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I'm running R version 3.0.2 in RStudio and Excel 2011 for Mac OS X. I'm performing a quantile normalization between 4 sets of 45,015 values. Yes I do know about the bioconductor package, but my question is a lot more general. It could be any other computation. The thing is, when I perform the computation (1) "by hand" in Excel and (2) with a program I wrote from scratch in R, I get highly similar, yet not identical results. Typically, the values obtained with (1) and (2) would differ by less than 1.0%, although sometimes more.

Where is this variation likely to come from, and what should I be aware of concerning number approximations in R and/or Excel? Does this come from a lack of float accuracy in either one of these programs? How can I avoid this?

[EDIT] As was suggested to me in the comments, this may be case-specific. To provide some context, I described methods (1) and (2) below in detail using test data with 9 rows. The four data sets are called A, B, C, D.

[POST-EDIT COMMENT] When I perform this on a very small data set (test sample: 9 rows), the results in R and Excel do not differ. But when I apply the same code to the real data (45,015 rows), I get slight variation between R and Excel. I have no clue why that may be.

(2) R code:

dataframe A

Aindex          A 
     1 2.1675e+05 
     2 9.2225e+03  
     3 2.7925e+01  
     4 7.5775e+02  
     5 8.0375e+00 
     6 1.3000e+03 
     7 8.0575e+00
     8 1.5700e+02
     9 8.1275e+01

dataframe B

Bindex          B
     1 215250.000
     2  10090.000
     3     17.125
     4    750.500
     5      8.605 
     6   1260.000 
     7      7.520 
     8    190.250
     9     67.350 

dataframe C

Cindex          C 
     1 2.0650e+05 
     2 9.5625e+03 
     3 2.1850e+01 
     4 1.2083e+02  
     5 9.7400e+00   
     6 1.3675e+03
     7 9.9325e+00
     8 1.9675e+02
     9 7.4175e+01

dataframe D

Dindex           D 
     1 207500.0000
     2   9927.5000
     3     16.1250
     4    820.2500
     5     10.3025
     6   1400.0000
     7    120.0100
     8    175.2500
     9     76.8250

Code:

#re-order by ascending values
A <- A[order(A$A),, drop=FALSE]
B <- B[order(B$B),, drop=FALSE]
C <- C[order(C$C),, drop=FALSE]
D <- D[order(D$D),, drop=FALSE]
row.names(A) <- NULL
row.names(B) <- NULL
row.names(C) <- NULL
row.names(D) <- NULL

#compute average
qnorm <- data.frame(cbind(A$A,B$B,C$C,D$D))
colnames(qnorm) <- c("A","B","C","D")
qnorm$qnorm <- (qnorm$A+qnorm$B+qnorm$C+qnorm$D)/4

#replace original values by average values
A$A <- qnorm$qnorm
B$B <- qnorm$qnorm
C$C <- qnorm$qnorm
D$D <- qnorm$qnorm

#re-order by index number
A <- A[order(A$Aindex),,drop=FALSE]
B <- B[order(B$Bindex),,drop=FALSE]
C <- C[order(C$Cindex),,drop=FALSE]
D <- D[order(D$Dindex),,drop=FALSE]
row.names(A) <- NULL
row.names(B) <- NULL
row.names(C) <- NULL
row.names(D) <- NULL

(1) Excel

  1. assign index numbers to each set.

Excel-step1

  1. re-order each set in ascending order: select the columns two by two and use Custom Sort... by A, B, C, or D:

Excel-step2

  1. calculate average=() over columns A, B, C, and D:

Excel-step3

  1. replace values in columns A, B, C, and D by those in the average column using Special Paste... > Values:

Excel-step4

  1. re-order everything according to the original index numbers:

Excel-step5

share|improve this question
    
some examples are required here and the code you used. –  JeremyS Mar 19 '14 at 7:05
    
OK you are right maybe it is case-specific, give me a minute or two and I will include the code –  biohazard Mar 19 '14 at 7:05
    
See ?quantile in R- there are quite a few different ways to calculate quantiles, so even without floating point accuracy, you may see differences depending on the method used. –  Marius Mar 19 '14 at 7:07
1  
don't worry about negative vote (it wasnt me btw:-)), i think the question makes sense if you give a specific example but i don't think there is a general case here –  lebatsnok Mar 19 '14 at 7:38
1  
my guess would be that the problem comes from somewhere in the "by hand" part of excel. –  JeremyS Mar 19 '14 at 9:17

2 Answers 2

if you use exactly the same algorithm you will get exactly the same results. not within 1% but to the 10th decimal. so you're not using the same algorithms. details probably won't change this general answer.

(or it could be a bug in excel or r but this is less likely)

share|improve this answer
    
I added all the details for both R and Excel in the OP. Unfortunately, I didn't encounter the cross-platform reproducibility problem with the smaller test data set. How can that be? T_T –  biohazard Mar 19 '14 at 8:16
    
maybe you forgot to select all the 45,015 rows in Excel in all cases? or something happened in sorting the data in excel? or it's about ties as Roland suggested above. if there are ties then sorting algorithms can behave differently –  lebatsnok Mar 19 '14 at 10:46
up vote 2 down vote accepted

Answering my own question!

It ended up being Excel's fault (well, kind of): at some point, either in the conversion from the original TAB-delimited file to CSV, or later on when I started copying and pasting stuff, the values got rounded up.

The original TAB-delimited files had 6 decimals, whereas the CSV files only had 2. I had been doing the analysis so far with quantile normalization done in Excel from the 6-decimal data, whereas I read the data from the CSV files for my quantile normalization function in R, hence the change.

For the above examples for R and Excel respectively, I used data coming from the same source, which is why I got the same results.

What would you suggest would be best now that I figured this out: 1/Change the title to let other clueless people know that this kind of thing can happen? 2/Consider this post useless and delete it?

share|improve this answer
    
BTW, Excel rounds data incorrectly (it always rounds "5" upwards), so aside from loss of precision, you'll get a bias in your dataset. –  Carl Witthoft Mar 19 '14 at 14:10
    
That's good to know, I thought I was being careful with the "Paste Special > Values" option... –  biohazard Mar 19 '14 at 14:57
3  
I would say that this is a classic "learning experience" that we've all had or if not, will have soon. So, leave it up, and mark your answer as accepted. –  Andy Clifton Mar 19 '14 at 15:28

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