diff --git a/evaluation/4Layer Bootstrap.py b/evaluation/4Layer Bootstrap.py index 2ff87a1..7b90edf 100644 --- a/evaluation/4Layer Bootstrap.py +++ b/evaluation/4Layer Bootstrap.py @@ -23,15 +23,16 @@ def resultant(sample): return (np.average(phase_x), np.average(phase_y)) -def H2(x): - return -x*m.log2(x)-(1-x)*m.log2(1-x) +phase = lambda x,y: (m.atan2(y,x)+m.pi)%(2*m.pi)-m.pi + +H2 = lambda x: -x*m.log2(x)-(1-x)*m.log2(1-x) extremes = None maxdt = 300 -for dim in [9]: +for dim in []: for eps in eps_space: - path=f'/cloud/Public/_data/neuropercolation/4lay/cons=27-3diag_steps=1000100/dim=09/batch=0/' + path=f'/cloud/Public/_data/neuropercolation/4lay/cons=7-knight_steps=1000100/dim=07/batch=0/' try: with open(path+f"eps={round(eps,3):.3f}_phase_diff.txt", 'r', encoding='utf-8') as f: @@ -64,74 +65,106 @@ for dim in [9]: json.dump(ei, f, indent=1) pha_center = av_diff - pha_dev = m.pi/8 - orth_ind = sorted([i for i,val in enumerate(ei[:-maxdt]) if (pha_center-pha_dev)<=abs(phase_diff[i])<=(pha_center+pha_dev)], key = lambda i: ei[i]) + pha_dev = m.pi/32 + + from_sync = lambda i: True if abs(phase_diff[i])<0.08*m.pi else False if 0.42*m.pi0] + devm_out_ind = [i for i in dev_out_ind if phase_diff[i]<0] + devp_out_ind = [i for i in dev_out_ind if phase_diff[i]>0] if extremes is None: - extremes = len(orth_ind)//4000*1000 + extremes = min(len(dev_in_ind),len(dev_out_ind))//1000*100 - print(len(orth_ind)) + print(len(dev_out_ind), len(dev_in_ind)) #print(all_res, av_diff) - bot_ind = orth_ind[ :extremes] - top_ind = orth_ind[-extremes: ] + bot_in_ind = dev_in_ind[ :extremes] + top_in_ind = dev_in_ind[-extremes: ] + bot_out_ind = dev_out_ind[ :extremes] + top_out_ind = dev_out_ind[-extremes: ] - # bot_ei_pool = [ei for ei in enumerate(ei[:-maxdt]) if ei[1] <= bot_ei[1]] - # top_ei_pool = [ei for ei in enumerate(ei[:-maxdt]) if ei[1] >= top_ei[1]] - - # bot_eis = choose(bot_ei_pool, extremes) - # top_eis = choose(top_ei_pool, extremes) - - # bot_ind = [enum[0] for enum in bot_ei] - # top_ind = [enum[0] for enum in top_ei] + bot_ind = bot_in_ind + bot_out_ind + top_ind = top_in_ind + top_out_ind bot_res = [] top_res = [] - orth_res = [] + dev_res = [] tot_res = [] + bot_ph = [] + top_ph = [] + dev_ph = [] + tot_ph = [] + bot_ei = [] top_ei = [] - orth_ei = [] + dev_ei = [] tot_ei = [] for dt in range(maxdt): - bot_res.append( norm(resultant([phase_diff[i+dt] for i in bot_ind])) ) - top_res.append( norm( resultant([phase_diff[i+dt] for i in top_ind])) ) - orth_res.append( norm( resultant([phase_diff[i+dt] for i in orth_ind])) ) - tot_res.append( norm( resultant(phase_diff[dt:dt-maxdt])) ) + bot_pha = [phase_diff[i+dt] for i in bot_ind] + top_pha = [phase_diff[i+dt] for i in top_ind] + dev_pha = [phase_diff[i+dt] for i in dev_ind] + tot_pha = phase_diff[dt:dt-maxdt] + + bot_res.append( norm(resultant(bot_pha)) ) + top_res.append( norm(resultant(top_pha)) ) + dev_res.append( norm(resultant(dev_pha)) ) + tot_res.append( norm(resultant(tot_pha)) ) + + bot_ph.append( phase(resultant(bot_pha)) ) + top_ph.append( phase(resultant(top_pha)) ) + dev_ph.append( phase(resultant(dev_pha)) ) + tot_ph.append( phase(resultant(tot_pha)) ) bot_ei.append( np.average([ei[i+dt] for i in bot_ind]) ) top_ei.append( np.average([ei[i+dt] for i in top_ind]) ) - orth_ei.append( np.average([ei[i+dt] for i in orth_ind]) ) + dev_ei.append( np.average([ei[i+dt] for i in dev_ind]) ) tot_ei.append( np.average(ei[dt:dt-maxdt]) ) if