At QS3 Consulting, we are actively engaged in cutting-edge research to help businesses understand, prepare for, and integrate quantum computing into their operations. Our team of quantum experts works closely with clients to identify potential use cases, develop quantum-ready algorithms, and build the workforce of the future. We believe that quantum computing is not just a theoretical concept but a transformative technology that will revolutionize industries across the board. Partner with us to stay ahead of the curve and unlock the immense potential of quantum computing for your business.
From a computer science perspective, how can a quantum computer outperform a classical computer? You will learn the following:
Representing computation with basic linear algebra (matrices and vectors)
The computational workings of qbits, superposition, and quantum logic gates
Solving the Deutsch oracle problem: the simplest problem where a quantum computer outperforms classical methods
Bonus topics: quantum entanglement and teleportation
The talk concludes with a live demonstration of quantum entanglement on a real-world quantum computer, and a demo of the Deutsch oracle problem implemented in Q# with the Microsoft Quantum Development Kit. This talk assumes no prerequisite knowledge, although comfort with basic linear algebra (matrices, vectors, matrix multiplication) will ease understanding.
The construction of a truly useful quantum computer requires error-corrected qubits, known as a logical qubit. In 2023, the team achieved the first-ever demonstration of a logical qubit prototype, showing that it's possible to reduce errors by increasing the number of qubits in a scheme known as quantum error correction.
Through this work, the team was able to bring quantum error-correction beyond the theoretical to the practical, unlocking a clear path to large-scale useful quantum computers. With a logical qubit prototype, we expect to unlock beyond classical NISQ applications.