Fatah Jamro
PhD Candidate in Quantum Computing | Atlantic Technological University Galway, Ireland
Research: Quantum Latin Squares and their applications in quantum information theory
Background: B.E. and M.E. in Electronics Engineering
About Fatah
Fatah Jamro is a quantum computing researcher and the founder of QuantumBeads. With a background in electronics engineering and current PhD research at Atlantic Technological University Galway, he combines theoretical depth with practical engineering experience.
With 5+ years of experience in electrical and electronics fields, Fatah brings a grounded perspective to quantum computing — understanding both the hardware realities and the algorithmic possibilities. His PhD research explores how Quantum Latin Squares can be applied to problems in hardware benchmarking, error correction, and cryptography.
Professional Background
Education
PhD in Quantum Computing
Atlantic Technological University (ATU) Galway, Ireland
Current (2022 - present)
Master of Engineering (M.E.)
Electronics Engineering
2020 - 2022
Bachelor of Engineering (B.E.)
Electronics Engineering
2013 - 2017
Professional Experience
5+ years of experience in electrical and electronics engineering fields, working on both hardware design and embedded systems projects. This industrial background provides practical insights into quantum hardware implementation challenges.
Founder
QuantumBeads
Founded during PhD studies to help organisations understand and adopt quantum computing through consulting, workshops, and applied research.
Research Focus
Quantum Latin Squares: Fatah's PhD research centres on Quantum Latin Squares and their applications in quantum information theory. He is exploring how these mathematical structures can be applied to quantum hardware benchmarking, error correction, and cryptography — an active and growing area of investigation.
Research Areas
Quantum Benchmarking
Exploring how quantum Latin squares can be used to characterise and verify quantum hardware performance.
Error Correction
Investigating quantum error correcting codes constructed from mutually orthogonal quantum Latin squares.
Quantum Cryptography
Exploring applications of quantum Latin squares in quantum secure communication protocols.
Quantum Algorithms
Investigating quantum algorithm implementations and optimization strategies.
Publications & Research Contributions
An Overview of Quantum Latin Squares in Quantum Information Theory
Abstract: Quantum Latin Squares have emerged as mathematical structures of interest in quantum information theory. This paper provides a comprehensive overview of quantum Latin squares and their applications. We aim to synthesize current knowledge for the benefit of researchers in quantum information theory.
We begin by establishing the theoretical foundation linking classical Latin squares with their quantum counterparts, providing insight into their potential applications in quantum error correction. Through detailed examination, we outline known constructions and properties of quantum Latin squares, highlighting their role in quantum computing frameworks. We explore relationships with mutually unbiased bases and unitary error bases, underscoring their importance in constructing quantum error correcting codes.
This overview compiles existing research while inspiring further exploration into Quantum Latin squares and their applications in quantum information theory, particularly for hardware verification and benchmarking applications analogous to classical error correcting codes.
Technical Expertise
Quantum Computing
- Quantum Algorithms
- Quantum Error Correction
- Quantum Information Theory
- Quantum Cryptography
- Hardware Benchmarking
Mathematical Foundations
- Linear Algebra
- Abstract Algebra
- Combinatorics
- Latin Squares
- Group Theory
Engineering
- Electronics Engineering
- Hardware Design
- Embedded Systems
- Signal Processing
- Circuit Analysis
Teaching & Outreach
Beyond research, Fatah is committed to advancing quantum computing education and awareness globally:
- Quantum Computing Winter School 2024: Organized and led an international winter school at Mehran University of Engineering & Technology, bringing quantum computing education to 200+ students and professionals
- QuantumBeads Blog: Regular articles on quantum computing topics, making complex concepts accessible to students and professionals
- Workshop Development: Designing and conducting hands-on workshops on quantum algorithms, error correction, and hardware verification
- Community Building: Building a global network of quantum computing enthusiasts and researchers
Vision for the Future
Fatah envisions a future where quantum computing is accessible, reliable, and transformative. Through QuantumBeads, he is working to:
- Establish quantum verification and benchmarking as industry standards
- Develop scalable solutions for quantum error correction
- Advance quantum computing education globally
- Foster collaboration between academia and industry
- Make quantum computing more accessible to diverse applications
Connect
Interested in collaboration, research partnerships, or quantum computing discussions?