dt%100==99: print(f'Done dt={dt}') - qtplot(f'Diachronic resultant for dim={dim} with 4 layers', [np.array(range(maxdt))]*4, - [bot_res, top_res, orth_res, tot_res], + [bot_res, top_res, dev_res, tot_res], ['Resultant ev of bottom {extremes} ei', 'Resultant ev of top {extremes} ei', - 'Resultant ev of phase filtered ei', 'Average Resultant'], + 'Resultant ev of phase filtered ei', 'Average Resultant'], x_tag = 'dt', y_tag = 'concentration', export=True, - path=path, - filename=f'Diachronic Resultant for eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + path=path+'plots/', + filename=f'Diachronic Resultant balanced eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + close=True) + + qtplot(f'Diachronic resultant for dim={dim} with 4 layers', + [np.array(range(maxdt))]*4, + [bot_ph, top_ph, dev_ph, tot_ph], + ['Resultant ev of bottom {extremes} ei', 'Resultant ev of top {extremes} ei', + 'Resultant ev of phase filtered ei', 'Average Resultant'], + x_tag = 'dt', + y_tag = 'concentration', + export=True, + path=path+'plots/', + filename=f'Diachronic Resultant balanced eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', close=True) qtplot(f'Diachronic ei for dim={dim} with 4 layers', [np.array(range(maxdt))]*4, - [bot_ei, top_ei, orth_ei, tot_ei], + [bot_ei, top_ei, dev_ei, tot_ei], ['EI ev of bottom {extremes} ei', 'EI ev of top {extremes} ei', 'EI ev of phase filtered ei', 'Average EI'], x_tag = 'dt', y_tag = 'average ei', export=True, - path=path, - filename=f'Diachronic EI for eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + path=path+'plots/', + filename=f'Diachronic EI balanced for eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', close=True) print(f'Done eps={eps:.3f} with dim={dim} at {datetime.now()}') diff --git a/evaluation/4Layer Percolation small eps.py b/evaluation/4Layer Percolation small eps.py new file mode 100644 index 0000000..eb4bc7c --- /dev/null +++ b/evaluation/4Layer Percolation small eps.py @@ -0,0 +1,153 @@ +#!/usr/bin/env python3 +# -*- coding: utf-8 -*- +""" +Created on Mon Aug 21 14:59:22 2023 + +@author: astral +""" + +import json +import math as m +import numpy as np +from numpy.linalg import norm +from datetime import datetime +from random import sample as choose + +from plot import qtplot + +eps_space = list(np.linspace(0.01,0.2,20)) + +def resultant(sample): + phase_x = [m.cos(ind) for ind in sample] + phase_y = [m.sin(ind) for ind in sample] + + return (np.average(phase_x), np.average(phase_y)) + +def H2(x): + return -x*m.log2(x)-(1-x)*m.log2(1-x) + +extremes = None +maxdt = 300 + +for dim in [9]: + for eps in eps_space[:10]: + path=f'/cloud/Public/_data/neuropercolation/4lay/cons=7-knight_steps=1000100/dim=07/batch=0/' + + try: + with open(path+f"eps={round(eps,3):.3f}_phase_diff.txt", 'r', encoding='utf-8') as f: + phase_diff = json.load(f) + except: + with open(path+f"eps={round(eps,3):.3f}_activation.txt", 'r', encoding='utf-8') as f: + activation = json.load(f)[100:] + + osc = list(zip(*activation)) + phase = np.array([[np.arctan2(*act[::-1]) for act in osc[i]] for i in range(2)]) + phase_diff = (phase[1]-phase[0]+m.pi)%(2*m.pi)-m.pi + + with open(path+f"eps={round(eps,3):.3f}_phase_diff.txt", 'w', encoding='utf-8') as f: + json.dump(list(phase_diff), f, indent=1) + + + all_res = norm(resultant(phase_diff)) + av_diff = np.arccos(all_res) + + try: + with open(path+f"eps={round(eps,3):.3f}_ei.txt", 