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I read this post (Selecting an appropriate lag for a regression equation and how to interpret the results of VARselect), covering the similar basics of my question already, but still am not sure about how to exactly interpret the results.

My dataset (VARTotal_df) contains 14 economic and financial variables with 121 obs. each) My VARselect() results are in particular:

VARselect(VARTotal_df,lag.max=10,type="none") # AIC, HQ, SC and FPEsuggest lag of 8
$selection
AIC(n)  HQ(n)  SC(n) FPE(n) 
     8      8      8      7 

$criteria
                  1            2            3            4            5            6            7    8    9   10
AIC(n) 6.380974e+01 6.430259e+01 6.484109e+01 6.410062e+01 6.204580e+01 5.739413e+01          NaN -Inf -Inf -Inf
HQ(n)  6.575063e+01 6.818436e+01 7.066375e+01 7.186418e+01 7.175024e+01 6.903945e+01          NaN -Inf -Inf -Inf
SC(n)  6.859414e+01 7.387138e+01 7.919428e+01 8.323821e+01 8.596778e+01 8.610050e+01          NaN -Inf -Inf -Inf
FPE(n) 5.253281e+27 9.861064e+27 2.516204e+28 2.861553e+28 2.023257e+28 5.558990e+27 -51057843500    0    0    0

Warning messages:
1: In log(sigma.det) : NaNs produced
2: In log(sigma.det) : NaNs produced
3: In log(sigma.det) : NaNs produced

Apparently, a lag of 8 is most appropriate. However, I am wondering whether this can be used as lag 7 contain NaN's and the lags 8 to 10 -Inf's.

Clarification from a more knowledgeable person would be very appreciated!

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I know this answer may come a little late, but in case it can still help you or someone else out there, here's why you got -Inf for lags 8 and greater:

Let L equal the number of lags and D equal the number of endogenous variables for your VAR, and N equal the number of observations in your dataset. Then your VAR will have DL explanatory variables and N - L number of observations. If DL > N - L, some of your variables' coefficients cannot be estimated by OLS.

So, in your case, D = 14 and N = 121. If L is greater than or equal to 8, DL > N - L since DL = 112 and N - L = 107 when L = 8. Essentially, you do not have enough observations in your dataset to calculate the criteria for lags 8 or greater.

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  • Your logic doesn't hold up in my use case. I have the same issue as the op. My parameters are as followed: L = 2, D = 2, n = 115. Can you cite your reference? Thanks.
    – Starbucks
    Jan 16 '18 at 19:58
  • @Starbucks The calculations were my own. Note they do not account for any exogenous variables. If you include p exogenous variables then you have DL + p explanatory variables. Are you using VARselect() and getting -Inf for AIC, HQ, and SC for some lags? If so, you may have gotten this result for an entirely different reason than the OP. I would suggest posting a new question.
    – duckmayr
    Jan 16 '18 at 20:19

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