Below is a working example with RollingOLS from statsmodels. The inspiration is from the answer to this question on Rolling OLS Regressions and Predictions by Group.

This can easily be modified for your panel data to perform a rolling window regression. `model.params`

will get you the coefficients, in particular the monthly intercept fund wise as output.

```
from statsmodels.regression.rolling import RollingOLS
from statsmodels.tools.tools import add_constant
import statsmodels.api as sm
import pandas as pd
import numpy as np
data = sm.datasets.grunfeld.load()
df_grunfeld = pd.DataFrame(data.data)
df_grunfeld.set_index(['firm'], append=True, inplace=True)
# Simple Model
# $$invest = \beta_0 + \beta_1 value$$
def invest_params(df_gf, intercept=False):
"""
Function to operate on the data of a single firm.
Assumes df_gf has the columns 'invest' and 'value' available.
Returns a dataframe containing model parameters
"""
# we should have at least k + 1 observations
min_obs = 3 if intercept else 2
wndw = 8
# if there are less than min_obs rows in df_gf, RollingOLS will throw an error
# Instead, handle this case separately
if df_gf.shape[0] < min_obs:
cols = ['coef_intercept', 'coef_value'] if intercept else ['coef_value']
return pd.DataFrame(index=df_gf.index, columns=cols)
y = df_gf['invest']
x = add_constant(df_gf['value']) if intercept else df_gf['value']
model = RollingOLS(y, x, expanding=True, min_nobs=min_obs, window=wndw).fit()
parameters = model.params
params_shifted = model.params.shift(1)
mse = model.mse_resid
parameters['invest_hat'] = (parameters.mul(add_constant(df_gf['value']), axis=0)\
.sum(axis=1, min_count=1)).to_frame('invest_hat')
parameters['invest_hat_shift'] = (params_shifted.mul(add_constant(df_gf['value']), axis=0)\
.sum(axis=1, min_count=1)).to_frame('invest_hat_shift')
parameters['mse'] = mse
parameters['rmse'] = np.sqrt(mse)
parameters['nobs'] = model.nobs
parameters['ssr'] = model.ssr
parameters['t_const'] = model.tvalues['const']
parameters['t_value'] = model.tvalues['value']
parameters.rename(columns = {'const' : 'b0', 'value' : 'b1'}, inplace = True)
parameters['r2_adj'] = model.rsquared_adj
return parameters
grouped = df_grunfeld.groupby('firm')
df_params = grouped.apply(lambda x: invest_params(x, True))
df_grunfeld_output = df_grunfeld.join(df_params, rsuffix='_coef')
```