'r', encoding='utf-8') as f: + ei = json.load(f) + except: + with open(path+f"eps={round(eps,3):.3f}_channels.txt", 'r', encoding='utf-8') as f: + channels = json.load(f)[100:] + + ei = [np.sum(cha)*(1-H2(eps)) for cha in channels] + + with open(path+f"eps={round(eps,3):.3f}_ei.txt", 'w', encoding='utf-8') as f: + json.dump(ei, f, indent=1) + + pha_center = av_diff + pha_dev = m.pi + orth_ind = sorted([i for i,val in enumerate(ei[:-maxdt]) if (pha_center-pha_dev)<=abs(phase_diff[i])<=(pha_center+pha_dev)], key = lambda i: ei[i]) + + thres = 0.04*m.pi + last_sync = lambda i: i if abs(phase_diff[i])<0.08*m.pi else last_sync(i-1) + last_orth = lambda i: i if 0.42*m.pithres] + diff00_ind = [last_sync(i) for i,pha in trav_out] + diff00m_ind = [last_sync(i) for i,pha in trav_out if pha<0] + diff00p_ind = [last_sync(i) for i,pha in trav_out if pha>0] + + trav_in = [(i,pha) for i,pha in enumerate(phase_diff[:-maxdt]) if m.pi/2-thres0] + + print(f'{len(diff00_ind)}/{len(trav_out)} synced states and {len(diff90_ind)}/{len(trav_in)} orthogonal states') + #print(all_res, av_diff) + + in_ei = [] + out_ei = [] + + inm_res = [] + inp_res = [] + outm_res = [] + outp_res = [] + for dt in range(maxdt): + inm_res.append( resultant([phase_diff[i+dt] for i in diff90m_ind]) ) + outm_res.append( resultant([phase_diff[i+dt] for i in diff00m_ind]) ) + + inp_res.append( resultant([phase_diff[i+dt] for i in diff90p_ind]) ) + outp_res.append( resultant([phase_diff[i+dt] for i in diff00p_ind]) ) + + in_ei.append( np.average([ei[i+dt] for i in diff90_ind]) ) + out_ei.append( np.average([ei[i+dt] for i in diff00_ind]) ) + + if dt%100==99: + print(f'Done dt={dt}') + + im_res = list(zip(*inm_res)) + om_res = list(zip(*outm_res)) + + ip_res = list(zip(*inp_res)) + op_res = list(zip(*outp_res)) + + space = np.linspace(0,2*m.pi,101) + + av_ei = np.average(ei) + + qtplot(f'Transitions resultants for eps={round(eps,3):.3f} with dim={dim} with 4 layers', + [im_res[0], om_res[0], ip_res[0], op_res[0], np.cos(space)], + [im_res[1], om_res[1], ip_res[1], op_res[1], np.sin(space)], + ['Resultant ev inward -', 'Resultant ev outward -', + 'Resultant ev inward +', 'Resultant ev outward +', + 'Unit Circle'], + x_tag = 'x', + y_tag = 'y', + lw=1, + export=True, + path=path, + filename=f'Transitions resultant pm for eps={round(eps,3):.3f} dim={dim}.png', + close=False) + + qtplot(f'Transitions ei for eps={round(eps,3):.3f} with dim={dim} with 4 layers', + [np.array(range(maxdt))]*3, + [in_ei, out_ei, [av_ei]*maxdt], + ['EI ev inward', 'EI ev outward', 'Average EI'], + x_tag = 'dt', + y_tag = 'average ei', + export=True, + path=path, + filename=f'Transitions EI for eps={round(eps,3):.3f} dim={dim} .png', + close=False) + + print(f'Done eps={eps:.3f} with dim={dim} at {datetime.now()}') + + # qtplot(f'Resultant and EI evolution for dim={dim} with 4 layers', + # [[0]+eps_space]*2, + # [max(av_ei)*diff_res, av_ei], + # ['Resultant', 'avEI'], + # export=True, + # path=path, + # filename=f'Resultant and EI for dim={dim}.png', + # close=True) + + \ No newline at end of file diff --git a/evaluation/4Layer Resultant Evolution.py b/evaluation/4Layer Resultant Evolution.py new file mode 100644 index 0000000..c3a928d --- /dev/null +++ b/evaluation/4Layer Resultant Evolution.py @@ -0,0 +1,266 @@ +#!