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I have to start working on code that solves Bellman equations using value function iterations. That means I will have a huge state space (N,K) and will solve a forward looking problem for every {n,k} in (N,K). Every iteration will have some standard algebraic operations and transpositions on matrices of size NxK.

I used to do this with numpy and scipy. However, after using pandas for other issues, I have grown quite used to it. I guess the upside of using it is higher comfort in many operations. On the other side, I expect simple matrices to be more efficient when doing these big but trivial operations.

Does anyone have experiences or better expectations than I do? Is this something worthwile looking into or am I only going to be wasting time?

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I haven't found DataFrames to be much more useful for Bellman equations than just raw numpy arrays. The real benefit pandas brings is the arrays being labeled and missing value handling. This lets you do things like easily add two arrays that are different shapes (aligning on the labels). But your operations will always be mapping your state space into itself, and you also shouldn't have any missing values. Finally, there is a performance cost to tracking those labels, so raw numpy arrays will (probably) be faster. –  TomAugspurger May 12 at 14:56
Fair enough. Since there's no additional comments being made, if you add this as an answer, we can close this. –  FooBar May 14 at 7:36

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