I'm an admittedly pretty basic Python programmer, trying to learn as I encounter problems implementing various research problems. And I've hit one of those problems - particularly, how to handle loops where I'm returning a bunch of data, rather than the usual "out comes a single number" examples where you just add the result of the loop to everything previous.
Here's a Gist of the unlooped script I'm trying to run: https://gist.github.com/1390355
The really salient point is the end of the model_solve function:
def model_solve(t): # lots of variables set params = np.zeroes((n_steps,n_params) params[:,0] = beta params[:,1] = gamma timer = np.arange(n_steps).reshape(n_steps,1) SIR = spi.odeint(eq_system, startPop, t_interval) output = np.hstack((timer,SIR,params)) return output
That returns the results of the ODE integration bit (
spi.odeint) along with a simple "What time step are we on?" timer and essentially two columns of the value of two random variables repeated many, many times in the form of 4950 row and 7 column NumPy array.
The goal however is to run a Monte Carlo analysis of the two parameters (beta and gamma) which have random values. Essentially, I want to make a function that loops somewhat like so:
def loop_function(runs): for i in range(runs): model_solve(100) # output of those model_solves collected here # return collected output
That collected output would then be written to a file. Normally, I'd just have each model_solve function write its results to a file, but this code is going to be run on PiCloud or another platform where I don't necessarily have the ability to write a file until the results are returned to the local machine. Instead, I'm trying to get a return of a huge NumPy array of
runs*7 columns and 4950 rows - which can then be written to a file on my local machine.
Any clues as to how to approach this?