I've written a Monte Carlo simulation for a "2d active ising model" and I'm trying to improve the runtime.
What my code does:
I create a matrix for the number of particles (r) and one for the magnetisation for each spot (rgrid and mgrid). the spins of the particles can be either -1/1 so the magnetisation ranges from [-r, r] in steps of 2.
Then a random spot and a random particle is chosen(+1 or -1). Since the probability depends on the number of positive/negative particles at each place I create 2 arrays and zip them so I can get the fitting number of positive particles, i.e. [(-3, 0), (-1, 1), (1, 2), (3, 3)].
With 3 particles I can have a magnetisation of (-3, -1, 1, 3) which has (0, 1, 2, 3) +1 particles.
After that I calculate the probabilities for the spot and choose an action: spinflip, jump up/down, jump left/right, do nothing.
Now I have to move the particle (or not) and change the magnet./density for the 2 spots (and check for periodic boundary conditions).
Here is my code:
from __future__ import print_function
from __future__ import division
from datetime import datetime
import numpy as np
import math
import matplotlib.pyplot as plt
import cProfile
pr = cProfile.Profile()
pr.enable()
m = 10 # zeilen, spalten
j = 1000 # finale zeit
r = 3 # platzdichte
b = 1.6 # beta
e = 0.9 # epsilon
M = m * m # platzanzahl
N = M * r # teilchenanzahl
dt = 1 / (4 * np.exp(b)) # delta-t
i = 0
rgrid = r * np.ones((m, m)).astype(int) # dichte-matrix, rho = n(+) + n(-)
magrange = np.arange(-r, r + 1, 2) # m?gliche magnetisierungen [a, b), schrittweite
mgrid = np.random.choice(magrange, (m, m)) # magnetisierungs-matrix m = n(+) - (n-)
def flip():
mgrid[math.trunc(x / m), x % m] -= 2 * spin
def up():
y = x - m
if y < 0: # periodische randbedingung hoch
y += m * m
x1 = math.trunc(x / m)
x2 = x % m
y1 = math.trunc(y / m)
y2 = y % m
rgrid[x1, x2] -= 1 # [zeile, spalte] masse -1
rgrid[y1, y2] += 1 # [zeile, spalte] masse +1
mgrid[x1, x2] -= spin # [zeile, spalte] spin?nderung alter platz
mgrid[y1, y2] += spin # [zeile, spalte] spin?nderung neuer platz
def down():
y = x + m
if y >= m * m: # periodische randbedingung unten
y -= m * m
x1 = math.trunc(x / m)
x2 = x % m
y1 = math.trunc(y / m)
y2 = y % m
rgrid[x1, x2] -= 1
rgrid[y1, y2] += 1
mgrid[x1, x2] -= spin
mgrid[y1, y2] += spin
def left():
y = x - 1
if math.trunc(y / m) < math.trunc(x / m): # periodische randbedingung links
y += m
x1 = math.trunc(x / m)
x2 = x % m
y1 = math.trunc(y / m)
y2 = y % m
rgrid[x1, x2] -= 1
rgrid[y1, y2] += 1
mgrid[x1, x2] -= spin
mgrid[y1, y2] += spin
def right():
y = x + 1
if math.trunc(y / m) > math.trunc(x / m): # periodische randbedingung rechts
y -= m
x1 = math.trunc(x / m)
x2 = x % m
y1 = math.trunc(y / m)
y2 = y % m
rgrid[x1, x2] -= 1
rgrid[y1, y2] += 1
mgrid[x1, x2] -= spin
mgrid[y1, y2] += spin
while i < j:
# 1. platz aussuchen
x = np.random.randint(M) # w?hle zuf?lligen platz aus
if rgrid.item(x) != 0:
i += dt / N
# 2. teilchen aussuchen
li1 = np.arange(-abs(rgrid.item(x)), abs(rgrid.item(x)) + 1, 2)
li2 = np.arange(0, abs(rgrid.item(x)) + 1)
li3 = zip(li1, li2) # list1 und list2 als tupel in list3
results = [item[1] for item in li3 if item[0] == mgrid.item(x)] # gebe 2. element von tupel aus für passende magnetisierung
num = int(''.join(map(str, results))) # wandle listeneintrag in int um
spin = 1.0 if np.random.random() < num / rgrid.item(x) else -1.0
# 3. ereignis aussuchen
p = np.random.random()
p1 = np.exp(- spin * b * mgrid.item(x) / rgrid.item(x)) * dt # flip
p2 = dt # hoch
p3 = dt # runter
p4 = (1 - spin * e) * dt # links
p5 = (1 + spin * e) * dt # rechts
p6 = 1 - (4 + p1) * dt # nichts
if p < p6:
continue
elif p < p6 + p1:
flip()
continue
elif p < p6 + p1 + p2:
up()
continue
elif p < p6 + p1 + p2 + p3:
down()
continue
elif p < p6 + p1 + p2 + p3 + p4:
left()
continue
else:
right()
continue
pr.disable()
pr.print_stats(sort='cumtime')
what i already did to speed things up:
- used cProfile to see that the random.choice i was using was terribly slow and changed that to the if-conditions for the spin and the probabilities p
- installed cython and used
import pyximport; pyximport.install() to create a compiled cython file. this gave no improvement and after checking the cython -a script.py i see that i need more static variables to gain some improvements.
running cProfile now shows me this:
188939207 function calls in 151.834 seconds
Ordered by: cumulative time
ncalls tottime percall cumtime percall filename:lineno(function)
5943639 10.582 0.000 40.678 0.000 {method 'join' of 'str' objects}
5943639 32.543 0.000 37.503 0.000 script.py:107(<listcomp>)
5943639 4.722 0.000 30.096 0.000 numeric.py:1905(array_str)
8276949 25.852 0.000 25.852 0.000 {method 'randint' of 'mtrand.RandomState' objects}
5943639 11.855 0.000 25.374 0.000 arrayprint.py:381(wrapper)
11887279 14.403 0.000 14.403 0.000 {built-in method numpy.core.multiarray.arange}
80651998 13.559 0.000 13.559 0.000 {method 'item' of 'numpy.ndarray' objects}
5943639 8.427 0.000 9.364 0.000 arrayprint.py:399(array2string)
11887278 8.817 0.000 8.817 0.000 {method 'random_sample' of 'mtrand.RandomState' objects}
579016 7.351 0.000 7.866 0.000 script.py:79(right)
300021 3.669 0.000 3.840 0.000 script.py:40(up)
152838 1.950 0.000 2.086 0.000 script.py:66(left)
17830917 1.910 0.000 1.910 0.000 {built-in method builtins.abs}
176346 1.147 0.000 1.217 0.000 script.py:37(flip)
5943639 1.131 0.000 1.131 0.000 {method 'discard' of 'set' objects}
5943639 1.054 0.000 1.054 0.000 {built-in method _thread.get_ident}
5943639 1.010 0.000 1.010 0.000 {method 'add' of 'set' objects}
5943639 0.961 0.000 0.961 0.000 {built-in method builtins.id}
3703804 0.892 0.000 0.892 0.000 {built-in method math.trunc}
I use join to get the integer value of the number of +1 particles on that spot since I need that for my probabilities.
If I want to run something serious like m=400, r=3, j=300000 (j: final time) I'm looking at about 4 years of runtime with my current speed.
Any help is greatly appreciated.
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