How to get "reliable" rounding?

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Ian
Ian 2023 年 8 月 8 日
コメント済み: Ian 2023 年 8 月 10 日
Here are some sample times in seconds from some equipment nominally sampled at just below 500Hz (~2ms per sample), the times are stored with 6 decimal places:
x = [650.979531;650.981479;650.983426
650.985373;650.987321;650.989267
650.991215;650.993162;650.995109
650.997057;650.999003;651.000951
651.002897;651.004846;651.006792
651.008738;651.010688;651.012633
651.014580;651.016528;651.018474];
MATLAB loads it as double precision. Lets look at the diff to see the increments in milliseconds (*1e3):
>> diff(x*1e3)
ans =
1.948000000091270
1.946999999927357
1.947000000043772
1.947999999974854
1.945999999996275
1.947999999974854
...
Looks good, every step is ~1.9ms so if I round to the nearest millisecond I naively expect it to all round to 2ms steps. But round(x, 3) [3 decimal places] doesn't get what I naively expect, note I inserted a < to the millisecond value just to highlight the millisecond value:
>> round(x,3)
ans =
1.0e+02 *
6.50980<0000000000
6.50981<0000000000
6.50982<9999999999
6.50985<0000000000
6.50986<9999999999
...
0, 1, 2, 5, 6 the rounding is not what I expect (and my analysis code expects times to have 2ms inter-sample interval). I tried to first convert to single precision (given the input has 6 decimals) but that didn't help. I also naively tried "succesive" rounding (6to5, 5to4, 4to3) hoping to accumulate each decimal:
>> round(round(round(x,5),4),3)
ans =
1.0e+02 *
6.50980<0000000000
6.50981<9999999999
6.50982<9999999999
6.50985<0000000000
6.50986<9999999999
...
I don't know why I get values like 6.509829999999999 when I expect 6.509830000000000. I also tried to convert to int32 with no luck:
>> int32(x*1e3)
ans =
21×1 int32 column vector
650980
650981
650983
650985
650987
650989
650991
650993
650995
650997
650999
651001
651003
651005
651007
651009
651011
651013
651015
651017
651018
Mostly steps of 2ms with occasional steps of 1ms (first and last step). If I convert to single then int32 [int32(single(x)*1e3)] I still get mixed results. I'm sure that is my ignorance of the core of computer science and floating point values, but I just want to find a way if possible to reliably round to the nearest 2ms (given the clear diff values). Any help much appreciated, thanks!

採用された回答

Rik
Rik 2023 年 8 月 8 日
Your problem is not with how floats work, but with how decimal values work.
If you look at the calender, you might notice something weird: February sometimes has an extra day. That's because the sidereal day does not match the solar day. It is close though: 23h56m04s. If you round that, you would get to 1 day. So if you now do what you did to your data, that would mean the leap days are no longer needed. Good news for people who can't remember the rules, but bad news for people who don't want the seasons to have moved 100 days since the early 1600s.
You can round your data to 2ms intervals OR to the closest integer milisecond, but not both. The choice is yours.
Alternatively, you can resample your data to match the timing interval you want.
  1 件のコメント
Ian
Ian 2023 年 8 月 9 日
Thank you, resampling may make the most sense in this case, and I appreciate you sharing your knowledge.

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その他の回答 (1 件)

Walter Roberson
Walter Roberson 2023 年 8 月 8 日
temp = 6.50983000000000
temp = 6.5098
fprintf('%.999g\n', temp)
6.50983000000000000540012479177676141262054443359375
You can see that 6.50983000000000 exactly does not exist in binary floating point. Values must always be higher or lower than that value.
>> diff(x*1e3)
ans =
6.50983000000000
We can tell from that output that you are using format long g . But here's the thing: format long g uses %.15g . The majority of double precision numbers need 16 decimal digits to exactly replicate, with their being portion that need 17 decimal digits to exactly replicate. So where 6.50983000000000 shows up in output, the value might be less than or greater than the value you were hoping for
format long g
t2 = temp*(1-eps);
t2
t2 =
6.50983
fprintf('%.999g\n', t2);
6.50982999999999822904328539152629673480987548828125
t3 = temp*(1+eps);
t3
t3 =
6.50983
fprintf('%.999g\n', t3)
6.50983000000000178175696419202722609043121337890625
t2 - temp
ans =
-1.77635683940025e-15
t3 - temp
ans =
1.77635683940025e-15
t3 - t2
ans =
3.5527136788005e-15
The value, t2, is slightly less than the target value, but displays the same as the target value does. The value, t3, is slightly more than the target value, but displays the same way that the target value does.
... and that means that where 6.50983000000000 showed up in your output, it might have been a value slightly smaller than you expected, one that does not round the way you expect.
  3 件のコメント
Rik
Rik 2023 年 8 月 9 日
You can still give this answer an upvote if you want to give explicit recognition.
Ian
Ian 2023 年 8 月 10 日
Done, thanks Rik!

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