About us
We are presently on the cusp of second quantum revolution due to the advancements in the field of quantum technologies based on the principles of quantum physics, defined nearly a century ago and being realized recently. Globally, the research is focused to achieve fault tolerant quantum computing (FTQC) that will usher a new quantum age where we will achieve quantum advantage by making quantum computing useful for practical applications. Presently we are in the NISQ era with intermediate scale quantum computers. Quantum sensing on the other hand is an already established field, however a lot of new advancements have been coming through and new applications are being discovered garnering a lot of interest in this field. Hence, the demand for quantum trained workforce is immense globally and our mission at QuComp is to build that workforce for both the Industry and academia.
At QuComp, our vision is for India to imbibe research and innovation in our culture. We have some of the best minds in the world and we need them to focus on innovations for our country. Therefore, we endeavor to deliver our programs at a nominal price point to invite maximum participation and keeping them entirely online for maximum reach.
While we presently specialize in quantum technologies, we further plan to enhance our center of excellence(COE) to include advanced physics trainings, management trainings, collaborating in projects with other organizations and contribute to the modern scientific research.
Our Flagship courses in quantum technologies are already up and running and we cordially welcome participants to enroll for them based on their need and interest.
Quantum Computing
Learn fundamentals of quantum mechanics, mathematics for quantum computing, working with qubits, entanglement, quantum algorithms, hardware basics, and latest research.
Successful students will be able to apply for various quantum computing internships, masters and PHD programs globally.
Quantum Sensing
Explore precision measurement techniques using quantum sensors: SQUIDs, OPMs, diamond-NV centers and more. Learn how to computationally model neuro-imaging scheme called magnetoencephalography using OPMs.
Students will write thesis on a topic of their liking in quantum sensing. This will increase their chances of admit into top universities.
Future courses planned on high-energy physics, Large hadron collider @ CERN and the upcoming HL-LHC. Participants will get to learn the workings of quantum force fields, gauge theories, Higgs and Gauge bosons, decays, dark matter and more.
Students will be guided to apply for European Center for Nuclear Research (CERN) and other Internship programs.
Advance particle physics (coming soon)
Hands-On
Build quantum circuits with Qiskit and simulate quantum sensor measurements using the SPM software.
Practical Quantum Sensing
Quantum sensing is the most evolved quantum technology where various types of quantum sensors are already used in a wide variety of industrial applications such as GPS, atomic clocks, measuring gravitational fields, very low frequency electrical and magnetic fields and more.
Expertise the theoretical concepts of various types of quantum sensors learned during the classes with practical simulation software. Understand the core knowledge about temporal, spatial and orientational resolution of a quantum sensor, SNR and sensor gain by simulating neuro-imaging techniques.
Practical Quantum Computing
Apply the concepts of Dirac notation, qubits, entanglement, Hamiltonians, wave-functions and more to execute quantum algorithms like quantum phase estimation, Shor's algorithm, Grover's and more and learn how to perform error correction and optimize solutions.
Build quantum circuits from scratch, execute quantum teleportation, hybrid quantum-classical algorithms for near term quantum computing solutions, variational ansatz and more.