コード例 #1
0
def plot(n):
    filename = './data/hist_{}.csv'.format(n)
    rows = cc.read_hist_file_rows(filename)
    a = cc.array_from_file_rows(rows)
    b = a[:, 2:] # get rid of first (identity) row

    def chi(x):
        xx = [x**i for i in range(2*(n/2)**2+1)] 
        return np.dot(b, xx)

    xx = np.linspace(0, 0.4, 51)

    def chi_vals(xx):
        return np.array([chi(x) for x in xx])

    chivals = chi_vals(xx)

    for i in range(1, 2*((n/2)**2+1)):
        plt.plot(xx, chivals[:, i])
コード例 #2
0
def plot(n):
    filename = './data/hist_{}.csv'.format(n)
    rows = cc.read_hist_file_rows(filename)
    a = cc.array_from_file_rows(rows)
    b = a[:, 2:]  # get rid of first (identity) row

    def chi(x):
        xx = [x**i for i in range(2 * (n / 2)**2 + 1)]
        return np.dot(b, xx)

    xx = np.linspace(0, 0.4, 51)

    def chi_vals(xx):
        return np.array([chi(x) for x in xx])

    chivals = chi_vals(xx)

    for i in range(1, 2 * ((n / 2)**2 + 1)):
        plt.plot(xx, chivals[:, i])
コード例 #3
0
ファイル: x_lying.py プロジェクト: tomclose/mcmc_code

def load_memoized(fcn, filename):
    path = './data/' + filename + '.csv'
    with open(path, 'rb') as f:
        reader = csv.reader(f)
        for k1, k2, v in reader:
            fcn[(float(k1), float(k2))] = float(v)


rows2 = cc.read_hist_file_rows('./data/hist_2.csv')
rows4 = cc.read_hist_file_rows('./data/hist_4.csv')
rows6 = cc.read_hist_file_rows('./data/hist_6.csv')
rows8 = cc.read_hist_file_rows('./data/hist_8.csv')

a2 = cc.array_from_file_rows(rows2)
a4 = cc.array_from_file_rows(rows4)
a6 = cc.array_from_file_rows(rows6)
a8 = cc.array_from_file_rows(rows8)


def p2n(qubit_error_p, stab_error_p):
    return cc.noisy_prob(a2, 2, qubit_error_p, stab_error_p)


def p4n(qubit_error_p, stab_error_p):
    return cc.noisy_prob(a4, 4, qubit_error_p, stab_error_p)


@memoize
def p6n(qubit_error_p, stab_error_p):
コード例 #4
0
import sys
import os
sys.path.append(os.path.join(os.path.dirname(__file__), '..', 'lib'))
import numpy as np
import conjugacy_classes as cc
import matplotlib.pyplot as plt
from collections import defaultdict

rows2 = cc.read_hist_file_rows('./data/hist_2.csv')
rows4 = cc.read_hist_file_rows('./data/hist_4.csv')
rows6 = cc.read_hist_file_rows('./data/hist_6.csv')
rows8 = cc.read_hist_file_rows('./data/hist_8.csv')

a2 = cc.array_from_file_rows(rows2)
a4 = cc.array_from_file_rows(rows4)
a6 = cc.array_from_file_rows(rows6)
a8 = cc.array_from_file_rows(rows8)

# count the number of unique rows
d2 = defaultdict(int)
for e in a2:
    d2[tuple(e[2:])]+=1
d4 = defaultdict(int)
for e in a4:
    d4[tuple(e[2:])]+=1
d6 = defaultdict(int)
for e in a6:
    d6[tuple(e[2:])]+=1
d8 = defaultdict(int)
for e in a8:
    d8[tuple(e[2:])]+=1