Esempio n. 1
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def cu_gate(unitary, control_qubit, target_qubit, nqubits):
	''' generate a CU gate unitary'''
	d=2**nqubits
	cu=np.matrix(np.zeros((d,d)), dtype=complex)
	extended_u=[unitary if i==target_qubit else qi.identity for i in range(nqubits)]
	extended_u=reduce(np.kron, extended_u)	
	for bit in range(d):
		name, state=vector_state(bit, nqubits)
		cu+=qi.ketbra(state, state) if name[control_qubit]=='0' else qi.ketbra(extended_u*state, state)
	return cu
Esempio n. 2
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def cu_gate(unitary, control_qubit, target_qubit, nqubits):
    ''' generate a CU gate unitary'''
    d = 2 ** nqubits
    cu = np.matrix(np.zeros((d, d)), dtype=complex)
    extended_u = [
        unitary if i == target_qubit else qi.identity for i in range(nqubits)]
    extended_u = reduce(np.kron, extended_u)
    for bit in range(d):
        name, state = vector_state(bit, nqubits)
        cu += qi.ketbra(state, state) if name[
            control_qubit] == '0' else qi.ketbra(extended_u * state, state)
    return cu
Esempio n. 3
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def swap_gate(qubit_1, qubit_2, nqubits):
	''' generate a SWAP gate unitary '''
	d=2**nqubits
	swap=np.matrix(np.zeros((d,d)), dtype=complex)
	for bit in range(d):
		name, state=vector_state(bit, nqubits)
		name_swapped=list(name)
		name_swapped[qubit_1]=name[qubit_2]
		name_swapped[qubit_2]=name[qubit_1]
		newstate=reduce(np.kron, map(lambda x: qi.zero if x=='0' else qi.one, name_swapped))
		swap+=qi.ketbra(newstate, state)
	return swap
Esempio n. 4
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def swap_gate(qubit_1, qubit_2, nqubits):
    ''' generate a SWAP gate unitary '''
    d = 2 ** nqubits
    swap = np.matrix(np.zeros((d, d)), dtype=complex)
    for bit in range(d):
        name, state = vector_state(bit, nqubits)
        name_swapped = list(name)
        name_swapped[qubit_1] = name[qubit_2]
        name_swapped[qubit_2] = name[qubit_1]
        newstate = reduce(
            np.kron, map(lambda x: qi.zero if x == '0' else qi.one, name_swapped))
        swap += qi.ketbra(newstate, state)
    return swap