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Quantum Computing Basics Course
INR ₹2,499.00 INR ₹24,999.00Price range: INR ₹2,499.00 through INR ₹24,999.00
The Quantum Computing Basics for Advanced Research program delves into the fundamental concepts and technologies underpinning quantum computing. Designed for researchers in computational sciences, physics, and related disciplines, this course equips participants with the necessary knowledge to begin working with quantum computers and to understand their potential impacts on various scientific domains.
Aim
This course introduces participants to the fundamental concepts of quantum computing and its potential applications. It is designed to give a broad understanding of how quantum computing differs from classical computing, and how it can be used to solve complex problems in fields such as cryptography, optimization, and machine learning. Participants will explore key topics such as quantum bits, superposition, entanglement, and the most prominent quantum algorithms.
Program Objectives
- Understand the core principles of quantum mechanics and how they apply to quantum computing.
- Learn about quantum bits (qubits) and how they differ from classical bits in terms of computing power.
- Explore basic quantum algorithms, including Grover’s and Shor’s algorithms, and their applications.
- Understand the concept of quantum superposition and entanglement and how they are used to enhance computing capabilities.
- Gain hands-on experience with quantum programming languages and simulators for real-world quantum computing applications.
Program Structure
Module 1: Introduction to Quantum Computing
- Overview of classical computing vs quantum computing.
- Key concepts in quantum mechanics: superposition, entanglement, and quantum interference.
- Applications of quantum computing in solving intractable problems for classical computers.
Module 2: Quantum Bits (Qubits)
- What are qubits? Introduction to the physical realization of qubits in quantum systems.
- Understanding the concept of superposition and how it enables quantum computing to process multiple possibilities simultaneously.
- The measurement problem in quantum mechanics: How qubits collapse into a single state upon measurement.
Module 3: Quantum Entanglement
- Understanding quantum entanglement and its role in quantum communication and computing.
- Applications of entanglement in quantum teleportation, superdense coding, and cryptography.
- How entangled qubits can solve problems that classical computing cannot handle efficiently.
Module 4: Quantum Algorithms
- Introduction to quantum algorithms: Grover’s search algorithm, Shor’s factoring algorithm, and their implications for computing.
- Understanding quantum speedup: How quantum algorithms can offer significant performance improvements for specific problems.
- Basic implementation of quantum algorithms using quantum programming languages.
Module 5: Quantum Computing in Cryptography
- The role of quantum computing in breaking classical cryptographic systems: Shor’s algorithm and its impact on public-key cryptography.
- Introduction to quantum cryptography: How quantum mechanics can enhance security through quantum key distribution (QKD).
- Exploring post-quantum cryptography and how to secure data against quantum attacks.
Module 6: Quantum Machine Learning
- Introduction to quantum machine learning: How quantum computing can enhance machine learning algorithms.
- Applications of quantum computing in data analysis, pattern recognition, and optimization.
- Using quantum-enhanced algorithms for tasks like clustering, classification, and regression.
Module 7: Building and Simulating Quantum Circuits
- Using quantum programming languages like Qiskit and Cirq to write quantum circuits.
- Hands-on experience in simulating quantum algorithms on quantum simulators.
- Designing and implementing quantum circuits for specific computational tasks.
Module 8: Quantum Computing Hardware
- Overview of the different quantum computing hardware technologies: Superconducting qubits, trapped ions, and topological qubits.
- Challenges in scaling up quantum hardware and the current state of quantum computing platforms.
- The future of quantum computing hardware and the quest for fault-tolerant quantum computing systems.
Final Project
- Design a quantum algorithm for a real-world problem (e.g., optimization, search, or cryptography).
- Implement the algorithm using quantum programming languages and simulate it using quantum simulators.
- Write a report on the performance, potential applications, and challenges of the quantum algorithm you implemented.
Participant Eligibility
- Students and professionals in Computer Science, Physics, Mathematics, and Engineering with an interest in quantum computing.
- Researchers exploring the potential of quantum computing for solving complex problems in various industries.
- Anyone interested in gaining a comprehensive understanding of quantum computing and its applications in machine learning, cryptography, and more.
Program Outcomes
- Comprehensive understanding of quantum mechanics and its application to quantum computing.
- Proficiency in using quantum programming languages like Qiskit and Cirq to build quantum circuits and algorithms.
- Hands-on experience in implementing quantum algorithms and simulating them on quantum simulators.
- Knowledge of the current state of quantum computing hardware and the potential future developments in the field.
Program Deliverables
- Access to e-LMS: Full access to course materials, tutorials, and resources.
- Hands-on Project Work: Practical assignments and quantum algorithm implementation.
- Research Paper Publication: Opportunities to publish research findings and case studies in relevant journals.
- Final Examination: Certification awarded after completing the exam and final project.
- e-Certification and e-Marksheet: Digital credentials provided upon successful completion.
Future Career Prospects
- Quantum Software Developer
- Quantum Computing Researcher
- Cryptography Specialist
- Machine Learning Engineer (Quantum Computing)
- Quantum Hardware Developer
Job Opportunities
- Quantum Computing Companies: Developing quantum algorithms and quantum software solutions for various industries.
- Research Institutions: Investigating new quantum algorithms and applications in machine learning, cryptography, and optimization.
- Cybersecurity Firms: Using quantum computing to improve cryptographic systems and develop post-quantum encryption solutions.
- Tech Giants and Startups: Companies working on scaling quantum computing technologies and developing hardware platforms.
| Category | E-LMS, E-LMS+Video, E-LMS+Video+Live Lectures |
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