2026-27 Academic Year
3 - 5 Years
Qualified Class 12 in any discipline
JG University's B.Sc. / B.Sc. (Hons) / iMSc in Quantum Computing is designed to provide strong foundations in physics, mathematics, and computer science with specialized knowledge in quantum algorithms, quantum information theory, cryptography, and emerging quantum technologies. The B.Sc. is a 3-year programme, B.Sc. (Hons) is a 4-year, 8-semester programme with an exit option after the third year, and the iMSc pathway enables students to seamlessly progress toward a Master's degree. The programme integrates theoretical concepts with computational simulations, laboratory exposure, research projects, and industry-oriented learning. Guided by experienced academicians and researchers, the curriculum emphasizes analytical thinking, advanced problem-solving, innovation, and research aptitude. The objective is to develop future-ready professionals and "Whole Brain Change Makers" who contribute to next-generation computing technologies.
₹ 70,000/- (Seventy Thousand Only) – First Three Years
₹ 75,000/- (Seventy-Five Thousand Only) – Last Year of Honours Degree
₹ 75,000/- (Seventy-Five Thousand Only) – Last Two Years of iMSc Degree
The students seeking admission in the B.Sc. / B.Sc. (Hons) / iMSc programme shall have passed the HSC examination (Class 12) or equivalent from a recognized board.
The candidate must have obtained the following minimum aggregate marks (grand total) at the above qualifying examination.
For open category candidates 45%
For reserved category candidates 40%
Programme designed as per National Education Policy 2020 with multiple exit options
Strong foundations in physics, mathematics, and computer science with specialized quantum algorithms, cryptography, and quantum information theory
Integration of theoretical quantum concepts with computational simulations and emerging quantum technologies
Laboratory exposure, research projects, and industry-oriented learning for practical quantum computing skills
Emphasis on analytical thinking, advanced problem-solving, innovation, and research aptitude
Guidance from experienced academicians and researchers with expertise in quantum computing and next-generation technologies
Flexible exit options as per National Education Policy
Provide strong foundations in physics, mathematics, and computer science underpinning quantum computing
Develop specialized knowledge in quantum algorithms, quantum information theory, and cryptography
Integrate theoretical quantum concepts with computational simulations and emerging quantum technologies
Cultivate analytical thinking, advanced problem-solving, innovation, and research aptitude
Provide laboratory exposure and research project opportunities for practical quantum computing application
Develop future-ready quantum computing professionals and "Whole Brain Change Makers" contributing to next-generation technologies
Strong foundations in quantum physics, mathematics, and computer science underpinning quantum systems
Proficiency in quantum algorithms, quantum information theory, cryptography, and quantum programming
Ability to apply computational simulations and emerging quantum technologies to real-world challenges
Advanced analytical thinking, problem-solving, and research aptitude in quantum science
Readiness for careers in quantum research, next-generation computing, cryptography, and technology development
Capacity to contribute meaningfully to quantum technology innovation and next-generation computing ecosystems
Structured modules covering quantum physics, algorithms, information theory, cryptography, and emerging quantum technologies
Next-generation quantum computing curriculum developed by researchers, physicists, and technology experts
Exposure to diverse peers, quantum computing researchers, and advanced technology practitioners
Laboratory exposure and research projects providing hands-on quantum computing and simulation experience
Industry-oriented quantum computing projects bridging academic theory with real-world technological applications
Career pathways in quantum research, next-generation computing, cryptography, and technology innovation
Computational simulation environments and quantum laboratory facilities for applied learning
Support for quantum technology innovations and deep-tech startups at various development stages
Our doors are always open for the lifelong learner in you, with special advantage as a JGiet
Our Admission process enables us to meticulously give importance to every individual applying. The admission of the applicant will majorly be based on our admission process scores.