Syllabus
Classical Bits versus Quantum Bits
{A comparison of Qubits with classical Bits}
qubit 0, 1, a valid superimposed state, a few real-time examples, block sphere representation state measurement, global and relative phase. A review of complex numbers, vector space, Hilbert Space, Linear Algebra.
qubit 0, 1, a valid superimposed state, a few real-time examples, block sphere representation state measurement, global and relative phase. A review of complex numbers, vector space, Hilbert Space, Linear Algebra.
Bracket Notations
{Six Different Forms of Bracket Notations}
Bra, Ket, Bra-Bra, Ket-Ket, Ket-Bra and Bra-Ket and their applications in quantum Computing
Bra, Ket, Bra-Bra, Ket-Ket, Ket-Bra and Bra-Ket and their applications in quantum Computing
Quantum Gates
Properties of Matrices for Quantum Gate, Identity, Examples of Single Input Quantum Gate: Not, X, Y, Z, Shift, Hadamard Gate . Two-input Quantum Gates, Swap gate, Controlled Gates
Quantum Circuits and Algorithms
State Entaglment and Partial Measurement
Grading Policy
- Continuous Assessment : 20%
- Mid Sem Exam: 20%
- End Sem Exams: 60% (20% + 30%)