def evaluate_4TTN(params, training_data, ancilla, total, rounding):
answers = np.zeros(training_data.shape[0])
L = training_data.shape[1] - 1
for i in range(training_data.shape[0]):
"""FOR EACH DATA POINT"""
"""Lets Encode the data elements first"""
psi = initial_encode(training_data[i, :L], ancilla)
"""Stage 1: Unitaries on all of the qubits, ancilla or not"""
for j in range(total):
psi = np.matmul(ry(params[j], j, total), psi)
"""Stage 2: CNOT plus unitary for N-1 times (cascading)"""
j = 0
psi = np.matmul(cnot(j, j + 1, total), psi)
psi = np.matmul(ry(params[total], j + 1, total), psi)
j = 3
psi = np.matmul(cnot(j, j - 1, total), psi)
psi = np.matmul(ry(params[total + 1], j - 1, total), psi)
j = 1
psi = np.matmul(cnot(j, j + 1, total), psi)
psi = np.matmul(ry(params[total + 2], j + 1, total), psi)
"""Stage 3: Trace and Measure"""
zero_prob = prob_zero(keep_n(psi, total, 2))
"""Stage 4: Calculate Cost"""
answers[i] = eval_cost(zero_prob, training_data[i, L], rounding)
total_cost = np.sum(answers) / training_data.shape[0]
return total_cost
def PEPS_3(params, training_data, ancilla, total, rounding):
"""Requires 27 parameters. """
answers = np.zeros(training_data.shape[0])
L = training_data.shape[1] - 1
for i in range(training_data.shape[0]):
"""Stage 1: The top left five block"""
"""Encoding 4-3-2-1 + ancilla"""
psi = np.real(initial_encode(training_data[i, :L], 0))
psi = np.reshape(psi, (2**L, 1))
psi = np.matmul(two_Q_2(params[0], params[1], 0, 1, total), psi)
psi = np.matmul(two_Q_2(params[2], params[3], 2, 1, total), psi)
psi = np.matmul(two_Q_2(params[4], params[5], 1, 4, total), psi)
psi = np.matmul(two_Q_2(params[6], params[7], 0, 3, total), psi)
psi = np.matmul(two_Q_2(params[8], params[9], 6, 3, total), psi)
psi = np.matmul(two_Q_2(params[10], params[11], 3, 4, total), psi)
psi = np.matmul(two_Q_2(params[12], params[13], 6, 7, total), psi)
psi = np.matmul(two_Q_2(params[14], params[15], 8, 7, total), psi)
psi = np.matmul(two_Q_2(params[16], params[17], 7, 4, total), psi)
psi = np.matmul(two_Q_2(params[18], params[19], 2, 5, total), psi)
psi = np.matmul(two_Q_2(params[20], params[21], 8, 5, total), psi)
psi = np.matmul(two_Q_2(params[22], params[23], 5, 2, total), psi)
psi = np.matmul(ry(params[24], 4, total), psi)
"""Stage 3: Trace and Measure"""
zero_prob = prob_zero(keep_n(psi, total, 4))
"""Stage 4: Calculate Cost"""
answers[i] = eval_cost(zero_prob, training_data[i, L], rounding)
total_cost = np.sum(answers) / training_data.shape[0]
return total_cost
def evaluate_MPS_plotter(params, training_data, ancilla, total, rounding):
guesses = np.zeros(training_data.shape[0])
L = training_data.shape[1] - 1
for i in range(training_data.shape[0]):
"""FOR EACH DATA POINT"""
"""Lets Encode the data elements first"""
psi = initial_encode(training_data[i, :L], ancilla)
"""Stage 1: Unitaries on all of the qubits, ancilla or not"""
for j in range(total):
psi = np.matmul(ry(params[j], j, total), psi)
"""Stage 2: CNOT plus unitary for N-1 times (cascading)"""
for j in range(total - 1):
psi = np.matmul(cnot(j, j + 1, total), psi)
psi = np.matmul(ry(params[total + j], j + 1, total), psi)
"""Stage 3: Trace and Measure"""
zero_prob = prob_zero(keep_last(psi, total))
"""Stage 4: Calculate Cost"""
guesses[i] = 1 - round(zero_prob)
return guesses
def PEPS9(params, training_data, ancilla, rounding):
"""Requires 27 parameters. """
answers = np.zeros(training_data.shape[0])
L = training_data.shape[1] - 1
for i in range(training_data.shape[0]):
"""Stage 1: The top left five block"""
"""Encoding 4-3-2-1 + ancilla"""
psi = np.real(initial_encode(np.flipud(training_data[i, :4]), 0))
psi = np.kron(psi, np.array([1, 0]))
psi = np.reshape(psi, (2**5, 1))
total = 5
for j in range(3):
psi = np.matmul(
two_Q(params[2 * j], params[(2 * j) + 1], 3 - j, 'down',
total), psi)
psi = np.matmul(swap(0, 1, total), psi)
for j in range(2):
psi = np.matmul(
two_Q(params[2 * j + 6], params[2 * j + 7], 1 + j, 'down',
total), psi)
"""NB: Adding the bottom five qubits now"""
psi = np.kron(psi, initial_encode(training_data[i, 4:9], 0))
total = 10
psi = np.reshape(psi, (2**total, 1))
"""Qubits 1 and 5 (on sheet) require a swap and swap back"""
psi = np.matmul(swap(3, 4, total), psi)
psi = np.matmul(two_Q(params[10], params[11], 4, 'down', total), psi)
psi = np.matmul(swap(3, 4, total), psi)
psi = np.matmul(two_Q(params[12], params[13], 5, 'up', total), psi)
psi = np.matmul(swap(4, 5, total), psi)
psi = np.matmul(swap(5, 6, total), psi)
psi = np.matmul(swap(4, 5, total), psi)
psi = np.matmul(two_Q(params[14], params[15], 5, 'up', total), psi)
psi = np.matmul(swap(5, 6, total), psi)
psi = np.matmul(two_Q(params[16], params[17], 6, 'down', total), psi)
psi = np.matmul(swap(2, 3, total), psi)
psi = np.matmul(swap(3, 4, total), psi)
psi = np.matmul(swap(4, 5, total), psi)
psi = np.matmul(swap(5, 6, total), psi)
psi = np.matmul(two_Q(params[18], params[19], 6, 'down', total), psi)
psi = np.matmul(two_Q(params[20], params[21], 7, 'down', total), psi)
psi = np.matmul(swap(1, 2, total), psi)
psi = np.matmul(swap(2, 3, total), psi)
psi = np.matmul(swap(3, 4, total), psi)
psi = np.matmul(swap(4, 5, total), psi)
psi = np.matmul(swap(5, 6, total), psi)
psi = np.matmul(swap(6, 7, total), psi)
psi = np.matmul(two_Q(params[22], params[23], 7, 'down', total), psi)
psi = np.matmul(two_Q(params[24], params[25], 8, 'down', total), psi)
psi = np.matmul(ry(params[26], 9, total), psi)
"""Stage 3: Trace and Measure"""
zero_prob = prob_zero(keep_last(psi, total))
"""Stage 4: Calculate Cost"""
answers[i] = eval_cost(zero_prob, training_data[i, L], rounding)
total_cost = np.sum(answers) / training_data.shape[0]
return total_cost