import numpy as np import cosmotool as ct import borgicgen as bic from matplotlib import pyplot as plt cosmo={'omega_M_0':0.3175, 'h':0.6711} cosmo['omega_lambda_0']=1-cosmo['omega_M_0'] cosmo['omega_k_0'] = 0 cosmo['omega_B_0']=0.049 cosmo['SIGMA8']=0.8344 cosmo['ns']=0.9624 zstart=50 astart=1/(1.+zstart) halfPixelShift=False posx,vel,density,N,L,a_ic,cosmo = bic.run_generation("initial_condition_borg.dat", 0.001, astart, cosmo, supersample=1, shiftPixel=halfPixelShift, do_lpt2=False) w1 = bic.whitify(density, L, cosmo, supergenerate=1) w2 = bic.whitify(density, L, cosmo, supergenerate=2) N = w1.shape[0] Ns = w2.shape[0] w1_hat = np.fft.rfftn(w1)*(L/N)**3 w2_hat = np.fft.rfftn(w2)*(L/Ns)**3 P1, b1, dev1 = bic.bin_power(np.abs(w1_hat)**2, L, range=(0,3),bins=150,dev=True) P2, b2, dev2 = bic.bin_power(np.abs(w2_hat)**2, L, range=(0,3),bins=150,dev=True) fig = plt.figure(1) fig.clf() plt.fill_between(b1, P1*(1-dev1), P1*(1+dev1), label='Supergen=1', color='b') plt.fill_between(b2, P2*(1-dev2), P2*(1+dev2), label='Supergen=2', color='g', alpha=0.5) ax = plt.gca() ax.set_xscale('log') plt.ylim(0.5,1.5) plt.xlim(1e-2,4) plt.axhline(1.0, color='red', lw=4.0) plt.legend() plt.show()