[{"content":"Hi! I\u0026rsquo;m Armin, a PhD student in Computer Science at McMaster University. I enjoy building quantum-enhanced solutions, exploring graph neural networks, and sharing my research with the community.\n","date":"23 November 2025","externalUrl":null,"permalink":"/","section":"Home","summary":"","title":"Home","type":"page"},{"content":"","date":"12 December 2025","externalUrl":null,"permalink":"/about/","section":"Abouts","summary":"","title":"Abouts","type":"about"},{"content":" h-index: 4 Citations: 82 Quick Facts Quantum\nSoftware Developing state-of-the-art quantum software and cryptographic schemes using Python libraries such as Qiskit and PennyLane. AI \u0026 ML Expertise in Quantum Graph Convolutional Neural Networks (QGCN) and Deep Quantum Neural Networks (DQNN). Research\nImpact Published articles (Phys. Rev. A, Springer). Focused on NISQ-compatiblility of Quantum Neural Networks and Algorithms. Engineering Strong foundation in Electrical \u0026 Telecom Engineering (BSc \u0026 MSc), bridging hardware and software. Leadership Instructed 540+ students in QML summer schools. Mentored 30+ researchers. Reasearch Board Member for Qworld. Academic PhD Student. MSc Ranked 3rd (GPA 18.18/20). Top 1% in Graduate School National Entrance Exam among 30,000. Tech Stack Programming Languages Python GO C++ Quantum SDKs Qiskit PennyLane AI \u0026 Data PyTorch Scikit-Learn TensorFlow PyTorch Geometric Numpy Pandas Matplotlib Engineering Software HFSS CST ADS MATLAB Web HTML CSS Hugo Development Tools Git Github GitLab VSCode Jupyter Education PhD, Computer Science McMaster University Sep 2024 — Present Researching Quantum Software, Algorithms, and Post-Quantum Cryptography. MSc, Electrical Eng. University of Tehran Sep 2021 — Jun 2024 Thesis: NISQ compatible error correction using modified Dissipative Quantum Neural Networks (Grade 20/20). BSc, Electrical Eng. IKIU Sep 2016 — Feb 2021 Thesis: Microstrip Fed Log-Periodic Balun Printed Dipole (Grade 18.5/20).\nExtra Thesis: Quantum Teleporation in distributed systems (Grade 20/20). ","date":"12 December 2025","externalUrl":null,"permalink":"/about/cv/","section":"Abouts","summary":"CV","title":"Armin Ahmadkhaniha","type":"about"},{"content":" Get in Touch I am always open to discussing new projects, research collaborations, or opportunities in Quantum Computing and Software Development. Email ahmadkha@mcmaster.ca GitHub /ArminAhmadkhaniha LinkedIn /armin-ahmadkhaniha ","date":"29 November 2025","externalUrl":null,"permalink":"/about/contact/","section":"Abouts","summary":"","title":"Contact Me","type":"about"},{"content":" Code \u0026 Research A collection of my work bridging the gap between theoretical algorithms and practical, high-performance software implementations. Quantum Software Developing scalable libraries and tools using Python, C++, and Qiskit to run complex algorithms on NISQ devices. Algorithm Design Focusing on efficient implementations of Deterministic Algorithms and Quantum Machine Learning models. Cryptography Exploring Post-Quantum Cryptography and LWE (Learning with Errors) problem for secure future communications. My Projects ↓ ","date":"29 November 2025","externalUrl":null,"permalink":"/projects/","section":"Projects","summary":"","title":"Projects","type":"projects"},{"content":"","date":"23 November 2025","externalUrl":null,"permalink":"/tags/library/","section":"Tags","summary":"","title":"Library","type":"tags"},{"content":" Python Qiskit Linear Algebra arXiv:2510.16625 Real-valued transforms such as the discrete cosine, sine, and Hartley transforms play a central role in classical computing, complementing the Fourier transform in applications from signal processing to data compression. QRTLib addresses the gap in quantum computing by providing a unified framework for implementing these transforms efficiently on quantum hardware. Unified Framework The first complete implementation of Quantum Hartley, Cosine, and Sine transforms of various types within a single library. LCU Technique Introduces a quantum Hartley transform based on Linear Combination of Unitaries, achieving a reduction in circuit size compared to prior methods. Circuit Optimization Novel optimization strategies including two's-complement arithmetic and or-tree constructions to remove large multi-controlled operations. Native Qiskit Support Built directly for the Qiskit ecosystem, making it easy for researchers and developers to integrate real transforms into their existing quantum algorithms. Read Full Paper on arXiv ","date":"23 November 2025","externalUrl":null,"permalink":"/projects/qrtlib/","section":"Projects","summary":"","title":"QRTLib","type":"projects"},{"content":"","date":"23 November 2025","externalUrl":null,"permalink":"/tags/quantum-computing/","section":"Tags","summary":"","title":"Quantum Computing","type":"tags"},{"content":"","date":"23 November 2025","externalUrl":null,"permalink":"/tags/research/","section":"Tags","summary":"","title":"Research","type":"tags"},{"content":"","date":"23 November 2025","externalUrl":null,"permalink":"/tags/","section":"Tags","summary":"","title":"Tags","type":"tags"},{"content":"","externalUrl":null,"permalink":"/authors/","section":"Authors","summary":"","title":"Authors","type":"authors"},{"content":"","externalUrl":null,"permalink":"/categories/","section":"Categories","summary":"","title":"Categories","type":"categories"},{"content":"","externalUrl":null,"permalink":"/series/","section":"Series","summary":"","title":"Series","type":"series"}]