Intelligent data search & enrichment for Machine Learning
Project description
Upgini • Intelligent data search & enrichment for Machine Learning and AI
Easily find and add relevant features to your ML & AI pipeline from
hundreds of public, community and premium external data sources,
including open & commercial LLMs
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❔ Overview
Upgini is an intelligent data search engine with a Python library that helps you find and add relevant features to your ML pipeline from hundreds of public, community, and premium external data sources. Under the hood, Upgini automatically optimizes all connected data sources by generating an optimal set of machine ML features using large language models (LLMs), GraphNNs and recurrent neural networks (RNNs).
Motivation: for most supervised ML models external data & features boost accuracy significantly better than any hyperparameters tuning. But lack of automated and time-efficient enrichment tools for external data blocks massive adoption of external features in ML pipelines. We want radically simplify features search and enrichment to make external data a standard approach. Like a hyperparameter tuning for machine learning nowadays.
Mission: Democratize access to data sources for data science community.
🚀 Awesome features
⭐️ Automatically find only relevant features that give accuracy improvement for ML model. Not just correlated with target variable, what 9 out of 10 cases gives zero accuracy improvement
⭐️ Automated feature generation from the sources: feature generation with Large Language Models' data augmentation, RNNs, GraphNN; multiple data source ensembling
⭐️ Automatic search key augmentation from all connected sources. If you do not have all search keys in your search request, such as postal/zip code, Upgini will try to add those keys based on the provided set of search keys. This will broaden the search across all available data sources
⭐️ Calculate accuracy metrics and uplifts after enrichment existing ML model with external features
⭐️ Check the stability of accuracy gain from external data on out-of-time intervals and verification datasets. Mitigate risks of unstable external data dependencies in ML pipeline
⭐️ Easy to use - single request to enrich training dataset with all of the keys at once:
date / datetime | phone number |
postal / ZIP code | hashed email / HEM |
country | IP-address |
⭐️ Scikit-learn compatible interface for quick data integration with existing ML pipelines
⭐️ Support for most common supervised ML tasks on tabular data:
☑️ binary classification | ☑️ multiclass classification |
☑️ regression | ☑️ time series prediction |
⭐️ Simple Drag & Drop Search UI:
🌎 Connected data sources and coverage
- Public data : public sector, academic institutions, other sources through open data portals. Curated and updated by the Upgini team
- Community shared data: royalty / license free datasets or features from Data science community (our users). It's both a public and a scraped data
- Premium data providers: commercial data sources verified by the Upgini team in real-world use cases
👉 Details on datasets and features
📊 Total: 239 countries and up to 41 years of history
Data sources | Countries | History, years | # sources for ensemble | Update | Search keys | API Key required |
---|---|---|---|---|---|---|
Historical weather & Climate normals | 68 | 22 | - | Monthly | date, country, postal/ZIP code | No |
Location/Places/POI/Area/Proximity information from OpenStreetMap | 221 | 2 | - | Monthly | date, country, postal/ZIP code | No |
International holidays & events, Workweek calendar | 232 | 22 | - | Monthly | date, country | No |
Consumer Confidence index | 44 | 22 | - | Monthly | date, country | No |
World economic indicators | 191 | 41 | - | Monthly | date, country | No |
Markets data | - | 17 | - | Monthly | date, datetime | No |
World mobile & fixed broadband network coverage and performance | 167 | - | 3 | Monthly | country, postal/ZIP code | No |
World demographic data | 90 | - | 2 | Annual | country, postal/ZIP code | No |
World house prices | 44 | - | 3 | Annual | country, postal/ZIP code | No |
Public social media profile data | 104 | - | - | Monthly | date, email/HEM, phone | Yes |
Car ownership data and Parking statistics | 3 | - | - | Annual | country, postal/ZIP code, email/HEM, phone | Yes |
Geolocation profile for phone & IPv4 & email | 239 | - | 6 | Monthly | date, email/HEM, phone, IPv4 | Yes |
🔜 Email/WWW domain profile | - | - | - | - |
❓Know other useful data sources for machine learning? Give us a hint and we'll add it for free.