/usr/bin/env python3 +# -*- coding: utf-8 -*- +""" +Created on Mon Aug 21 14:59:22 2023 + +@author: astral +""" + +import json +import math as m +import numpy as np +from numpy.linalg import norm +from datetime import datetime +from random import sample as choose + +from plot import qtplot + +eps_space = list(np.linspace(0.01,0.2,20)) + +def resultant(sample): + phase_x = [m.cos(ind) for ind in sample] + phase_y = [m.sin(ind) for ind in sample] + + return (np.average(phase_x), np.average(phase_y)) + +def H2(x): + return -x*m.log2(x)-(1-x)*m.log2(1-x) + +extremes = None +maxdt = 300 + +for dim in [9]: + for eps in eps_space: + path=f'/cloud/Public/_data/neuropercolation/4lay/cons=7-knight_steps=1000100/dim=07/batch=0/' + + try: + with open(path+f"eps={round(eps,3):.3f}_phase_diff.txt", 'r', encoding='utf-8') as f: + phase_diff = json.load(f) + except: + with open(path+f"eps={round(eps,3):.3f}_activation.txt", 'r', encoding='utf-8') as f: + activation = json.load(f)[100:] + + osc = list(zip(*activation)) + phase = np.array([[np.arctan2(*act[::-1]) for act in osc[i]] for i in range(2)]) + phase_diff = (phase[1]-phase[0]+m.pi)%(2*m.pi)-m.pi + + with open(path+f"eps={round(eps,3):.3f}_phase_diff.txt", 'w', encoding='utf-8') as f: + json.dump(list(phase_diff), f, indent=1) + + + all_res = norm(resultant(phase_diff)) + av_diff = np.arccos(all_res) + + try: + with open(path+f"eps={round(eps,3):.3f}_ei.txt", 'r', encoding='utf-8') as f: + ei = json.load(f) + except: + with open(path+f"eps={round(eps,3):.3f}_channels.txt", 'r', encoding='utf-8') as f: + channels = json.load(f)[100:] + + ei = [np.sum(cha)*(1-H2(eps)) for cha in channels] + + with open(path+f"eps={round(eps,3):.3f}_ei.txt", 'w', encoding='utf-8') as f: + json.dump(ei, f, indent=1) + + pha_center = av_diff + pha_dev = m.pi/32 + + last_sync = lambda i: i if abs(phase_diff[i])<0.08*m.pi else last_sync(i-1) + last_orth = lambda i: i if 0.42*m.pilast_orth(i)] + + devm_in_ind = [i for i in dev_in_ind if phase_diff[i]<0] + devp_in_ind = [i for i in dev_in_ind if phase_diff[i]>0] + devm_out_ind = [i for i in dev_out_ind if phase_diff[i]<0] + devp_out_ind = [i for i in dev_out_ind if phase_diff[i]>0] + + if extremes is None: + extremes = len(dev_in_ind)//4000*1000 + + print(len(dev_out_ind), len(dev_in_ind)) + #print(all_res, av_diff) + + bot_in_ind = dev_in_ind[ :extremes] + top_in_ind = dev_in_ind[-extremes: ] + bot_out_ind = dev_out_ind[ :extremes] + top_out_ind = dev_out_ind[-extremes: ] + + bot_ind = bot_in_ind + bot_out_ind + top_ind = top_in_ind + top_out_ind + + botm_in_ind = [i for i in bot_in_ind if phase_diff[i]<0] + botp_in_ind = [i for i in bot_in_ind if phase_diff[i]>0] + topm_in_ind = [i for i in top_in_ind if phase_diff[i]<0] + topp_in_ind = [i for i in top_in_ind if phase_diff[i]>0] + + botm_out_ind = [i for i in bot_out_ind if phase_diff[i]<0] + botp_out_ind = [i for i in bot_out_ind if phase_diff[i]>0] + topm_out_ind = [i for i in top_out_ind if phase_diff[i]<0] + topp_out_ind = [i for i in top_out_ind if phase_diff[i]>0] + + # bot_ei_pool = [ei for ei in enumerate(ei[:-maxdt]) if ei[1] <= bot_ei[1]] + # top_ei_pool = [ei for ei in enumerate(ei[:-maxdt]) if ei[1] >= top_ei[1]] + + # bot_eis = choose(bot_ei_pool, extremes) + # top_eis = choose(top_ei_pool, extremes) + + # bot_ind = [enum[0] for enum in bot_ei] + # top_ind = [enum[0] for enum in top_ei] + + botm_in_res = [] + topm_in_res = [] + devm_in_res = [] + + botp_in_res = [] + topp_in_res = [] + devp_in_res = [] + + botm_out_res = [] + topm_out_res = [] + devm_out_res = [] + + botp_out_res = [] + topp_out_res = [] + devp_out_res = [] + + bot_ei = [] + top_ei = [] + dev_ei = [] + + tot_res = [] + tot_ei = [] + for dt in range(maxdt): + botm_in_res.append( resultant([phase_diff[i+dt] for i in botm_in_ind]) ) + topm_in_res.append( resultant([phase_diff[i+dt] for i in topm_in_ind]) ) + devm_in_res.append( resultant([phase_diff[i+dt] for i in devm_in_ind]) ) + + botp_in_res.append( resultant([phase_diff[i+dt] for i in botp_in_ind]) ) + topp_in_res.append( resultant([phase_diff[i+dt] for i in topp_in_ind]) ) + devp_in_res.append( resultant([phase_diff[i+dt] for i in devp_in_ind]) ) + + botm_out_res.append( resultant([phase_diff[i+dt] for i in botm_out_ind]) ) + topm_out_res.append( resultant([phase_diff[i+dt] for i in topm_out_ind]) ) + devm_out_res.append( resultant([phase_diff[i+dt] for i in devm_out_ind]) ) + + botp_out_res.append( resultant([phase_diff[i+dt] for i in botp_out_ind]) ) + topp_out_res.append( resultant([phase_diff[i+dt] for i in topp_out_ind]) ) + devp_out_res.append( resultant([phase_diff[i+dt] for i in devp_out_ind]) ) + + bot_ei.append( np.average([ei[i+dt] for i in bot_ind]) ) + top_ei.append( np.average([ei[i+dt] for i in top_ind]) ) + dev_ei.append( np.average([ei[i+dt] for i in dev_ind]) ) + + tot_res.append( resultant(phase_diff[dt:dt-maxdt]) ) + tot_ei.append( np.average(ei[dt:dt-maxdt]) ) + + + if dt%100==99: + print(f'Done dt={dt}') + + bm_in_res = list(zip(*botm_in_res)) + tm_in_res = list(zip(*topm_in_res)) + dm_in_res = list(zip(*devm_in_res)) + + bp_in_res = list(zip(*botp_in_res)) + tp_in_res = list(zip(*topp_in_res)) + dp_in_res = list(zip(*devp_in_res)) + + bm_out_res = list(zip(*botm_out_res)) + tm_out_res = list(zip(*topm_out_res)) + dm_out_res = list(zip(*devm_out_res)) + + bp_out_res = list(zip(*botp_out_res)) + tp_out_res = list(zip(*topp_out_res)) + dp_out_res = list(zip(*devp_out_res)) + + t_res = list(zip(*tot_res)) + + space = np.linspace(0,2*m.pi,101) + + qtplot(f'Diachronic resultant +/- for eps={round(eps,3):.3f} with dim={dim} with 4 layers', + [bm_in_res[0], tm_in_res[0], dm_in_res[0], bp_in_res[0], tp_in_res[0], dp_in_res[0], + bm_out_res[0], tm_out_res[0], dm_out_res[0], bp_out_res[0], tp_out_res[0], dp_out_res[0], + t_res[0], np.cos(space)], + [bm_in_res[1], tm_in_res[1], dm_in_res[1], bp_in_res[1], tp_in_res[1], dp_in_res[1], + bm_out_res[1], tm_out_res[1], dm_out_res[1], bp_out_res[1], tp_out_res[1], dp_out_res[1], + t_res[1], np.sin(space)], + ['Resultant ev in of bottom {extremes} ei -', 'Resultant ev in of top {extremes} ei -', + 'Resultant ev in of phase filtered ei -', + 'Resultant ev in of bottom {extremes} ei +', 'Resultant ev in of top {extremes} ei +', + 'Resultant ev in of phase filtered ei +', + 'Resultant ev out of bottom {extremes} ei -', 'Resultant ev out of top {extremes} ei -', + 'Resultant ev out of phase filtered ei -', + 'Resultant ev out of bottom {extremes} ei +', 'Resultant ev out of top {extremes} ei +', + 'Resultant ev out of phase filtered ei +', + 'Average Resultant', 'Unit Circle'], + x_tag = 'x', + y_tag = 'y', + lw=1, + export=True, + path=path, + filename=f'Diachronic Resultant filtered pm inout eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + close=True) + + qtplot(f'Diachronic resultant +/- for eps={round(eps,3):.3f} with dim={dim} with 4 