def use_ROTN(self, angle_x_rads, angle_y_rads, angle_z_rads, tar_bit_pos, controls): """ Writes line in IBM qasm file corresponding to an English file line of type: ROTN with no controls. Parameters ---------- angle_x_rads : float angle_y_rads : float angle_z_rads : float tar_bit_pos : int controls : Controls Returns ------- None """ assert len(controls.bit_pos) == 0 rad_ang_list = [angle_x_rads, angle_y_rads, angle_z_rads] assert ug.all_floats(rad_ang_list), \ 'At present, IBM qasm does not support variable angles' arr = OneBitGates.rot(*rad_ang_list) line_str = Qubiter_to_IBMqasm.qasm_line_for_rot(arr, tar_bit_pos) self.aqasm_out.write(line_str) if self.write_qubiter_files: self.qbtr_wr.write_controlled_one_bit_gate(tar_bit_pos, controls, OneBitGates.rot, rad_ang_list)
def use_MP_Y(self, tar_bit_pos, controls, rad_angles): """ This is an override of a function in the parent class EchoingSEO_reader. This is the only use_ function of this class that doesn't simply echo its input line. This function does most of its work inside the Multiplexor_SEO_writer.write() function that it calls. Parameters ---------- tar_bit_pos : int controls : Controls rad_angles : list[float] Returns ------- None """ # the flag eval_all_vars = False so should check this assert utg.all_floats(rad_angles) emb, nt, nf = self.emb_for_plexor(tar_bit_pos, controls) self.wr.emb = emb self.wr.rad_angles = rad_angles self.wr.num_T_trols = nt self.wr.num_F_trols = nf # style and num_gbits for wr are set by constructor self.wr.write() # revert to default embedder self.wr.emb = CktEmbedder(self.num_bits, self.num_bits)
def use_ROTN(self, angle_x_rads, angle_y_rads, angle_z_rads, tar_bit_pos, controls): """ Writes line in PyQuil file corresponding to an English file line of type: ROTN with no controls. Parameters ---------- angle_x_rads : float angle_y_rads : float angle_z_rads : float tar_bit_pos : int controls : Controls Returns ------- None """ assert len(controls.bit_pos) == 0 rad_ang_list = [angle_x_rads, angle_y_rads, angle_z_rads] assert ug.all_floats(rad_ang_list), \ "With Pyquil, ROTN with any of its 3 angles variable is " +\ "not allowed. Workaround: can use 3 rotations of type " +\ "Rx, Ry or Rz with variable angles." arr = OneBitGates.rot(*rad_ang_list) delta, left_rads, center_rads, right_rads = \ UnitaryMat.u2_zyz_decomp(arr) end_str = ', ' + str(tar_bit_pos) + ')\n' line_str = 'pg += RZ(' + str(-2 * right_rads) + end_str self.aqasm_out.write(line_str) line_str = 'pg += RY(' + str(-2 * center_rads) + end_str self.aqasm_out.write(line_str) line_str = 'pg += RZ(' + str(-2 * left_rads) + end_str self.aqasm_out.write(line_str) if self.write_qubiter_files: self.qbtr_wr.write_controlled_one_bit_gate(tar_bit_pos, controls, OneBitGates.rot_ax, [right_rads, 3]) self.qbtr_wr.write_controlled_one_bit_gate(tar_bit_pos, controls, OneBitGates.rot_ax, [center_rads, 2]) self.qbtr_wr.write_controlled_one_bit_gate(tar_bit_pos, controls, OneBitGates.rot_ax, [left_rads, 3])
def use_ROTN(self, angle_x_rads, angle_y_rads, angle_z_rads, tar_bit_pos, controls): """ Writes line in Cirq file corresponding to an English file line of type: ROTN with no controls. Parameters ---------- angle_x_rads : float angle_y_rads : float angle_z_rads : float tar_bit_pos : int controls : Controls Returns ------- None """ assert len(controls.bit_pos) == 0 rad_ang_list = [angle_x_rads, angle_y_rads, angle_z_rads] assert ug.all_floats(rad_ang_list), \ "With Cirq, ROTN with any of its 3 angles variable is " +\ "not allowed. Workaround: can use 3 rotations of type " +\ "Rx, Ry or Rz with variable angles." arr = OneBitGates.rot(*rad_ang_list) delta, left_rads, center_rads, right_rads = \ UnitaryMat.u2_zyz_decomp(arr) end_str = ').on(' + self.bit2str(tar_bit_pos) + '))\n' line_str = 'ckt.append(Rz(rads=' + str(-2*right_rads) + end_str self.aqasm_out.write(line_str) line_str = 'ckt.append(Ry(rads=' + str(-2*center_rads) + end_str self.aqasm_out.write(line_str) line_str = 'ckt.append(Rz(rads=' + str(-2*left_rads) + end_str self.aqasm_out.write(line_str) if self.write_qubiter_files: self.qbtr_wr.write_controlled_one_bit_gate(tar_bit_pos, controls, OneBitGates.rot_ax, [right_rads, 3]) self.qbtr_wr.write_controlled_one_bit_gate(tar_bit_pos, controls, OneBitGates.rot_ax, [center_rads, 2]) self.qbtr_wr.write_controlled_one_bit_gate(tar_bit_pos, controls, OneBitGates.rot_ax, [left_rads, 3])