Btune plugin for Blosc2. Automatically choose the best codec/filter for your data.
Project description
Blosc2 Btune
Btune is a dynamic plugin for Blosc2 that assists in finding the optimal combination of compression parameters. It works by training a neural network on your most representative datasets.
By default, this software uses a genetic algorithm to test different combinations of compression parameters that meet your requirements for both compression ratio and speed for every chunk in the dataset. It assigns a score to each combination and, after a number of iterations, the software stops and uses the best score (minimal value) found for the rest of the dataset. For more info and a graphical visualization, visit https://btune.blosc.org.
The process of finding optimal compression parameters in Blosc2 can be slow because of the large number of combinations of compression parameters (codec, compression level, filter, split mode, number of threads, etc.). This can require a significant amount of trial and error to find the best combinations. However, you can significantly accelerate this process by training a neural network on your own datasets.
To begin the training process, provide your datasets to the Blosc Development Team. We will then perform the training and provide neural network models tailored to your needs, along with general tuning advice for Blosc2. In exchange, we request financial contributions to the project.
If you are interested, please contact the Blosc Development Team at contact@blosc.org.
Install the Btune wheel
Btune uses a Python wheel for installation, but it can be used from any application that uses C-Blosc2, whether it is in C, Python, or any other language. Currently, only Linux and Mac installers are supported.
pip install blosc2-btune
Next, we will run an example for Python and then for C.
To do so, change your current directory to examples
from this repository.
cd examples
Using Btune from Python
To use Btune with Blosc2 in Python, set the BTUNE_TRADEOFF
environment variable to a floating-point number between 0 (to optimize speed) and 1 (to optimize compression ratio). Additionally, you can use BTUNE_PERF_MODE
to optimize compression, decompression, or to achieve a balance between the two by setting it to COMP
, DECOMP
, or BALANCED
, respectively.
BTUNE_TRADEOFF=0.5 BTUNE_PERF_MODE=COMP python create_ndarray.py
WARNING: Empty metadata, no inference performed
NDArray succesfully created!
This creates a NDArray on disk with some data. The warning message
Empty metadata, no inference performed
should be ignored as long as we are not using the trained models.
You can set BTUNE_TRACE=1
to see what Btune is doing.
BTUNE_TRACE=1 BTUNE_TRADEOFF=0.5 BTUNE_PERF_MODE=COMP python create_ndarray.py
-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
Btune version: 1.0.1.dev
Performance Mode: COMP, Compression tradeoff: 0.500000, Bandwidth: 20 GB/s
Behaviour: Waits - 0, Softs - 5, Hards - 11, Repeat Mode - STOP
TRACE: Environment variable BTUNE_MODELS_DIR is not defined
WARNING: Empty metadata, no inference performed
| Codec | Filter | Split | C.Level | Blocksize | Shufflesize | C.Threads | D.Threads | Score | C.Ratio | Btune State | Readapt | Winner
| lz4 | 0 | 1 | 8 | 0 | 8 | 4 | 4 | 9.74e-05 | 1.97x | CODEC_FILTER | HARD | W
| lz4 | 0 | 0 | 8 | 0 | 8 | 4 | 4 | 6.13e-05 | 2.07x | CODEC_FILTER | HARD | W
| lz4 | 1 | 1 | 8 | 0 | 8 | 4 | 4 | 2.72e-05 | 3.97x | CODEC_FILTER | HARD | W
| lz4 | 1 | 0 | 8 | 0 | 8 | 4 | 4 | 1.8e-05 | 3.91x | CODEC_FILTER | HARD | -
| lz4 | 2 | 1 | 8 | 0 | 8 | 4 | 4 | 3e-05 | 4.52x | CODEC_FILTER | HARD | W
| lz4 | 2 | 0 | 8 | 0 | 8 | 4 | 4 | 2.23e-05 | 4.46x | CODEC_FILTER | HARD | -
| blosclz | 0 | 1 | 8 | 0 | 8 | 4 | 4 | 8.03e-05 | 1.99x | CODEC_FILTER | HARD | -
| blosclz | 0 | 0 | 8 | 0 | 8 | 4 | 4 | 6.01e-05 | 2.09x | CODEC_FILTER | HARD | -
| blosclz | 1 | 1 | 8 | 0 | 8 | 4 | 4 | 3.12e-05 | 3.97x | CODEC_FILTER | HARD | -
| blosclz | 1 | 0 | 8 | 0 | 8 | 4 | 4 | 4.4e-05 | 3.82x | CODEC_FILTER | HARD | -
NDArray succesfully created!
You can see in the column Winner
if the combination is a winner (W
), it does not improve
the previous winner (-
) or it is a special value chunk meaning that it is really easy to
compress no matter the compression parameters (S
), so Btune cannot determine whether
this is a winner or not in this last case.
Btune Models
The Blosc Development Team offers Btune Models, a service in which we provide neural network models trained specifically for your data to determine the optimal combination of codecs and filters. To use these models, set BTUNE_MODELS_DIR
to the directory containing the models files after the Blosc Development Team has completed training. Btune will then automatically use the trained model; keep reading for how this works.
To determine the number of chunks for performing inference, use BTUNE_USE_INFERENCE
. If set to -1, it performs inference on all chunks. If set to a number greater than 0, it performs inference on this number of chunks and then tweaks parameters for the rest of the chunks. If set to 0, it does not perform inference at all. The default is -1.