layers', + [bm_in_res[0], tm_in_res[0], dm_in_res[0], bp_in_res[0], tp_in_res[0], dp_in_res[0], + t_res[0], np.cos(space)], + [bm_in_res[1], tm_in_res[1], dm_in_res[1], bp_in_res[1], tp_in_res[1], dp_in_res[1], + t_res[1], np.sin(space)], + ['Resultant ev in of bottom {extremes} ei -', 'Resultant ev in of top {extremes} ei -', + 'Resultant ev in of phase filtered ei -', + 'Resultant ev in of bottom {extremes} ei +', 'Resultant ev in of top {extremes} ei +', + 'Resultant ev in of phase filtered ei +', + 'Average Resultant', 'Unit Circle'], + x_tag = 'x', + y_tag = 'y', + lw=1, + export=True, + path=path, + filename=f'Evolution of Resultant filtered pm in eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + close=True) + + qtplot(f'Diachronic resultant +/- for eps={round(eps,3):.3f} with dim={dim} with 4 layers', + [bm_out_res[0], tm_out_res[0], dm_out_res[0], bp_out_res[0], tp_out_res[0], dp_out_res[0], + t_res[0], np.cos(space)], + [bm_out_res[1], tm_out_res[1], dm_out_res[1], bp_out_res[1], tp_out_res[1], dp_out_res[1], + t_res[1], np.sin(space)], + ['Resultant ev out of bottom {extremes} ei -', 'Resultant ev out of top {extremes} ei -', + 'Resultant ev out of phase filtered ei -', + 'Resultant ev out of bottom {extremes} ei +', 'Resultant ev out of top {extremes} ei +', + 'Resultant ev out of phase filtered ei +', + 'Average Resultant', 'Unit Circle'], + x_tag = 'x', + y_tag = 'y', + lw=1, + export=True, + path=path, + filename=f'Evolution of Resultant filtered pm out eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + close=True) + # qtplot(f'Diachronic ei +/- for eps={round(eps,3):.3f} with dim={dim} with 4 layers', + # [np.array(range(maxdt))]*4, + # [bot_ei, top_ei, dev_ei, tot_ei], + # ['EI ev of bottom {extremes} ei', 'EI ev of top {extremes} ei', + # 'EI ev of phase filtered ei', 'Average EI'], + # x_tag = 'dt', + # y_tag = 'average ei', + # export=True, + # path=path, + # filename=f'Diachronic EI filtered eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + # close=True) + + print(f'Done eps={eps:.3f} with dim={dim} at {datetime.now()}') + + # qtplot(f'Resultant and EI evolution for dim={dim} with 4 layers', + # [[0]+eps_space]*2, + # [max(av_ei)*diff_res, av_ei], + # ['Resultant', 'avEI'], + # export=True, + # path=path, + # filename=f'Resultant and EI for dim={dim}.png', + # close=True) + + \ No newline at end of file diff --git a/evaluation/4Layer Resultant Phase Evolution.py b/evaluation/4Layer Resultant Phase Evolution.py new file mode 100644 index 0000000..cd7a02d --- /dev/null +++ b/evaluation/4Layer Resultant Phase Evolution.py @@ -0,0 +1,181 @@ +#!/usr/bin/env python3 +# -*- coding: utf-8 -*- +""" +Created on Mon Aug 21 14:59:22 2023 + +@author: astral +""" + +import json +import math as m +import numpy as np +from numpy.linalg import norm +from datetime import datetime +from random import sample as choose + +from plot import qtplot + +eps_space = list(np.linspace(0.01,0.2,20)) + +def resultant(sample): + phase_x = [m.cos(ind) for ind in sample] + phase_y = [m.sin(ind) for ind in sample] + + return (np.average(phase_x), np.average(phase_y)) + +phase = lambda x,y: (m.atan2(y,x)+m.pi)%(2*m.pi)-m.pi + +H2 = lambda x: -x*m.log2(x)-(1-x)*m.log2(1-x) + +extremes = None +maxdt = 300 + +for dim in [7]: + for eps in eps_space: + path=f'/cloud/Public/_data/neuropercolation/4lay/cons=7-knight_steps=1000100/dim=07/batch=0/' + + try: + with open(path+f"eps={round(eps,3):.3f}_phase_diff.txt", 'r', encoding='utf-8') as f: + phase_diff = json.load(f) + except: + with