# What causes “Jacobian matrix” to be singular in SAS?

I have a simple SAS (version 9.2) program as follows,

``````proc model;
cdf('normal',log(V/100)+1)=0.5;
bounds V>0;
solve V/solveprint;
run;
``````

It throws exception that says jacobian matrix to be singular,

``````The Newton method Jacobian matrix of partial derivatives of the
equations with respect to the variables to be solved is singular.
``````

What is the possible cause of this error?

Update: I have simplified the problem a bit. When modified to "cdf('normal', X)=0.5", it works without exception.

Update2: bounds is updated to V>0; but exception still there

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Its not an error. It is saying that your matrix is singular, i.e. not invertible. If you are trying to solve a system of equations, your matrix must be invertible. –  NickLH Nov 5 '11 at 19:56
does the part `cdf('normal',(log(V/90.986)+(0.0477+0.2*0.2*0.5))/0.2)` formulated correctly? since you are not specifying mean/stdev, they default to 1 and 0, so the value of the cdf() is vituruall 1. But SAS maybe having hard time because it still has tiny sensitivity to V, and wants to decrease V but you bounded it to be >1000. bound is adding extra condition to satisfy, causing problem to be unsolvable, i'd guess –  yosukesabai Nov 5 '11 at 19:58
@NickLH I am aware that the matrix is quite sensitive to data, but how to make the matrix invertible? –  Richard Nov 5 '11 at 20:16
@yosukesabai, when without bounds like V>1000, the exception persists. And I think the default mean should be 0 and stdev be 1... correct if I am wrong –  Richard Nov 5 '11 at 20:22
If your matrix is not invertible then there's not much you can do about it. Singular Jacobian is the matrix equivalent of divide by zero. –  David Heffernan Nov 5 '11 at 20:56

What input data set are you passing to proc model? For example, this code works consistently:

``````data a;
v=100;
run;

proc model data=a;
cdf('normal',log(V/100)+1) = 0.5;
bounds V>0;
solve V / solveprint;
run;
quit;
``````

And gives a solution of `V=36.78794`

But changing the input data somewhat (see below) will consistently give a singular Jacobian matrix error.

``````data a;
v=0.00001;
run;

proc model data=a;
cdf('normal',log(V/100)+1) = 0.5;
bounds V>0;
solve V / solveprint;
run;
quit;
``````
-
maybe I misunderstand, aren't two code snippets the same? –  Richard Nov 7 '11 at 22:52
@Richard - Sorry about that, it was a copy/paste error - fixed it now. Just needed to change the V= statement in the first data step. –  cmjohns Nov 8 '11 at 3:12
@cmjohns - Interesting. Do you know why this happens? I'm not too familiar with `proc model`. –  itzy Nov 9 '11 at 15:18

You are asking SAS to solve a function that has no solution. You are asking for the value of `V>1000` that makes this equation true. But there are no such values because `log(1000/100+1)` is about 3.3, and the CDF of a Normal random variable with mean 0 and standard deviation 1 evaluated at 3.3 is 0.9995. Any larger value of `V` will just move the function closer to 1, not toward 0.5, so there is no answer to your question.

By telling you that the matrix of partial derivatives is singular, SAS is just using fancy math speak for "your function doesn't have a solution". (Really what it's saying is, "I've turned your question into an equivalent maximization problem, and that problem doesn't have a maximum, so I can't help you.")

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By the way, you can try solving `CDF('Normal',log(V/100+1)=0.9999` or something really close to 1 and that should give you a solution. –  itzy Nov 5 '11 at 20:39
By changing constraints to V>0, there is still exception. –  Richard Nov 5 '11 at 20:51
Hm, okay, that's not what I'd expect. I don't have access to SAS right now, so I can't test it. What happens if you take away the bound? –  itzy Nov 5 '11 at 23:48
If take the bound away, it's the same thing; still the same exception. –  Richard Nov 6 '11 at 1:45