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Implement conjugation

master
Pete Shadbolt 8 роки тому
джерело
коміт
a50ebdd71b
3 змінених файлів з 51 додано та 16 видалено
  1. +30
    -2
      abp/clifford.py
  2. +9
    -9
      scripts/investigate_rightphase.py
  3. +12
    -5
      tests/test_conjugation.py

+ 30
- 2
abp/clifford.py Переглянути файл

@@ -9,14 +9,24 @@ from functools import reduce
import itertools as it
import numpy as np
from tqdm import tqdm
# import argparse

import qi

decompositions = ("xxxx", "xx", "zzxx", "zz", "zxx", "z", "zzz", "xxz",
"xzx", "xzxxx", "xzzzx", "xxxzx", "xzz", "zzx", "xxx", "x",
"zzzx", "xxzx", "zx", "zxxx", "xxxz", "xzzz", "xz", "xzxx")

def conjugate(vop, transform):
""" Returns transform * vop * transform^dagger and a phase in {+1, -1} """
assert vop in set(xrange(4))
op = times_table[transform, vop]
op = times_table[op, conjugation_table[transform]]
is_id_or_vop = (transform % 4 == 0) or (transform % 4 == vop)
is_non_pauli = (transform >= 4) and (transform <= 15)
phase = ((-1, 1), (1, -1))[is_id_or_vop][is_non_pauli]
if vop == 0:
phase = 1
return op, phase

def get_name(i):
""" Get the human-readable name of this clifford """
@@ -94,6 +104,24 @@ def get_state_table(unitaries):
np.dot(kp, state).T)
return state_table

def get_measurement_table():
"""
Compute a table of transform * operation * transform^dagger
This is pretty unintelligible right now, we should probably compute the phase from unitaries instead
"""
for operation_index, transform_index in itertools.product(range(4), range(24)):
assert vop in set(xrange(4))
op = times_table[transform, vop]
op = times_table[op, conjugation_table[transform]]
is_id_or_vop = (transform % 4 == 0) or (transform % 4 == vop)
is_non_pauli = (transform >= 4) and (transform <= 15)
phase = ((-1, 1), (1, -1))[is_id_or_vop][is_non_pauli]
if vop == 0:
phase = 1
return op, phase



def get_commuters(unitaries):
""" Get the indeces of gates which commute with CZ """


+ 9
- 9
scripts/investigate_rightphase.py Переглянути файл

@@ -1,13 +1,13 @@
from anders_briegel import graphsim
from abp import clifford, qi
import itertools
import numpy as np

for i in range(4):
for j in range(24):
a = graphsim.LocCliffOp(i)
b = graphsim.LocCliffOp(j)
print
print i, j
print i, j, a.op, b.op
output = a.conjugate(b)
print i, j, a.op, b.op, output.ph
for i, j in itertools.product(range(4), range(24)):
operation, phase = clifford.conjugate(i, j)
vop_u = clifford.unitaries[i]
transform_u = clifford.unitaries[j]
u = np.dot(transform_u, np.dot(vop_u, qi.hermitian_conjugate(transform_u)))
#print u.round(2)



+ 12
- 5
tests/test_conjugation.py Переглянути файл

@@ -1,4 +1,5 @@
from anders_briegel import graphsim
from abp import clifford
import itertools

#//! replaces op by trans * op * trans^dagger and returns a phase,
@@ -7,9 +8,15 @@ import itertools

def test_conjugation():
""" Test that clifford.conugate() agrees with graphsim.LocCliffOp.conjugate """
for i, j in it.product(range(4), range(24)):
a = graphsim.LocCliffOp(i)
b = graphsim.LocCliffOp(j)
output = a.conjugate(b)
print i, j, a.op, b.op, output.ph
for operation_index, transform_index in itertools.product(range(4), range(24)):
transform = graphsim.LocCliffOp(transform_index)
operation = graphsim.LocCliffOp(operation_index)

phase = operation.conjugate(transform).ph
phase = [1, 0, -1][phase]
new_operation = operation.op

NEW_OPERATION, PHASE = clifford.conjugate(operation_index, transform_index)
assert new_operation == NEW_OPERATION
assert PHASE == phase


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