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I want to use Optuna to determine an optimum of a following data set:

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All these parameters are used to find the optimal value in column optimum. The clou now is that these optimum values are not known until a device uses the parameters to run at these settings and bring up this specific optimum value at these parameters. My problem is that I don't know how to realize this with Optuna. I had a look the tutorials but couldn't figure out which matches my task?

On https://optuna.readthedocs.io/en/stable/tutorial/20_recipes/009_ask_and_tell.html#apply-optuna-to-an-existing-optimization-problem-with-minimum-modifications I've seen You can apply Optuna’s hyperparameter optimization to your original code without an objective function.

But I can't figure out how to adapt it to my task.

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It seems like your data can be approached by multiple regression. You can use for example the xboost library to find the parameter coefficients to approximate your optimum values. Now the xgboost output can be optimized by optimizing its parameters too. You can then use optuna to optimize the parameters of xgboost.

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  • Thank you! Might be a dumb question but for what exactly do I need (another xboost) library? Because I lack an objective function?
    – Ben
    May 25 at 8:59
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    Yes you can use xgboost lib to create a model. You will train this model with the given data you have. Then when done use this model to predict the optimum value given the parameters. Lets say temp=21, filament=12000, etc, optimum=4. This is your true data. Now we will let the model predict the same parameters and outputed 8, the error then is 8-4 or 4, or squared_error is 4*4, basically that will become your objective function, to minimize the error. Notice there are more points to satisfy. We will tell optuna to minimize that, I will create an example if you need one.
    – ferdy
    May 25 at 9:20
  • Ok, understood, thank you! And simply using something like " optimum = filament + Injection_D + Injection_L + Contraction_D ..." directly in python is not sufficient? I'm just a bit concerned about the necessary hardware as the algorithm has to run on a micro controller later.
    – Ben
    May 25 at 11:59
  • Btw, I don't think I'm able to train the model as each device is very unique and doesn't know any information about the other devices. Hence, how could/should I train?
    – Ben
    May 25 at 13:52
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    I assume each device have different optimal values depending of course on the parameters. Let's say device #1, get the data for this device and train a model say model #1 where the data is from device #1. The resulting model is only applicable for device #1. So for a given parameters intended for device #1, we will use model #1 to predict optimum value. This is one way of minimizing the noise from different devices. By identifying the noise we will be able to minimize the prediction error.
    – ferdy
    May 31 at 4:51

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