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I have a system of diff eqs in a m*m matrix S. S[i,j] is a particular species concentration and is affected by S[i-1,j] and S[i,j-1]

I can get dx/dt of each entry at each step (returned by update_matrix) but then I need to integrate it to update my initial concentrations (x same as x_counts). However scipy's integrate.odeint does not accept matrices as input ( or return value and raises the object too deep error.

Any way I can tweak this to use the integrator on the matrix? I provided a piece of the code: diffeq returns dx/dt for each entry. update_matrix returns matrix B where B[i.j]=dx[i,j]/dt

def diffeq(x,i,j,coeffs):
    if (i==1 and j==0):
        return (-(coeffs.M(1,0)-coeffs.L(1,0)))+coeffs.d(1,0)-coeffs.get_phi()*x[1][0]
    elif j==0:
        return (-(coeffs.M(i,0)+coeffs.L(i,0)))*x[i][0]+coeffs.L(i-1,0)*x[i-1][0]+coeffs.d(i,j)-coeffs.get_phi()*x[i][0]
    elif (i>1 and j>0):
        return (-(coeffs.M(i,j)+coeffs.L(i,j)))*x[i][j]+coeffs.M(i,j-1)*x[i][j-1]+coeffs.L(i-1,j)*x[i-1][j]+coeffs.d(i,j)-coeffs.get_phi()*x[i][j]
    elif i==1 and j>0:
        return (-(coeffs.M(1,j)+coeffs.L(1,j)))*x[1][j]+coeffs.M(1,j-1)*x[1][j-1]+coeffs.d(1,j)-coeffs.get_phi()*x[1][j]
    elif i==0 and j==1:
        return -x[0][1]+coeffs.d(0,1)-coeffs.get_phi()*x[0][1]
    elif i==0 and j>1:
        return -j*x[0][j]+(j-1)*x[0][j-1]+coeffs.d(0,j)-coeffs.get_phi()*x[0][j]


def update_matrix(x,coeffs,m):
    update_matrix=numpy.zeros((m,m))
    for i in range(m+1):
        for j in range(m+1-i):
            update_matrix[m][m]=diffeq(x,i,j,coeffs)
    return update_matrix


def run_simulation_R2(a,q,m):

    x_counts=numpy.zeros((m,m))
    x_counts[1][0]=1
    x_counts[0][1]=1
    coeffs=R2(a,q,m,x_counts)
    t=range(0,100)
    output = integrate.odeint(update_matrix, x_counts, t, args=(coeffs, m))
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1  
FYI: I created a wrapper of odeint called odeintw that handles matrix differential equations: github.com/WarrenWeckesser/odeintw –  Warren Weckesser May 15 at 3:45
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1 Answer

up vote 1 down vote accepted

If odeint expects a vector, not a matrix, you are going to have to give it a vector. If you don't want to change the logic of your code to much, you can make x be an (m**2,) vector outside your functions, but still an (m, m) matrix inside, by liberally applying .reshape(-1) everywhere needed. You didn't provide us with enough information to test it fully, but something like this may work:

def update_matrix(x,coeffs,m):
    x = x.reshape(m, m)
    update_matrix=numpy.zeros((m,m))
    for i in range(m+1):
        for j in range(m+1-i):
            update_matrix[m][m]=diffeq(x,i,j,coeffs)
    return update_matrix.reshape(-1)

def run_simulation_R2(a,q,m):
    x_counts=numpy.zeros((m,m))
    x_counts[1][0]=1
    x_counts[0][1]=1
    coeffs=R2(a,q,m,x_counts)
    t=range(0,100)
    output = integrate.odeint(update_matrix, x_counts.reshape(-1), t,
                              args=(coeffs, m))
    return output.reshape(m, m)
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Yes I used a similar approach, I created an interface between update_matrix and run_simulation so the matrix is flattened and reshaped each time, it did solve the problem –  GammaAmino Feb 11 '13 at 22:56
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