2-Day Research Workshop

Master Algebraic Coding Theory
& Computation

Dive deep into error-correcting codes, quantum error-correcting codes, and cutting-edge computational tools

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Limited to 50 participants
2
Days
6
Expert Instructors
7
Core Modules
TBA
All Inclusive

Why This Workshop?

In an era where data security and quantum computing are reshaping technology, understanding algebraic coding theory isn't just academic—it's essential. This intensive workshop bridges theoretical foundations with practical computational skills.

Error Correcting Codes

Master classical linear codes, BCH, and Reed-Solomon codes.

Quantum Ready

Explore quantum error correction and stabilizer codes—preparing you for the quantum computing revolution

Hands-on Magma

Get practical with computational algebra and coding theory using Magma

Your Learning Journey

From mathematical foundations to the applications

Mathematical Foundations

Learn finite fields, polynomial algebra, and non-commutative polynomial rings.

Classical Code Construction

Generate and analyze Hamming, BCH, and Reed-Solomon codes

Advanced Algorithms

Implement Berlekamp-Massey, Viterbi, and quantum error correction algorithms

Real-world Applications

Connect theory to modern communication systems, data storage, and quantum computing

Certificate of Completion

Earn a verified certificate showcasing your expertise in algebraic coding theory

Recognized by industry professionals

Tentative Curriculum

Two days packed with theory, practice, and hands-on implementation

Day 1: Foundations & Classical Codes

1 Finite Field Theory

Field extensions, irreducible polynomials, trace and norm operations

2 Linear Block Codes

Generator matrices, parity-check matrices, Hamming codes construction

3 Cyclic & BCH Codes

Cyclic code properties, generator polynomials, BCH code construction

4 Reed-Solomon Codes

Encoding/decoding algorithms, Berlekamp-Massey, Forney's algorithm

Day 2: Advanced Topics & Implementation

5 Introduction to Quantum Computing

Classical vs Quantum Computing, Quantum Bits and States, Quantum Gates and Circuits, Two-Qubit Operations, Entanglement, Quantum Algorithms

6 Quantum Error Correction

Stabilizer codes, CSS codes, Shor's code overview

7 Magma Programming

Hands-on implementation: Find code parameters and prove algebraic results using computational algebra

Live Coding Session

Interactive implementation and debugging

Learn from the Best

World-class faculty from premier institutions

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Prof. Om Prakash

Professor, IIT Patna

Leading expert in algebraic coding theory with 15+ years of research experience

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Dr. Shikha Patel

Assistant Professor, IIIT Bhopal

Specialist in computational algebra and error-correcting codes applications

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Dr. Ashutosh Singh

Postdoctoral Research Associate, IISc Bengaluru

Quantum computing researcher focusing on error correction and cryptography

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Workshop Details

Schedule & Format

Duration 2 Full Days
Days Friday & Saturday
Time All Day (IST)
Format Live Online

Prerequisites

Bachelor's in Mathematics, CS, or EE
Familiarity with linear algebra
Basic programming knowledge

Perfect for researchers, graduate students, and industry professionals

Secure Your Spot Today

Join an exclusive cohort of researchers and professionals

TBA
All inclusive • No hidden fees
Certificate included
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