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This is a comprehensive and an easily accessible
introduction to one of the most transformative technologies of the twenty-first
century. It provides a clear, structured reading through essential mathematics,
physics, and computational principles underlying quantum computation.
Beginning
with foundational topics such as complex numbers, vector spaces, tensors, and
Hilbert spaces, the book builds the mathematical and physical framework needed
to grasp the behaviour of quantum systems. It then transitions into the realm
of quantum computing—unpacking its motivations, advantages over classical
computation, architecture, key principles like superposition and entanglement,
and real-world applications.
Special emphasis is laid on quantum error correction, a critical yet often overlooked topic necessary for the reliability and scalability of quantum technologies. Through a blend of rigorous theory and practical insight, the book attempts to demystify complex ideas, making the subject approachable for the students, researchers, and professionals alike.
Whether you are new
to the field or attempting to strengthen your theoretical foundation, the book offers
the tools and context needed to understand, engage with, and contribute to the
evolving world of quantum computing.
| Specifications | Descriptions |
|---|---|
| ISBN | 9788199172791 |
| Year | 2026 |
| Binding | Paperback |
| Subject | Quantum Computing |
| Pages | 88 |
| Weight | 0.1 (In Kg) |
| Readership | Computing science students/professionals |
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