A minimalistic and easy-to-use Python module that efficiently searches for a global minimum of an expensive black-box function (e.g. optimal hyperparameters of simulation, neural network or anything that takes significant time to run). User needs to provide a function, a search domain (ranges of each input parameter) and a total number of function calls available. A code scales well on multicore CPUs and clusters: all function calls are divided into batches and each batch is evaluated in parallel.
A mathematical method behind the code is described in this arXiv note (there were few updates to the method recently): https://arxiv.org/pdf/1605.00998.pdf
Don't forget to cite this note if you are using method/code.
(a) - demo function (unknown to a method).
(b) - running a procedure using 15 evaluations.
(c) - running a procedure using 30 evaluations.
pip3 install black-box
Simply needs to be wrapped into a Python function.
def fun(par):
...
return output
par
is a vector of input parameters (a Python list), output
is a scalar value to be minimized.
import black_box as bb
def fun(par):
return par[0]**2 + par[1]**2 # dummy example
best_params = bb.search_min(f = fun, # given function
domain = [ # ranges of each parameter
[-10., 10.],
[-10., 10.]
],
budget = 40, # total number of function calls available
batch = 4, # number of calls that will be evaluated in parallel
resfile = 'output.csv') # text file where results will be saved
Important:
- All function calls are divided into batches and each batch is evaluated in parallel. Total number of batches is
budget/batch
. The value ofbatch
should correspond to the number of available computational units. - An optional parameter
executor = ...
should be specified withinbb.search_min()
in case when custom parallel engine is used (ipyparallel, dask.distributed, pathos etc).executor
should be an object that has amap
method.
In addition to search_min()
returning list of optimal parameters, all trials are sorted by function value (best ones at the top) and saved in a text file with the following structure:
Parameter #1 | Parameter #2 | ... | Parameter #n | Function value |
---|---|---|---|---|
+1.6355e+01 | -4.7364e+03 | ... | +6.4012e+00 | +1.1937e-04 |
... | ... | ... | ... | ... |
Paul Knysh (paul.knysh@gmail.com)
Feel free to email me if you have any questions or comments.