Write, autoreview, editor, reviewer
3,129
edits
Supplementary Information: Difference between revisions
Jump to navigation
Jump to search
→Hierarchy of Quantum Gates
| Line 22: | Line 22: | ||
*'''Toffoli Gate:''' A three qubit gate that does not belong to Clifford Group | *'''Toffoli Gate:''' A three qubit gate that does not belong to Clifford Group | ||
*'''T Gates:''' \sqrt{Z} Although a member of Clifford Gate, its eigen states can be used as acillas to make quantum gate sthat are not! | *'''T Gates:''' \sqrt{Z} Although a member of Clifford Gate, its eigen states can be used as acillas to make quantum gate sthat are not! | ||
*'''Universal Set of gates:''' This set consists of all Clifford gates and one Non-Clifford gate (T gate). One can also say one Toffoli gate and Hadamard gate constitute the set of Universal Gates. If a model can realise Universal Set of gates, it can imlpement any quantum computation efficiently. T gates follow UT = PaU0T, where P is the phase gate and U, U’ are any two Pauli gates depending on C. Parameter 1 is obtained from U, such that P0 = I, P1 = P. | *'''Universal Set of gates:''' This set consists of all Clifford gates and one Non-Clifford gate (or T gate). One can also say one Toffoli gate and Hadamard gate constitute the set of Universal Gates. If a model can realise Universal Set of gates, it can imlpement any quantum computation efficiently. T gates follow UT = PaU0T, where P is the phase gate and U, U’ are any two Pauli gates depending on C. Parameter 1 is obtained from U, such that P0 = I, P1 = P. | ||
To summarize, the hierarchy of quantum can be defined as such.<br/> | To summarize, the hierarchy of quantum can be defined as such.<br/> | ||