Why does a griddedInterpolant use twice as much memory as the array of values that it's interpolating between?

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Let V be the n-by-n array of values that the griddedInterpolant is interpolating between, and let X and Y be the ndgrid-format arrays that represent the grid of points corresponding to the locations that the values V are measured at.
I would expect one of two relationships between the size of the array V and the size of the griddedInterpolant object. Either,
  1. V could occupy roughly the same amount of memory as the griddedInterpolant object (since the Method, ExtrapolationMethod, and GridVectors properties of this object should occupy negligible amounts of memory compared to the Values property).
  2. V could occupy roughly 1/3 the amount of memory as the griddedInterpolant object if, for some reason, the griddedInterpolant can make evaluations more quickly if X and Y are always (in the background) stored in their full ndgrid format rather than in their grid vector format.
However, running this script for sufficiently large n reveals that V typically uses half the amount of memory required by the corresponding griddedInterpolant. Does anyone know why this is?
EDIT: Interestingly, this is true for any method of interpolation, and does not seem to be specific to interpolation methods that would require the storage of interpolation coefficients, such as 'cubic'.
clear; close all;
method = 'nearest';
n = 1000;
x = 1:n;
y = 1:n;
[X,Y] = ndgrid(x,y);
V = rand(n,n);
gi = griddedInterpolant({x,y},V,method);
gi2 = griddedInterpolant(X,Y,V,method);
gi3 = griddedInterpolant(V,method);
whos
Name Size Bytes Class Attributes V 1000x1000 8000000 double X 1000x1000 8000000 double Y 1000x1000 8000000 double gi 1x1 16016244 griddedInterpolant gi2 1x1 16016244 griddedInterpolant gi3 1x1 16016244 griddedInterpolant method 1x7 14 char n 1x1 8 double x 1x1000 8000 double y 1x1000 8000 double

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Matt J
Matt J 2024 年 1 月 26 日
編集済み: Matt J 2024 年 1 月 26 日
I suspect that griddedInterpolant does not really consume twice what V consumes. I think it is just a quirk of whos(). Remember that whos() doesn't really track well which Matlab variables share data, so it doesn't provide as reliable a tally of consumed memory as the memory command, which my test below uses:
method = 'linear';
n = 60;
x = 1:n;
V=rand(n,n,n,n);
whos V
memBefore = memory().MemUsedMATLAB;
gi = griddedInterpolant({x,x,x,x},V,method);
clear V
memAfter = memory().MemUsedMATLAB;
whos gi
memDifference=memAfter - memBefore
The output of this on my computer is,
Name Size Bytes Class Attributes
V 60x60x60x60 103680000 double
Name Size Bytes Class Attributes
gi 1x1 207362368 griddedInterpolant
memDifference =
0
Notice that the amount of additional memory used after gi is created (and V cleared) is zero. How is that possible if V is 100 MB and gi is truly 200 MB (as reported by whos)? Shouldn't the difference be 100 MB?
  5 件のコメント
Alex Ogren
Alex Ogren 2024 年 1 月 29 日
編集済み: Alex Ogren 2024 年 1 月 29 日
That makes sense. I guess I am less confused about why griddedInterpolant would be faster than interpn, and more interested in the fact that the griddedInterpolant seems to take literally zero memory (if it is allowed to share memory with V). I would have thought that it would at least use some memory (even if the memory is negligible in comparison to V) to store some information that would be useful for quick interpolation later.
Matt J
Matt J 2024 年 1 月 29 日
編集済み: Matt J 2024 年 1 月 29 日
I think the memory() command has its accuracy limits as well. It doesn't seem to pick up really small stuff, e.g.,
clearvars
mem_Before = memory().MemUsedMATLAB;
x = 1:60;
mem_After = memory().MemUsedMATLAB;
Consumed = mem_After - mem_Before,
Consumed =
0

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