def get_z_params(is_prototype, channel, block_size, design_snr, mu):
print('POLAR code channel construction called with parameters channel={0}, blocksize={1}, design SNR={2}, mu={3}'.format(channel, block_size, design_snr, mu))
if not (channel == 'AWGN' or channel == 'BEC'):
raise ValueError("channel is {0}, but only BEC and AWGN are supported!".format(channel))
if not is_power_of_two(block_size):
raise ValueError("block size={0} is not a power of 2!".format(block_size))
if design_snr < -1.5917:
raise ValueError("design SNR={0} < -1.5917. MUST be greater!".format(design_snr))
if not mu > 0:
raise ValueError("mu={0} < 1. MUST be > 1!".format(mu))
if not is_prototype and channel == 'AWGN':
z_params = cc.load_z_parameters(block_size, design_snr, mu)
print('Read Z-parameter file: {0}'.format(cc.default_dir() + cc.generate_filename(block_size, design_snr, mu)))
return z_params
return bhattacharyya_bounds(design_snr, block_size)
def main():
np.set_printoptions(precision=3, linewidth=150)
print 'channel construction Bhattacharyya bounds by Arikan'
n = 10
m = 2 ** n
k = m // 2
design_snr = 0.0
mu = 32
z_params = load_z_parameters(m, design_snr, mu)
z_bounds = bhattacharyya_bounds(design_snr, m)
print(z_params[-10:])
plt.plot(z_params)
plt.plot(z_bounds)
plt.show()
def get_z_params(is_prototype, channel, block_size, design_snr, mu):
print('POLAR code channel construction called with parameters channel={0}, blocksize={1}, design SNR={2}, mu={3}'.format(channel, block_size, design_snr, mu))
if not (channel == 'BSC' or channel == 'BEC'):
raise ValueError("channel is {0}, but only BEC and BSC are supported!".format(channel))
if not is_power_of_two(block_size):
raise ValueError("block size={0} is not a power of 2!".format(block_size))
if design_snr < -1.5917:
raise ValueError("design SNR={0} < -1.5917. MUST be greater!".format(design_snr))
if not mu > 0:
raise ValueError("mu={0} < 1. MUST be > 1!".format(mu))
if not is_prototype and channel == 'BSC':
z_params = cc.load_z_parameters(block_size, design_snr, mu)
print('Read Z-parameter file: {0}'.format(cc.default_dir() + cc.generate_filename(block_size, design_snr, mu)))
return z_params
return bhattacharyya_bounds(design_snr, block_size)
def upper_bound_z_params(z, block_size, design_snr):
upper_bound = bhattacharyya_bounds(design_snr, block_size)
z = np.minimum(z, upper_bound)
return z
def tal_vardy_tpm_algorithm(block_size, design_snr, mu):
return bhattacharyya_bounds(design_snr, block_size)
def upper_bound_z_params(z, block_size, design_snr):
upper_bound = bhattacharyya_bounds(design_snr, block_size)
z = np.minimum(z, upper_bound)
return z
def tal_vardy_tpm_algorithm(block_size, design_snr, mu):
return bhattacharyya_bounds(design_snr, block_size)
