Ecosyste.ms: Awesome

An open API service indexing awesome lists of open source software.

https://github.com/sb-ai-lab/Eco2AI

eco2AI is a python library which accumulates statistics about power consumption and CO2 emission during running code.
https://github.com/sb-ai-lab/Eco2AI

ai carbon-emissions carbon-footprint co2-emissions co2-monitoring deep-learning emission-tracker energy-consumption environment esg ghg machine-learning power-consumption-measurement python sustainability

Last synced: about 2 months ago
JSON representation

eco2AI is a python library which accumulates statistics about power consumption and CO2 emission during running code.

Lists

README 

        



![PyPI Downloads](https://img.shields.io/pypi/dm/eco2ai?color=brightgreen&label=PyPI%20downloads&logo=pypi&logoColor=yellow)

[![PyPI all Downloads](https://img.shields.io/badge/All%20PyPI%20downloads-look%20in%20Colab-brightgreen)](https://colab.research.google.com/drive/1UoSHPRUHbg5B1U2x8p_ACo21X9N6n1im?authuser=1)



[![PyPI - Downloads](https://img.shields.io/badge/%20PyPI%20-link%20for%20download-brightgreen)](https://pypi.org/project/eco2ai/)

![PyPI - Downloads](https://img.shields.io/pypi/v/eco2ai?color=bright-green&label=PyPI&logo=pypi&logoColor=yellow)

[![DOI](https://img.shields.io/badge/DOI-eco2AI%20article-brightgreen)](https://link.springer.com/article/10.1134/S1064562422060230)

[![telegram support](https://img.shields.io/twitter/url?label=eco2ai%20support&logo=telegram&style=social&url=https%3A%2F%2Ft.me%2F%2BjsaoAgioprQ4Zjk6)](https://t.me/eco2ai)



# Eco2AI



+ [About Eco2AI :clipboard:](#1)

+ [Installation :wrench:](#2)

+ [Use examples :computer:](#3)

+ [Important note :blue_book:](#4)

+ [Citing](#5)

+ [Feedback :envelope:](#6) 



## About Eco2AI :clipboard:  






The Eco2AI is a python library for CO2 emission tracking. It monitors energy consumption of CPU & GPU devices and estimates equivalent carbon emissions taking into account the regional emission coefficient. 

The Eco2AI is applicable to all python scripts and all you need is to add the couple of strings to your code. All emissions data and information about your devices are recorded in a local file. 



Every single run of Tracker() accompanies by a session description added to the log file, including the following elements:

                              



+ project_name

+ experiment_description

+ start_time

+ duration(s)

+ power_consumption(kWTh)

+ CO2_emissions(kg)

+ CPU_name

+ GPU_name

+ OS

+ country



##  Installation  

To install the eco2AI library, run the following command:



```

pip install eco2ai

```



## Use examples  



Example usage eco2AI [![Open In Collab](https://colab.research.google.com/assets/colab-badge.svg)](https://colab.research.google.com/drive/1hn0DQiKHeyXwvOOR3UEXaGsD6DqVm6b7?authuser=1)

You can also find eco2AI tutorial on youtube [![utube](https://img.shields.io/youtube/views/-fegQpA2gPg?label=eco2AI&style=social)](https://www.youtube.com/watch?v=-fegQpA2gPg&ab_channel=AIRIInstitute)



The eco2AI interface is quite simple. Here is the simplest usage example:



```python



import eco2ai



tracker = eco2ai.Tracker(project_name="YourProjectName", experiment_description="training the  model")



tracker.start()



tracker.stop()

```



The eco2AI also supports decorators. As soon as the decorated function is executed, the information about the emissions will be written to the emission.csv file:



```python

from eco2ai import track



@track

def train_func(model, dataset, optimizer, epochs):

    ...



train_func(your_model, your_dataset, your_optimizer, your_epochs)

