You could try this worksheet function alternative... with data in `A1:E9`

, enter this in `F2`

and fill down:

```
=FORECAST(E2,IF(MMULT(ROW(B$2:B$9)-LOOKUP(0,(B$2:B$9>=E2)/(A$2:A$9=D2),ROW(B$2:B$9))-0.5,1)^2<1,C$2:C$9),B$2:B$9)
```

*Update*: Here's a slightly shorter alternative entered with CTRL+SHIFT+ENTER

```
=PERCENTILE(IF(A$2:A$9=D2,C$2:C$9),PERCENTRANK(IF(A$2:A$9=D2,B$2:B$9),E2,20))
```

This assumes a positive relationship between variables and returns values at both boundaries.

**Background**

If you're going to use worksheet functions for this, the obvious approach is to find the neighboring two points to X: (X1,Y1) and (X2,Y2). Then calculate Y using:

```
Y = Y1 + (X - X1) * (Y2 - Y1) / (X2 - X1)
```

The problem is that this leads to a lengthy formula involving six INDEX/MATCH combinations and six more conditions for restricting data to the specified site. This leads one to look for other options...

**1**. The first formula looks complicated but all it's doing is applying a straight line fit based on the two neighboring points for the same site. Evaluating the formula for the third row above - by highlighting each part of the formula and pressing F9 - gives:

```
=FORECAST(26,{FALSE;500;600;FALSE;...},{10;20;30;40;...})
```

FORECAST ignores non-numeric data so the result is the same as just using {500,600} and {20,30} for the 2nd and 3rd arguments. You can use F9 on other parts of the formula to break it down further - I'll leave details to you. (The MMULT(...,1) part just changes the argument to an array so you can enter the formula without array-entry.)

**2**. The second formula is easier to follow. First note that in Excel percentiles are calculated by linear interpolation and the IF part is just restricting the numeric data to the specified site. Assuming data is increasing it follows that we can find the k-value in the PERCENTILE formula that matches the lookup value in the x-range and return the y-range value with that k-value. For the example in question:

```
26 =PERCENTILE({10,20,30,40,50},0.4)
560 =PERCENTILE({400,500,600,700,800},0.4)
```

To calculate the value of 0.4 the PERCENTRANK can be used which is inverse to PERCENTILE:

```
0.4 =PERCENTRANK({10,20,30,40,50},26)
0.4 =PERCENTRANK({400,500,600,700,800},560)
```

The formula above follows by combining these two functions, the last argument is set to 20 for full precision (Excel stores values internally to around 15-17 digits of precision).

`Function interpolate(...)`

If so, post the code for that function and we can then adjust it to help you get what you want. – Scott Holtzman Aug 15 '12 at 17:40