Spaces:
Running
Running
| import streamlit as st | |
| import pandas as pd | |
| import os, csv | |
| from huggingface_hub import hf_hub_download, HfApi | |
| HF_TOKEN = os.getenv('HUGGING_FACE_HUB_TOKEN') | |
| CACHED_FILE_PATH = hf_hub_download(repo_id="sasha/co2_submissions", filename="dynamic_emissions.csv", repo_type="dataset") | |
| api = HfApi() | |
| def write_to_csv(hardware, training_time, provider, carbon_intensity, dynamic_emissions): | |
| with open(CACHED_FILE_PATH,'a', newline='') as f: | |
| writer = csv.writer(f) | |
| writer.writerow([hardware, training_time, provider, carbon_intensity, dynamic_emissions]) | |
| api.upload_file( | |
| path_or_fileobj="dynamic_emissions.csv", | |
| path_in_repo="dynamic_emissions.csv", | |
| repo_id="sasha/co2_submissions", | |
| repo_type="dataset", | |
| ) | |
| st.set_page_config( | |
| page_title="AI Carbon Calculator", | |
| layout="wide", | |
| ) | |
| tdp_url = "https://raw.githubusercontent.com/mlco2/impact/master/data/gpus.csv" | |
| compute_url = "https://raw.githubusercontent.com/mlco2/impact/master/data/impact.csv" | |
| electricity_url = "https://raw.githubusercontent.com/mlco2/impact/master/data/2021-10-27yearly_averages.csv" | |
| server_sheet_id = "1DqYgQnEDLQVQm5acMAhLgHLD8xXCG9BIrk-_Nv6jF3k" | |
| server_sheet_name = "Server%20Carbon%20Footprint" | |
| server_url = f"https://docs.google.com/spreadsheets/d/{server_sheet_id}/gviz/tq?tqx=out:csv&sheet={server_sheet_name}" | |
| embodied_gpu_sheet_id = "1DqYgQnEDLQVQm5acMAhLgHLD8xXCG9BIrk-_Nv6jF3k" | |
| embodied_gpu_sheet_name = "Scope%203%20Ratios" | |
| embodied_gpu_url = f"https://docs.google.com/spreadsheets/d/{embodied_gpu_sheet_id}/gviz/tq?tqx=out:csv&sheet={embodied_gpu_sheet_name}" | |
| TDP =pd.read_csv(tdp_url) | |
| instances = pd.read_csv(compute_url) | |
| providers = [p.upper() for p in instances['provider'].unique().tolist()] | |
| providers.append('Local/Private Infastructure') | |
| kg_per_mile = 0.348 | |
| electricity = pd.read_csv(electricity_url) | |
| servers = pd.read_csv(server_url) | |
| embodied_gpu = pd.read_csv(embodied_gpu_url) | |
| st.title("AI Carbon Calculator") | |
| st.markdown('## Estimate your model\'s CO2 carbon footprint!') | |
| st.markdown('Building on the work of the [ML CO2 Calculator](https://mlco2.github.io/impact/), this tool allows you to consider' | |
| ' other aspects of your model\'s carbon footprint based on the LCA methodology.') | |
| st.markdown('We will consider 3 aspects of your model: the dynamic emissions, idle emissions embodied emissions.') | |
| st.markdown('### Dynamic Emissions') | |
| with st.expander("Calculate the emissions produced by energy consumption of model training"): | |
| with st.form(key='dynamic_emissions', clear_on_submit=True): | |
| col1, col2, col3, col4 = st.columns(4) | |
| with col1: | |
| hardware = st.selectbox('GPU used', TDP['name'].tolist()) | |
| gpu_tdp = TDP['tdp_watts'][TDP['name'] == hardware].tolist()[0] | |
| st.markdown("Different GPUs have different TDP (Thermal Design Power), which impacts how much energy you use.") | |
| with col2: | |
| training_time = st.number_input('Total number of GPU hours') | |
| st.markdown('This is calculated by multiplying the number of GPUs you used by the training time: ' | |
| 'i.e. if you used 100 GPUs for 10 hours, this is equal to 100x10 = 1,000 GPU hours.') | |
| with col3: | |
| provider = st.selectbox('Provider used', providers) | |
| st.markdown('If you can\'t find your provider here, select "Local/Private Infrastructure".') | |
| with col4: | |
| if provider != 'Local/Private Infastructure': | |
| provider_instances = instances['region'][instances['provider'] == provider.lower()].unique().tolist() | |
| region = st.selectbox('Provider used', provider_instances) | |
| carbon_intensity = instances['impact'][(instances['provider'] == provider.lower()) & (instances['region'] == region)].tolist()[0] | |
| else: | |
| carbon_intensity = st.number_input('Carbon intensity of your energy grid, in grams of CO2 per kWh') | |
| st.markdown('You can consult a resource like the [IEA](https://www.iea.org/countries) or ' | |
| ' [Electricity Map](https://app.electricitymaps.com/) to get this information.') | |
| dynamic_emissions = round(gpu_tdp * training_time * carbon_intensity/1000000) | |
| st.metric(label="Dynamic emissions", value=str(dynamic_emissions)+' kilograms of CO2eq') | |
| st.markdown('This is roughly equivalent to '+ str(round(dynamic_emissions/kg_per_mile,1)) + ' miles driven in an average US car' | |
| ' produced in 2021. [(Source: energy.gov)](https://www.energy.gov/eere/vehicles/articles/fotw-1223-january-31-2022-average-carbon-dioxide-emissions-2021-model-year)') | |
| st.form_submit_button(label="Share my data", help="Submit the data from your model anonymously for research purposes!",\ | |
| on_click = lambda *args: write_to_csv(hardware, training_time, provider, carbon_intensity, dynamic_emissions)) | |
| st.markdown('### Idle Emissions') | |
| st.markdown('Do you know what the PUE (Power Usage Effectiveness) of your infrastructure is?') | |
| st.markdown('### Embodied Emissions') | |
| st.markdown('Choose your hardware, runtime and cloud provider/physical infrastructure to estimate the carbon impact of your research.') | |
| st.markdown('#### More information about our Methodology') | |
| st.image('images/LCA_CO2.png', caption='The LCA methodology - the parts in green are those we focus on.') | |
| modelname = st.selectbox('Choose a model to test', TDP) | |