```



For your convenience, every time you instantiate the Tracker object with your custom parameters, these settings will be saved until the library is deleted. Each new tracker will be created with your custom settings (if you create a tracker with new parameters, they will be saved instead of the old ones). For example:



```python

import eco2ai



tracker = eco2ai.Tracker(

    project_name="YourProjectName", 

    experiment_description="training  model",

    file_name="emission.csv"

    )



tracker.start()



tracker.stop()



...



# now, we want to create a new tracker for new calculations

tracker = eco2ai.Tracker()

# now, it's equivalent to:

# tracker = eco2ai.Tracker(

#     project_name="YourProjectName", 

#     experiment_description="training the  model",

#     file_name="emission.csv"

# )

tracker.start()



tracker.stop()



```



You can also set parameters using the set_params() function, as in the example below:



```python

from eco2ai import set_params, Tracker



set_params(

    project_name="My_default_project_name",

    experiment_description="We trained...",

    file_name="my_emission_file.csv"

)



tracker = Tracker()

# now, it's equivelent to:

# tracker = Tracker(

#     project_name="My_default_project_name",

#     experiment_description="We trained...",

#     file_name="my_emission_file.csv"

# )

tracker.start()



tracker.stop()

```



## Important note  



If for some reasons it is not possible to define country, then emission coefficient is set to 436.529kg/MWh, which is global average.

[Global Electricity Review](https://ember-climate.org/insights/research/global-electricity-review-2022/#supporting-material-downloads)



For proper calculation of gpu and cpu power consumption, you should create a "Tracker" before any gpu or CPU usage.



Create a new β€œTracker” for every new calculation.



# Usage of Eco2AI



An example of using the library is given in the [publication](https://arxiv.org/abs/2208.00406). It the paper we presented experiments of tracking equivalent CO2 emissions using eco2AI while training [ruDALL-E](https://github.com/sberbank-ai/ru-dalle) models with with 1.3 billion ([Malevich](https://habr.com/ru/company/sberbank/blog/589673/), ruDALL-E XL 1.3B) and 12 billion parameters ([Kandinsky](https://github.com/sberbank-ai/ru-dalle), ruDALL-E XL 12B). These are [multimodal](https://arxiv.org/abs/2202.10435) pre-trained transformers that learn the conditional distribution of images with by some string of text capable of generating arbitrary images from a russian text prompt that describes the desired result.

Properly accounted carbon emissions and power consumption Malevich and Kandinsky fine-tuning Malevich and Kandinsky on the [Emojis dataset](https://arxiv.org/abs/2112.02448) is given in the table below.

   

   | **Model** | **Train time** | **Power, kWh** | **CO2, kg** | **GPU** | **CPU** | **Batch Size** |

   |:----------|:-------------:|:------:| :-----: |:-----:|:------:|:------:|

   | **Malevich**| 4h 19m | 1.37 | **0.33** | A100 Graphics, 1 | AMD EPYC 7742 64-Core | 4 |

   | **Kandinsky** | 9h 45m | 24.50 | **5.89** | A100 Graphics, 8 | AMD EPYC 7742 64-Core | 12 |



Also we presented results for training of Malevich with optimized variation of [GELU](https://arxiv.org/abs/1606.08415) activation function. Training of the Malevich with the [8-bit version of GELU](https://arxiv.org/abs/2110.02861) allows us to spent about 10\% less energy and, consequently, produce less equivalent CO2 emissions.



# Citing Eco2AI

[![DOI](https://img.shields.io/badge/DOI-eco2AI%20article-brightgreen)](https://link.springer.com/article/10.1134/S1064562422060230)



The Eco2AI is licensed under a [Apache licence 2.0](https://www.apache.org/licenses/LICENSE-2.0).



Please consider citing the following paper in any research manuscript using the Eco2AI library:



```

@inproceedings{budennyy2023eco2ai,

  title={Eco2ai: carbon emissions tracking of machine learning models as the first step towards sustainable ai},

  author={Budennyy, SA and Lazarev, VD and Zakharenko, NN and Korovin, AN and Plosskaya, OA and Dimitrov, DV and Akhripkin, VS and Pavlov, IV and Oseledets, IV and Barsola, IS and others},

  booktitle={Doklady Mathematics},

  pages={1--11},

  year={2023},

  organization={Springer}

}

```



## In collaboration with

[](https://airi.net/)