I need to perform linear interpolation on a data containing `'n'`

independent variables and a dependent variable. I am currently using `scipy.interpolate.LinearNDInterpolator`

for performing the interpolation. However, when I change the range of the data set by multiplying all values (of a variable) with a constant the result after interpolation changes completely.

Let me illustrate this with a specific example:

```
X = [[0.00000000e+00, 1.00000000e+00], [0.00000000e+00, 8.00000000e+00], [0.00000000e+00, 1.60000000e+01], [0.00000000e+00, 3.20000000e+01],
[0.00000000e+00, 6.40000000e+01], [0.00000000e+00, 1.28000000e+02], [1.00000000e-06, 1.00000000e+00], [1.00000000e-06, 8.00000000e+00],
[1.00000000e-06, 1.60000000e+01], [1.00000000e-06, 3.20000000e+01], [1.00000000e-06, 6.40000000e+01], [1.00000000e-06, 1.28000000e+02],
[1.00000000e-06, 2.56000000e+02], [1.00000000e-06, 5.12000000e+02], [1.00000000e-05, 1.00000000e+00], [1.00000000e-05, 8.00000000e+00],
[1.00000000e-05, 1.60000000e+01], [1.00000000e-05, 3.20000000e+01], [1.00000000e-05, 6.40000000e+01], [1.00000000e-05, 1.28000000e+02],
[1.00000000e-05, 2.56000000e+02], [1.00000000e-05, 5.12000000e+02], [1.00000000e-04, 1.00000000e+00], [1.00000000e-04, 8.00000000e+00],
[1.00000000e-04, 1.60000000e+01], [1.00000000e-04, 3.20000000e+01], [1.00000000e-04, 6.40000000e+01], [1.00000000e-04, 1.28000000e+02],
[1.00000000e-04, 2.56000000e+02], [1.00000000e-04, 5.12000000e+02], [1.00000000e-03, 1.00000000e+00], [1.00000000e-03, 8.00000000e+00],
[1.00000000e-03, 1.60000000e+01], [1.00000000e-03, 3.20000000e+01], [1.00000000e-03, 6.40000000e+01], [1.00000000e-03, 1.28000000e+02],
[1.00000000e-02, 1.00000000e+00], [1.00000000e-02, 8.00000000e+00], [1.00000000e-02, 1.60000000e+01], [1.00000000e-02, 3.20000000e+01],
[1.00000000e-02, 6.40000000e+01], [1.00000000e-02, 1.28000000e+02]]
y = [0.00000000e+00, 0.00000000e+00, 0.00000000e+00, 0.00000000e+00, 0.00000000e+00, 0.00000000e+00, 6.99000000e-17, 5.60000000e-16, 1.12011400e-15, 2.24034300e-15,
4.48080000e-15, 7.56193140e-14, 2.17896343e-13, 5.02450401e-13, 6.99000000e-16, 5.60000000e-15, 1.12011430e-14, 2.24034290e-14, 4.48080000e-14, 8.96171430e-14,
1.79235429e-13, 3.58472001e-13, 6.99000000e-15, 5.60000000e-14, 1.12011429e-13, 2.24034286e-13, 4.48080000e-13, 8.96171429e-13, 1.79235429e-12, 3.58472000e-12,
6.99000000e-14, 5.60000000e-13, 1.10000000e-12, 2.20000000e-12, 4.50000000e-12, 9.00000000e-12, 6.99000000e-13, 5.60000000e-12, 1.12000000e-11, 2.24000000e-11,
4.48000000e-11, 8.95000000e-11]
```

When I perform interpolation for values `[7.10000000e-05, 18]`

I get the result `7.95281146e-14`

. If I were to multiply the first column by `10^3`

and the results column by `10^12`

then the result I get is completely different. I get `0.09352`

which is equivalent to `9.352e-14`

.

- Can someone throw some light on why scipy is giving different results in these cases?
- which of these results is right? (I tried using excel however I soon realized that scipy uses a different technique).
- How should I fix this problem?

`LinearNDInterpolator`

uses Delaunay triangulation to triangulate the data point positions (`X`

here), then linearly interpolates inside each triangle using the data at each of the three points per triangle. The Delaunay triangulation is sensitive to the data point positions. You will not get the same triangulation if you scale one of the position coordinates differently than the other. Consequently, the position that you are trying to interpolate will be getting`y`

data from a different set of three points. – Robert Kern May 7 '13 at 14:57