open(path+f"eps={round(eps,3):.3f}_activation.txt", 'r', encoding='utf-8') as f: + activation = json.load(f)[100:] + + osc = list(zip(*activation)) + phase = np.array([[np.arctan2(*act[::-1]) for act in osc[i]] for i in range(2)]) + phase_diff = (phase[1]-phase[0]+m.pi)%(2*m.pi)-m.pi + + with open(path+f"eps={round(eps,3):.3f}_phase_diff.txt", 'w', encoding='utf-8') as f: + json.dump(list(phase_diff), f, indent=1) + + + all_res = norm(resultant(phase_diff)) + av_diff = np.arccos(all_res) + + try: + with open(path+f"eps={round(eps,3):.3f}_ei.txt", 'r', encoding='utf-8') as f: + ei = json.load(f) + except: + with open(path+f"eps={round(eps,3):.3f}_channels.txt", 'r', encoding='utf-8') as f: + channels = json.load(f)[100:] + + ei = [np.sum(cha)*(1-H2(eps)) for cha in channels] + + with open(path+f"eps={round(eps,3):.3f}_ei.txt", 'w', encoding='utf-8') as f: + json.dump(ei, f, indent=1) + + pha_center = av_diff + pha_dev = m.pi/32 + + from_sync = lambda i: True if abs(phase_diff[i])<0.08*m.pi else False if 0.42*m.pi0] + devm_out_ind = [i for i in dev_out_ind if phase_diff[i]<0] + devp_out_ind = [i for i in dev_out_ind if phase_diff[i]>0] + + if extremes is None: + extremes = min(len(dev_in_ind),len(dev_out_ind))//1000*100 + + print(len(dev_out_ind), len(dev_in_ind)) + #print(all_res, av_diff) + + + bot_in_ind = dev_in_ind[ :extremes] + top_in_ind = dev_in_ind[-extremes: ] + bot_out_ind = dev_out_ind[ :extremes] + top_out_ind = dev_out_ind[-extremes: ] + + bot_ind = bot_in_ind + bot_out_ind + top_ind = top_in_ind + top_out_ind + + bot_res = [] + top_res = [] + dev_res = [] + tot_res = [] + + bot_ph = [] + top_ph = [] + dev_ph = [] + tot_ph = [] + + bot_ei = [] + top_ei = [] + dev_ei = [] + tot_ei = [] + for dt in range(maxdt): + bot_pha = [abs(phase_diff[i+dt]) for i in bot_ind] + top_pha = [abs(phase_diff[i+dt]) for i in top_ind] + dev_pha = [abs(phase_diff[i+dt]) for i in dev_ind] + tot_pha = np.abs(phase_diff[dt:dt-maxdt]) + + bot_res.append( norm(resultant(bot_pha)) ) + top_res.append( norm(resultant(top_pha)) ) + dev_res.append( norm(resultant(dev_pha)) ) + tot_res.append( norm(resultant(tot_pha)) ) + + bot_ph.append( phase(*resultant(bot_pha)) ) + top_ph.append( phase(*resultant(top_pha)) ) + dev_ph.append( phase(*resultant(dev_pha)) ) + tot_ph.append( phase(*resultant(tot_pha)) ) + + bot_ei.append( np.average([ei[i+dt] for i in bot_ind]) ) + top_ei.append( np.average([ei[i+dt] for i in top_ind]) ) + dev_ei.append( np.average([ei[i+dt] for i in dev_ind]) ) + tot_ei.append( np.average(ei[dt:dt-maxdt]) ) + + if dt%100==99: + print(f'Done dt={dt}') + + qtplot(f'Diachronic resultant for dim={dim} with 4 layers', + [np.array(range(maxdt))]*4, + [bot_res, top_res, dev_res, tot_res], + ['Resultant ev of bottom {extremes} ei', 'Resultant ev of top {extremes} ei', + 'Resultant ev of phase filtered ei', 'Average Resultant'], + x_tag = 'dt', + y_tag = 'concentration', + export=True, + path=path+'plots/', + filename=f'Diachronic Resultant Norm balanced eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + close=True) + + qtplot(f'Diachronic resultant phase for dim={dim} with 4 layers', + [np.array(range(maxdt))]*4, + [bot_ph, top_ph, dev_ph, tot_ph], + ['bottom {extremes} ei', 'top {extremes} ei', + 'all filtered ei', 'Average'], + x_tag = 'dt', + y_tag = 'concentration', + export=True, + path=path+'plots/', + filename=f'Diachronic Resultant Phase balanced eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + