I'm using scikit's Random Forest implementation:
sklearn.ensemble.RandomForestClassifier(n_estimators=100, max_features="auto", max_depth=10)
rf.fit(...), the process's memory usage increases by 80MB, or 0.8MB per tree (I also tried many other settings with similar results. I used
psutil to monitor the memory usage)
A binary tree of depth 10 should have, at most,
2^11-1 = 2047 elements, which can all be stored in one dense array, allowing the programmer to find parents and children of any given element easily.
Each element needs an index of the feature used in the split and the cut-off, or 6-16 bytes, depending on how economical the programmer is. This translates into 0.01-0.03MB per tree in my case.
Why is scikit's implementation using 20-60x as much memory to store a tree of a random forest?