SER Model
Project description
SER model
This minimal model of spreading excitations has a rich history in many disciplines, ranging from the propagation of forest-fires, the spread of epidemics, to neuronal dynamics. SER stands for susceptible, excited and refractory.
Installation
pip install ser
Example
import matplotlib.pyplot as plt
import numpy as np
import seaborn as sns
from ser import SER
sns.set(style="white", font_scale=1.5)
# Build a random adjacency matrix (weighted and directed)
n_nodes = 50
adj_mat = np.random.uniform(low=0, high=1, size=(n_nodes, n_nodes))
adj_mat[np.random.random(adj_mat.shape) < .9] = 0 # make sparser
# Instantiate SER model once, use as many times as we want (even on different graphs)
ser_model = SER(n_steps=500,
prop_e=.1,
prop_s=.4,
threshold=.4,
prob_recovery=.2,
prob_spont_act=.001)
# Run activity. The output is a matrix (node vs time)
activity = ser_model.run(adj_mat=adj_mat)
#Plot the activity matrix and the global activity level
activity_only_active = activity.copy()
activity_only_active[activity == -1] = 0
n_active_nodes = activity_only_active.sum(axis=0)
fig, (ax1, ax2) = plt.subplots(nrows=2, figsize=(15, 8), sharex=True)
ax1.plot(n_active_nodes, linewidth=4, color="#6D996A", alpha=.8)
ax1.set_ylabel("Number\nactive nodes", fontsize=25)
ax2.imshow(activity, cmap="binary_r")
ax2.set_xlabel("Time", fontsize=25)
ax2.set_ylabel("Nodes", fontsize=25)
ax2.set_aspect("auto")
ax2.grid(False)
sns.despine()
fig.tight_layout()
Requirements
- numpy>=1.20.3
- numba==0.54.1
- scipy>=1.7.0
Other versions might work, but these are the latest one I tested.
Tested in Ubuntu 20.04.3 LTS with Python 3.9.
Implementation
The graph (or network) is represented as an adjacency matrix (numpy array). Dynamics is implemented in numpy and accelerated with numba, so it is fast - quick benchmarks show between 2-3 times faster simulations than pure vectorized numpy versions!
Numba tips and tricks
- Don't use adj_mat with type other than np.float32, np.float64.
- Pro-tip: use np.float32 for adj_mat – it will run faster.
Limitations
- The graph is represented as a numpy array, which is less memory efficient than a list or a dictionary representation. That limits the size of the network you can use (of course, depending on your RAM).
References
- J. M. Greenberg and S. P. Hastings, SIAM J. Appl. Math. 34, 515 (1978).
- A. Haimovici et al. Phys. Rev. Lett. 110, 178101 (2013).
- Messé et al. PLoS computational biology (2018)
TODO
- Tests
- Examples
- Implement multi runs
- Optional turn off numba
- networkx and igraph conversions
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