I'm very new to python and numpy, so sorry if I misuse some terminology.

I have converted a raster to a 2D numpy array in the hopes of doing calculations on it quickly and efficiently.

I need to get the cumulative sum across a numpy array such that, for each value, I generate the sum of all values that are less than or equal to that, and write that value to a new array. I need to cycle through the entire array that way.

I also need to scale the output between 1 and 100, but that seems

more straightforward.

Attempt to clarify by example:

```
array([[ 4, 1 , 3 , 2] dtype=float32)
```

I would want the output values (just doing first row by hand) to read:

```
array([[ 10, 1 , 6 , 3], etc.
```

Any ideas on how to do that?

Thanks in advance!

The near finished script for anyone who's interested:

```
#Generate Cumulative Thresholds
#5/15/14
import os
import sys
import arcpy
import numpy as np
#Enable overwriting output data
arcpy.env.overwriteOutput=True
#Set working directory
os.chdir("E:/NSF Project/Salamander_Data/Continuous_Rasters/Canadian_GCM/2020/A2A/")
#Set geoprocessing variables
inRaster = "zero_eurycea_cirrigera_CA2A2020.tif"
des = arcpy.Describe(inRaster)
sr = des.SpatialReference
ext = des.Extent
ll = arcpy.Point(ext.XMin,ext.YMin)
#Convert GeoTIFF to numpy array
a = arcpy.RasterToNumPyArray(inRaster)
#Flatten for calculations
a.flatten()
#Find unique values, and record their indices to a separate object
a_unq, a_inv = np.unique(a, return_inverse=True)
#Count occurences of array indices
a_cnt = np.bincount(a_inv)
#Cumulatively sum the unique values multiplied by the number of
#occurences, arrange sums as initial array
b = np.cumsum(a_unq * a_cnt)[a_inv]
#Divide all values by 10 (reverses earlier multiplication done to
#facilitate accurate translation of ASCII scientific notation
#values < 1 to array)
b /= 10
#Rescale values between 1 and 100
maxval = np.amax(b)
b /= maxval
b *= 100
#Restore flattened array to shape of initial array
c = b.reshape(a.shape)
#Convert the array back to raster format
outRaster = arcpy.NumPyArrayToRaster(c,ll,des.meanCellWidth,des.meanCellHeight)
#Set output projection to match input
arcpy.DefineProjection_management(outRaster, sr)
#Save the raster as a TIFF
outRaster.save("C:/Users/mkcarte2/Desktop/TestData/outRaster.tif")
sys.exit()
```

`array([[4, 1], [3, 2]])`

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