Multiplication with float variables

[el_tigre]

Hello everyone.
I'm working on a project with an external IMU unit.
Delivery IMU unit values of different parameters in int16.
These values must be multiplied by constants to obtain the final value.

The code I use for each parameter (each parameter has three values x, y and z) is as follows.

[FvM]

The unexpected slow processing isn't with the float multiply but with sprintf(). It's also the bottleneck in PIC18 performance, the arithmetic operations consumes only about 65 µs with PIC 18 (1% of total processing time) and 16.5 us with dsPIC.

[el_tigre]

good point! I had not thought of that.
I need to send data in ASCII format, what options do I have?

[FvM]

I don't see a clear explanation for the slow sprintf() operation. If you need to do it fast, you should try to find out which operation is exactly that slow?
The binary to decimal conversion, the float operation with %f or %g format, the %g rounding? Depending on the results, you can e.g. try to utilize fixed point integer instead.

I have no results of other compilers at hand, is it a particular CCS C issue?

[el_tigre]

Hi, thanks for the answer.
I use only CCS compiler.
I do not know why this happens. I understand that's weird.
On the other hand, often do not use float variables in other projects, so I'm not familiar with the options of variable type float.

Recently I was trying to replace %g with %f, at least in the 18F makes no difference.

As I can do to try fixed point?

[FvM]

I found, that the extraordinary slow operation is only with print of float values. PCD is apparently using float64 in the print routines internally, for this reason it's considerably slower than PCH.

CCS C offers a built-in fixed point print option for unsigned data with the %w format. For signed, you would have to build it on your own: Convert the data to int16 or int32 with a scale factor and insert a decimal point into the string.

[Ttelmah]

Double 'check' if you need float.
You presumably only use a particular degree of output precision, since your incoming values can only have 65536 possible levels. So what about using the scaled integer ability?. Something like:

[FvM]

The said quantities are signed by nature. So %w respectively %lw don't work without additional prerequisites.

[Ttelmah]

He said the numbers were int16 to start with.
You can deal with signed if necessary by just inverting is negative, and holding the sign bits separately. If so, it almost ensures that the six digit scale factor can be used.

Best Wishes

[FvM]

Yes, it can be done with %w and converting the data to a sign-magnitude representation. But is it an acceptable C programming solution?

By the way, I tried the original code with Microchip C30 (after removing special CCS functions as make16() ) and got 550 µs execution time versus said 11 ms with PCD.

[el_tigre]

Hello everyone.
I was doing tests with both uc.
These are my results:

18F2520
Compiled 4.093
Both functions going well, but no differences in the time of execution.
It takes about 6.5 mS (measurement with an oscilloscope).
The code I ended up using that works is: