Alexion Techno Research and Training

Alexion Techno Noida is constantly seeking excellence in the technology forefront and currently offers the following services based on significant recent technological innovations.

Blockchain and Web3.0/Semantic Web Application


Our training programs aim to equip learners with the knowledge and skills to comprehend, execute, evaluate, and formulate the components of Blockchain technology and its practical uses. The goal is to delve into the ways web3.0 approaches utilize blockchain technology, examine the transformative impact of evolving blockchain methods with AI/ML in the business landscape, and grasp the application of programming in Blockchain alongside Data Analytics.

Production Grade Permissioned Blockchain Applications/Software/IPR/PoC:

We have a dedicated and comprehensive solution architecture approach to understand the required building blocks of Blockchain Technologies for real-world applications. We understand, apply, and analyze Blockchain products and services in diverse domains with Focus in the following aspects.

  • Understand Smart Contracts/ Chaincode, DApps and working principles as per Business Requirements.
  • Explore the disruptive force of changes in business using AI/ML programming with Blockchain and Data Analytics.
  • Assisted DApp development with Blockchain and Data Analytics to get ready for production level real life applications.

Quantum Computing(QC) and Quantum Machine Learning(QML)


Our Training modules are carefully designed to introduce both aspiring and experienced digital computing professionals to the fundamental concepts of quantum computing, a field poised to reshape our technological future. The training sessions are intended to cover key topics such as quantum algorithms and the major challenges currently faced in quantum computing. It will also provide a summary of industry perspectives from leading entities like IBM, Google, Microsoft, IonQ, Rigetti, D-Wave, and Intel Quantum SDK. Additionally, our training modules will offer experimental sessions of the programming tools available for developing quantum algorithms, particularly those involving multiple qubit systems. The longer duration training sessions will explore advanced secure communication strategies enabled by quantum mechanics, focusing on the practical aspects of quantum cryptography. This includes the generation, detection, and application of both single and entangled qubits in quantum key distribution and quantum teleportation.

Ultimately, the aim is to equip a skilled and forward-thinking workforce with a foundational and practical hands-on understanding of quantum computing via developing application use cases. Attendees will be inspired by the potential of integrating these principles into the creation of innovative machine-learning algorithms and quantum machine learning applications

Production Grade Quantum Computing Applications/Software/IPR:

Apart from equipping professionals with understanding of Quantum computing and QML we are a dedicated team of professionals poised to develop IPRs, SDKs specific to the diverse industry requirements.

SoC/Software/IPR/PoC for TACTICAL DATA LINK Protocol equivalents

We are also in the process of filling IPRs based on our research in Situational Awareness Data Link(SADL) and other TACTICAL DATA LINKS (TDLs) targeting the defense sector. Since these research based products involve IPR, Our team has a clear policy to not share our research content further without holding NDA/MoU. Please contact our team for further details.

Research Team and Associates

Dr. Vikash Chouhan

Postdoctoral Research Scientist,
Canadian Institute for Cybersecurity, NB, Canada,

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Dr. Vikas Chouhan is serving as a Postdoctoral Fellow and Team Lead at the Canadian Institute for Cybersecurity, University of New Brunswick, Canada. He earned both his M.Tech and Ph.D. degrees in Computer Science and Engineering from the esteemed Indian Institute of Technology, Roorkee, India. His research has resulted in numerous publications in reputable journals and conferences. He also actively contributed as a program committee member for various international conferences. During his current association with Canadian Institute for Cybersecurity, He Led collaborative projects with a financial institution and the National Cybersecurity Consortium (NCC) to advance practical applications and research in Post-Quantum Cryptography.

Dr. Ananjay Singh

CTO & Domain Partner,
Quantum Computing and Machine Learning,
Alexion Techno Pvt. Ltd., Noida

[email protected],  
[email protected]
+91-7830035648,  +91 7060623711

Ananjay Singh is a passionate researcher in the fields of quantum computing and quantum machine learning. Besides having plethora of research experience with his association as research scholar @IIT Roorkee, he presented his research work in sessions co-organized by research entities such as NASA -GSFC, NASA-JPL, JAXA(The Japan Aerospace Exploration Agency) and COSPAR(The Committee on Space Research). He can be easily reached at [email protected], [email protected]

Dr. Anshul Arora

Assistant Professor,
Department of Applied Mathematics,
Delhi Technological University,

+91-9557020507,  +91 9416548025

Dr. Anshul Arora is working as Assistant Professor in the Discipline of Mathematics and Computing, Department of Applied Mathematics, Delhi Technological University since September 2018. He has done his Ph.D. and MTech. from the Department of Computer Science and Engineering, Indian Institute of Technology Roorkee. His research interests include Quantum Computing and Quantum Algorithms, Mobile Security, Network Security, Machine Learning and Blockchain. He has published several research papers in his research areas in reputed journals and conferences. He is also the reviewer of various journals such as IEEE Transactions on Information Forensics and Security, Expert Systems with Applications Elsevier, Multimedia Tools and Applications Springer, Computers and Security Elsevier, etc. He has also received the DTU Premier Research Excellence award for publishing his research in top quality journals. He has given several expert lectures / invited talks in DRDO, IIT Roorkee, PEC Chandigarh, Gurugram University, etc.




Quantum computing is the next generation of computing technology based on quantum mechanics principles. Traditional computers employ bits that can be either ‘0’ or ‘1’ whereas quantum computers use Qubits which can exist in several states at the same time due to superposition and entanglement. This enables quantum computers to perform certain tasks exponentially faster than classical computers. Quantum computing has applications in encryption, drug development, materials research, and other fields. Building stable quantum systems and tackling encryption security concerns are among the challenges. It marks a major advancement in computing with far-reaching consequences for many industries.
The aim of this strategic training programme is to impart basic knowledge of quantum computing to government employees. It will train them to navigate the transformative impact of this next-generation technology. Quantum computing has far-reaching implications for national security, data encryption, innovation, and strategic planning. Government personnel with quantum expertise can contribute to secure communications, informed policy decisions, and harnessing the potential of quantum technology for enhanced disaster preparedness. This training ensures that governments remain at the forefront of technological advancements and can effectively address the challenges and opportunities presented by quantum computing in the public sector.


  • DAY-1. Introduction to Quantum Computing, History of Quantum Computation.
  • DAY-2. Applications & Use Cases, Quantum Vs. Classical Computing, Quantum Initiatives & Resources.
  • DAY-3. Superposition & Entanglement principles, Qubit Technologies.
  • DAY-4. Exposure to Circuit Composer, Quantum Information Science Kit (QISKIT), and Quantum Simulator (QSIM) Toolkit.
  • DAY-5. Quantum Mechanics & Linear Algebra, Linear operators and matrices, Pauli matrices, Inner products,Tensor products.
  • DAY-6. A brief introduction to Python Programming,Features, and Installation.
  • DAY-7. Single/Multiple Qubit Gates, Quantum Circuits, Bell States.
  • DAY-8. Quantum Teleportation, Super Dense Coding.
  • DAY-9. Quantum Algorithms: Quantum Fourier Transform, Grover’s algorithm.
  • DAY-10. Implementations of Quantum Fourier Transform and Grover’s algorithm.