Reduce multiple TensorBoard runs to new event (or CSV) files
Project description
This project can ingest both PyTorch and TensorFlow event files but was mostly tested with PyTorch. For a TF-only project, see
tensorboard-aggregator
.
Compute statistics (mean
, std
, min
, max
, median
or any other numpy
operation) of multiple TensorBoard run directories. This can be used e.g. when training model ensembles to reduce noise in loss/accuracy/error curves and establish statistical significance of performance improvements or get a better idea of epistemic uncertainty. Results can be saved to disk either as new TensorBoard runs or CSV/JSON/Excel. More file formats are easy to add, PRs welcome.
Example notebooks
Basic Python API Demo | Demonstrates how to work with local TensorBoard event files. | |
Functorch MLP Ensemble | Shows how to aggregate run metrics with TensorBoard Reducer when training model ensembles using functorch . |
|
Weights & Biases Integration | Trains PyTorch CNN ensemble on MNIST, logs results to WandB, downloads metrics from multiple WandB runs, aggregates using tb-reducer , then re-uploads to WandB as new runs. |
The mean of 3 runs shown in pink here is less noisy and better suited for comparisons between models or different training techniques than individual runs.
Installation
pip install tensorboard-reducer
Excel support requires installing extra dependencies:
pip install 'tensorboard-reducer[excel]'
Usage
CLI
tb-reducer runs/of-your-model* -o output-dir -r mean,std,min,max
All positional CLI arguments are interpreted as input directories and expected to contain TensorBoard event files. These can be specified individually or with wildcards using shell expansion. You can check you're getting the right input directories by running echo runs/of-your-model*
before passing them to tb-reducer
.
Note: By default, TensorBoard Reducer expects event files to contain identical tags and equal number of steps for all scalars. If you trained one model for 300 epochs and another for 400 and/or recorded different sets of metrics (tags in TensorBoard lingo) for each of them, see CLI flags --lax-steps
and --lax-tags
to disable this safeguard. The corresponding kwargs in the Python API are strict_tags = True
and strict_steps = True
on load_tb_events()
.
In addition, tb-reducer
has the following flags:
-o/--outpath
(required): File path or directory where to write output to disk. If--outpath
is a directory, output will be saved as TensorBoard runs, one new directory created for each reduction suffixed by thenumpy
operation, e.g.'out/path-mean'
,'out/path-max'
, etc. If--outpath
is a file path, it must have'.csv'
/'.json'
or'.xlsx'
(supports compression by using e.g..csv.gz
,json.bz2
) in which case a single file will be created. CSVs will have a two-level header containing one column for each combination of tag (loss
,accuracy
, ...) and reduce operation (mean
,std
, ...). Tag names will be in top-level header, reduce ops in second level. Hint: When saving data as CSV or Excel, usepandas.read_csv("path/to/file.csv", header=[0, 1], index_col=0)
andpandas.read_excel("path/to/file.xlsx", header=[0, 1], index_col=0)
to load reduction results into a multi-index dataframe.-r/--reduce-ops
(optional, default:mean
): Comma-separated names of numpy reduction ops (mean
,std
,min
,max
, ...). Each reduction is written to a separateoutpath
suffixed by its op name. E.g. ifoutpath='reduced-run'
, the mean reduction will be written to'reduced-run-mean'
.-f/--overwrite
(optional, default:False
): Whether to overwrite existing output directories/data files (CSV, JSON, Excel). For safety, the overwrite operation will abort with an error if the file/directory to overwrite is not a known data file and does not look like a TensorBoard run directory (i.e. does not start with'events.out'
).--lax-tags
(optional, default:False
): Allow different runs have to different sets of tags. In this mode, each tag reduction will run over as many runs as are available for a given tag, even if that's just one. Proceed with caution as not all tags will have the same statistics in downstream analysis.--lax-steps
(optional, default:False
): Allow tags across different runs to have unequal numbers of steps. In this mode, each reduction will only use as many steps as are available in the shortest run (same behavior aszip(short_list, long_list)
which stops whenshort_list
is exhausted).--handle-dup-steps
(optional, default:None
): How to handle duplicate values recorded for the same tag and step in a single run. One of'keep-first'
,'keep-last'
,'mean'
.'keep-first/last'
will keep the first/last occurrence of duplicate steps while 'mean' computes their mean. Default behavior is to raiseValueError
on duplicate steps.--min-runs-per-step
(optional, default:None
): Minimum number of runs across which a given step must be recorded to be kept. Steps present across less runs are dropped. Only plays a role iflax_steps
is true. Warning: Be aware that with this setting, you'll be reducing variable number of runs, however many recorded a value for a given step as long as there are at least--min-runs-per-step
. In other words, the statistics of a reduction will change mid-run. Say you're plotting the mean of an error curve, the sample size of that mean will drop from, say, 10 down to 4 mid-plot if 4 of your models trained for longer than the rest. Be sure to remember when using this.-v/--version
(optional): Get the current version.
Python API
You can also import tensorboard_reducer
into a Python script or Jupyter notebook for more complex operations. Here's a simple example that uses all of the main functions load_tb_events
, reduce_events
, write_data_file
and write_tb_events
to get you started:
from glob import glob
import tensorboard_reducer as tbr
input_event_dirs = sorted(glob("glob_pattern/of_tb_directories_to_reduce*"))
# where to write reduced TB events, each reduce operation will be in a separate subdirectory
tb_events_output_dir = "path/to/output_dir"
csv_out_path = "path/to/write/reduced-data-as.csv"
# whether to abort or overwrite when csv_out_path already exists
overwrite = False
reduce_ops = ("mean", "min", "max", "median", "std", "var")
events_dict = tbr.load_tb_events(input_event_dirs)
# number of recorded tags. e.g. would be 3 if you recorded loss, MAE and R^2
n_scalars = len(events_dict)
n_steps, n_events = list(events_dict.values())[0].shape
print(
f"Loaded {n_events} TensorBoard runs with {n_scalars} scalars and {n_steps} steps each"
)
print(", ".join(events_dict))
reduced_events = tbr.reduce_events(events_dict, reduce_ops)
for op in reduce_ops:
print(f"Writing '{op}' reduction to '{tb_events_output_dir}-{op}'")
tbr.write_tb_events(reduced_events, tb_events_output_dir, overwrite)
print(f"Writing results to '{csv_out_path}'")
tbr.write_data_file(reduced_events, csv_out_path, overwrite)
print("Reduction complete")
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