The difference between the Pandas and Statsmodels version lie in the mean subtraction and normalization / variance division:

`autocorr`

does nothing more than passing subseries of the original series to `np.corrcoef`

. Inside this method, the sample mean and sample variance of these subseries are used to determine the correlation coefficient
`acf`

, in contrary, uses the overall series sample mean and sample variance to determine the correlation coefficient.

The differences may get smaller for longer time series but are quite big for short ones.

Compared to Matlab, the Pandas `autocorr`

function probably corresponds to doing Matlabs `xcorr`

(cross-corr) with the (lagged) series itself, instead of Matlab's `autocorr`

, which calculates the sample autocorrelation (guessing from the docs; I cannot validate this because I have no access to Matlab).

See this MWE for clarification:

```
import numpy as np
import pandas as pd
from statsmodels.tsa.stattools import acf
import matplotlib.pyplot as plt
plt.style.use("seaborn-colorblind")
def autocorr_by_hand(x, lag):
# Slice the relevant subseries based on the lag
y1 = x[:(len(x)-lag)]
y2 = x[lag:]
# Subtract the subseries means
sum_product = np.sum((y1-np.mean(y1))*(y2-np.mean(y2)))
# Normalize with the subseries stds
return sum_product / ((len(x) - lag) * np.std(y1) * np.std(y2))
def acf_by_hand(x, lag):
# Slice the relevant subseries based on the lag
y1 = x[:(len(x)-lag)]
y2 = x[lag:]
# Subtract the mean of the whole series x to calculate Cov
sum_product = np.sum((y1-np.mean(x))*(y2-np.mean(x)))
# Normalize with var of whole series
return sum_product / ((len(x) - lag) * np.var(x))
x = np.linspace(0,100,101)
results = {}
nlags=10
results["acf_by_hand"] = [acf_by_hand(x, lag) for lag in range(nlags)]
results["autocorr_by_hand"] = [autocorr_by_hand(x, lag) for lag in range(nlags)]
results["autocorr"] = [pd.Series(x).autocorr(lag) for lag in range(nlags)]
results["acf"] = acf(x, unbiased=True, nlags=nlags-1)
pd.DataFrame(results).plot(kind="bar", figsize=(10,5), grid=True)
plt.xlabel("lag")
plt.ylim([-1.2, 1.2])
plt.ylabel("value")
plt.show()
```

Statsmodels uses `np.correlate`

to optimize this, but this is basically how it works.

`1`

for the pandas version and`40`

for statsmodel – EdChum Mar 16 '16 at 14:48`unbiased=True`

as option to the statsmodels version. – Josef Mar 16 '16 at 17:06`unbiased=True`

should make the autocorrelation coefficients larger. – Josef Mar 16 '16 at 17:15`autocorr`

from`pandas`

is calling`numpy.corrcoef`

while`acf`

from`statsmodels`

is calling`numpy.correlate`

. I think digging in those can help to find the root of the differences in the outputs. – Primer Mar 17 '16 at 19:53