10)
Segment 4: The near future (30 mins)
 Current state of QC and coming steps
 QC Challenges
 QC and AI
Course wrapup and next steps