close=True) + + # qtplot(f'Diachronic ei for dim={dim} with 4 layers', + # [np.array(range(maxdt))]*4, + # [bot_ei, top_ei, dev_ei, tot_ei], + # ['EI ev of bottom {extremes} ei', 'EI ev of top {extremes} ei', + # 'EI ev of phase filtered ei', 'Average EI'], + # x_tag = 'dt', + # y_tag = 'average ei', + # export=True, + # path=path+'plots/', + # filename=f'Diachronic EI balanced for eps={round(eps,3):.3f} dim={dim} extremes={extremes} roll{pha_dev:.3f}.png', + # close=True) + + print(f'Done eps={eps:.3f} with dim={dim} at {datetime.now()}') + + # qtplot(f'Resultant and EI evolution for dim={dim} with 4 layers', + # [[0]+eps_space]*2, + # [max(av_ei)*diff_res, av_ei], + # ['Resultant', 'avEI'], + # export=True, + # path=path, + # filename=f'Resultant and EI for dim={dim}.png', + # close=True) + + \ No newline at end of file diff --git a/evaluation/plot.py b/evaluation/plot.py index 5952e22..9182724 100644 --- a/evaluation/plot.py +++ b/evaluation/plot.py @@ -78,11 +78,12 @@ def plot_execute(): def qtplot(titletext, spaces, vals, names, x_tag=f'noise level {chr(949)}', y_tag=None, colors=None, export=False, path=None, filename=None, lw=4, close=False): linewidth = lw - #app = qt.mkQApp() + if not close: + app = qt.mkQApp() ph = qt.plot() ph.showGrid(x=True,y=True) - ph.setXRange(np.min(spaces), np.max(spaces)) + ph.setXRange(min([min(sp) for sp in spaces]), max([max(sp) for sp in spaces])) # ph.setYRange(0.0, 6) #ph.setTitle(title='Susceptibility density evolution for different automaton sizes', offset=(1000,500))#.format(dim)) @@ -100,7 +101,10 @@ def qtplot(titletext, spaces, vals, names, x_tag=f'noise level {chr(949)}', y_ta if colors=='rgb': colors=[__get_color(fac/(len(vals)-1)) for fac in range(len(vals))] elif colors is None: - colors=['r', 'g', 'b', 'y', 'c', 'm', 'w', (100,100,0), (0,100,100), (100,0,100)] + colors=['r', 'g', 'b', 'y', 'c', 'm', 'w', + (100,100,0), (0,100,100), (100,0,100), + (100,200,0), (0,100,200), (200,0,100), + (200,100,0), (0,200,100), (100,0,200)] for i in range(len(vals)): @@ -134,7 +138,7 @@ def qtplot(titletext, spaces, vals, names, x_tag=f'noise level {chr(949)}', y_ta if close: ph.close() - - # app.aboutToQuit.connect(handleAppExit) - # app.exec_() + else: + app.aboutToQuit.connect(handleAppExit) + app.exec_() \ No newline at end of file diff --git a/examples/Simulate1Layer.py b/examples/Simulate1Layer.py index 535dc43..cf23d9a 100644 --- a/examples/Simulate1Layer.py +++ b/examples/Simulate1Layer.py @@ -15,7 +15,7 @@ eps_space = np.linspace(0.135,0.15,4) for dim in [49,100]: for eps in eps_space: eps = round(eps,3) - Simulate1Layer(dim, + Simulate2Layers(dim, eps, res=2, path=f'/cloud/Public/_data/neuropercolation/1lay/steps=100000/dim={dim:02}/', diff --git a/neuropercolation/automaton.py b/neuropercolation/automaton.py index ba2cbcd..fa19304 100644 --- a/neuropercolation/automaton.py +++ b/neuropercolation/automaton.py @@ -152,8 +152,9 @@ class Neurolattice(CellularAutomatonCreator, abc.ABC): class Neuropercolation(CellularAutomatonCreator, abc.ABC): """ Cellular automaton with the evolution rules of conways game of life """ - def __init__(self, dim, eps, *args, **kwargs): + def __init__(self, dim, eps, init, *args, **kwargs): super().__init__(dimension=[dim, dim, 2], + init=init, neighborhood=VonNeumannNeighborhood(EdgeRule.FIRST_AND_LAST_CELL_OF_DIMENSION_ARE_NEIGHBORS)) self._evolution_step = 0 self.epsilon = eps