I need to interpolate temperature data linearly in 4 dimensions (latitude, longitude, altitude and time).

The number of points is fairly high (360x720x50x8) and I need a fast method of computing the temperature at any point in space and time within the data bounds.

I have tried using `scipy.interpolate.LinearNDInterpolator`

but using Qhull for triangulation is inefficient on a rectangular grid and takes hours to complete.

By reading this SciPy ticket, the solution seemed to be implementing a new nd interpolator using the standard `interp1d`

to calculate a higher number of data points, and then use a "nearest neighbor" approach with the new dataset.

This, however, takes a long time again (minutes).

Is there a quick way of interpolating data on a rectangular grid in 4 dimensions without it taking minutes to accomplish?

I thought of using `interp1d`

4 times *without* calculating a higher density of points, but leaving it for the user to call with the coordinates, but I can't get my head around how to do this.

Otherwise would writing my own 4D interpolator specific to my needs be an option here?

Here's the code I've been using to test this:

Using `scipy.interpolate.LinearNDInterpolator`

:

```
import numpy as np
from scipy.interpolate import LinearNDInterpolator
lats = np.arange(-90,90.5,0.5)
lons = np.arange(-180,180,0.5)
alts = np.arange(1,1000,21.717)
time = np.arange(8)
data = np.random.rand(len(lats)*len(lons)*len(alts)*len(time)).reshape((len(lats),len(lons),len(alts),len(time)))
coords = np.zeros((len(lats),len(lons),len(alts),len(time),4))
coords[...,0] = lats.reshape((len(lats),1,1,1))
coords[...,1] = lons.reshape((1,len(lons),1,1))
coords[...,2] = alts.reshape((1,1,len(alts),1))
coords[...,3] = time.reshape((1,1,1,len(time)))
coords = coords.reshape((data.size,4))
interpolatedData = LinearNDInterpolator(coords,data)
```

Using `scipy.interpolate.interp1d`

:

```
import numpy as np
from scipy.interpolate import LinearNDInterpolator
lats = np.arange(-90,90.5,0.5)
lons = np.arange(-180,180,0.5)
alts = np.arange(1,1000,21.717)
time = np.arange(8)
data = np.random.rand(len(lats)*len(lons)*len(alts)*len(time)).reshape((len(lats),len(lons),len(alts),len(time)))
interpolatedData = np.array([None, None, None, None])
interpolatedData[0] = interp1d(lats,data,axis=0)
interpolatedData[1] = interp1d(lons,data,axis=1)
interpolatedData[2] = interp1d(alts,data,axis=2)
interpolatedData[3] = interp1d(time,data,axis=3)
```

Thank you very much for your help!