BTUNE_TRADEOFF=0.5 BTUNE_PERF_MODE=COMP BTUNE_TRACE=1 BTUNE_MODELS_DIR=./models/ BTUNE_USE_INFERENCE=3 python create_ndarray.py
-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
Btune version: 1.0.1.dev
Performance Mode: COMP, Compression tradeoff: 0.500000, Bandwidth: 20 GB/s
Behaviour: Waits - 0, Softs - 5, Hards - 11, Repeat Mode - STOP
INFO: Model files found in the './models/' directory
TRACE: time load model: 0.000071
TRACE: Inference category=7 codec=1 filter=35 clevel=5 splitmode=2 time entropy=0.000218 inference=0.000012
| Codec | Filter | Split | C.Level | Blocksize | Shufflesize | C.Threads | D.Threads | Score | C.Ratio | Btune State | Readapt | Winner
| lz4 | 35 | 1 | 5 | 0 | 8 | 4 | 4 | 5.4e-05 | 3.97x | CODEC_FILTER | HARD | W
TRACE: Inference category=7 codec=1 filter=35 clevel=5 splitmode=2 time entropy=0.000120 inference=0.000003
| lz4 | 35 | 1 | 5 | 0 | 8 | 4 | 4 | 2.01e-05 | 3.97x | CODEC_FILTER | HARD | -
TRACE: Inference category=7 codec=1 filter=35 clevel=5 splitmode=2 time entropy=0.000104 inference=0.000002
| lz4 | 35 | 1 | 5 | 0 | 8 | 4 | 4 | 1.92e-05 | 3.97x | CODEC_FILTER | HARD | -
| lz4 | 35 | 1 | 5 | 0 | 8 | 4 | 4 | 2.1e-05 | 3.97x | CODEC_FILTER | HARD | -
| lz4 | 35 | 0 | 5 | 0 | 8 | 4 | 4 | 1.96e-05 | 3.91x | CODEC_FILTER | HARD | -
| lz4 | 35 | 1 | 5 | 0 | 8 | 4 | 4 | 1.95e-05 | 3.97x | THREADS_COMP | HARD | W
| lz4 | 35 | 1 | 5 | 0 | 8 | 4 | 4 | 1.96e-05 | 3.97x | CLEVEL | HARD | -
| lz4 | 35 | 1 | 6 | 0 | 8 | 4 | 4 | 2.25e-05 | 3.97x | CLEVEL | SOFT | -
| lz4 | 35 | 1 | 5 | 0 | 8 | 4 | 4 | 1.99e-05 | 3.97x | CLEVEL | SOFT | -
| lz4 | 35 | 1 | 4 | 0 | 8 | 4 | 4 | 1.91e-05 | 3.97x | CLEVEL | SOFT | -
NDArray succesfully created!
Using Btune Models usually leads to significantly better performance scores, as demonstrated by the table above. Moreover, the process of finding the best combination is much faster with trained models. See https://btune.blosc.org for more info.
Using Btune from C
You can also use Btune from C. Similar to the Python examples above, you can activate it by setting the BTUNE_TRADEOFF
environment variable. Alternatively, you can set the tuner_id
in the compression parameters, also known as cparams
, to the value of BLOSC_BTUNE
. This will use the default Btune configuration. However, running Btune from C offers the advantage of being able to tune way more parameters, depending on your preferences:
// compression params
blosc2_cparams cparams = BLOSC2_CPARAMS_DEFAULTS;
cparams.nthreads = 16; // Btune may lower this
cparams.tuner_id = BLOSC_BTUNE;
// Btune config parameters
btune_config btune_config = BTUNE_CONFIG_DEFAULTS;
btune_config.perf_mode = BTUNE_PERF_COMP; // You can choose BTUNE_PERF_COMP, BTUNE_PERF_DECOMP or BTUNE_PERF_BALANCED
btune_config.tradeoff = .5; // Equivalent to BTUNE_TRADEOFF
btune_config.use_inference = 2; // Equivalent to BTUNE_USE_INFERENCE
btune_config.models_dir = "../models/"; // Equivalent to BTUNE_MODELS_DIR
btune_config.behaviour.nwaits_before_readapt = 1; // Number of waits before a readapt
btune_config.behaviour.nsofts_before_hard = 3; // Number of soft readapts before a hard readapt
btune_config.behaviour.nhards_before_stop = 10; // Number of hard readapts before stoping
btune_config.behaviour.repeat_mode = BTUNE_REPEAT_ALL; // Repeat all the initial readaptions (BTUNE_REPEAT_ALL),
// only soft readaptions (BTUNE_REPEAT_SOFT)
// or stop improving (BTUNE_STOP)
// Set the personalized Btune configuration
cparams.tuner_params = &btune_config;
// Create super chunk
blosc2_dparams dparams = BLOSC2_DPARAMS_DEFAULTS;
dparams.nthreads = 1;
blosc2_storage storage = {
.cparams=&cparams,
.dparams=&dparams,
.contiguous=true,
.urlpath=(char*)out_fname
};
blosc2_schunk* schunk_out = blosc2_schunk_new(&storage);
See the full example in examples/btune_example.c
. You can compile and run this example as follows:
Linux
gcc -o btune_example btune_example.c -lblosc2 -lm -I $CONDA_PREFIX/include/ -L $CONDA_PREFIX/lib64/
BTUNE_TRACE=1 LD_LIBRARY_PATH=$CONDA_PREFIX/lib64 ./btune_example rand_int.b2nd out.b2nd
MacOS
gcc -o btune_example btune_example.c -lblosc2 -lm -I $CONDA_PREFIX/include/ -L $CONDA_PREFIX/lib/
BTUNE_TRACE=1 DYLD_LIBRARY_PATH=$CONDA_PREFIX/lib ./btune_example rand_int.b2nd out.b2nd
Platform support
Right now, we support Btune on Intel/ARM64 Linux, Intel/ARM64 Mac and Intel Windows platforms, and we are providing wheels for all of these.
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