💼 Tutorials
Search of relevant external features & Automated feature generation for Salary prediction task (use as a template)
- The goal is to predict salary for data science job postning based on information about employer and job description.
- Following this guide, you'll learn how to search & auto generate new relevant features with Upgini library
- The evaluation metric is Mean Absolute Error (MAE).
Run Feature search & generation notebook inside your browser:
❓ Simple sales prediction for retail stores
- The goal is to predict future sales of different goods in stores based on a 5-year history of sales.
- Kaggle Competition Store Item Demand Forecasting Challenge is a product sales forecasting. The evaluation metric is SMAPE.
❓ How to boost ML model accuracy for Kaggle TOP1 Leaderboard in 10 minutes
- The goal is accuracy improvement for TOP1 winning Kaggle solution from new relevant external features & data.
- Kaggle Competition is a product sales forecasting, evaluation metric is SMAPE.
❓ How to do low-code feature engineering for AutoML tools
- Save time on feature search and engineering. Use ready-to-use external features and data sources to maximize overall AutoML accuracy, right out of the box.
- Kaggle Competition is a product sales forecasting, evaluation metric is SMAPE.
- Low-code AutoML tools: Upgini and PyCaret
❓ How to improve accuracy of Multivariate Time Series forecast from external features & data
- The goal is accuracy improvement of Multivariate Time Series prediction from new relevant external features & data. The main challenge here is a strategy of data & feature enrichment, when a component of Multivariate TS depends not only on its past values but also has some dependency on other components.
- Kaggle Competition is a product sales forecasting, evaluation metric is RMSLE.
❓ How to speed up feature engineering hypothesis tests with ready-to-use external features
- Save time on external data wrangling and feature calculation code for hypothesis tests. The key challenge here is a time-dependent representation of information in a training dataset, which is uncommon for credit default prediction tasks. As a result, special data enrichment strategy is used.
- Kaggle Competition is a credit default prediction, evaluation metric is normalized Gini coefficient.
🏁 Quick start
1. Install from PyPI
%pip install upgini
🐳 Docker-way
Clone $ git clone https://github.com/upgini/upgini or download upgini git repo locally
and follow steps below to build docker container 👇
1. Build docker image from cloned git repo:
cd upgini
docker build -t upgini .
...or directly from GitHub:
DOCKER_BUILDKIT=0 docker build -t upgini
git@github.com:upgini/upgini.git#main
2. Run docker image:
docker run -p 8888:8888 upgini
3. Open http://localhost:8888?token="<"your_token_from_console_output">" in your browser
2. 💡 Use your labeled training dataset for search
You can use your labeled training datasets "as is" to initiate the search. Under the hood, we'll search for relevant data using:
- search keys from training dataset to match records from potential data sources with a new features
- labels from training dataset to estimate relevancy of feature or dataset for your ML task and calculate feature importance metrics
- your features from training dataset to find external datasets and features which only give accuracy improvement to your existing data and estimate accuracy uplift (optional)
Load training dataset into pandas dataframe and separate features' columns from label column in a Scikit-learn way:
import pandas as pd
# labeled training dataset - customer_churn_prediction_train.csv
train_df = pd.read_csv("customer_churn_prediction_train.csv")
X = train_df.drop(columns="churn_flag")
y = train_df["churn_flag"]
⚠️ Requirements for search initialization dataset
We do dataset verification and cleaning under the hood, but still there are some requirements to follow: 1. pandas.DataFrame, pandas.Series or numpy.ndarray representation; 2. correct label column types: boolean/integers/strings for binary and multiclass labels, floats for regression; 3. at least one column selected as a search key; 4. min size after deduplication by search key column and NaNs removal: 100 records |
3. 🔦 Choose one or multiple columns as a search keys
Search keys columns will be used to match records from all potential external data sources / features.
Define one or multiple columns as a search keys with FeaturesEnricher
class initialization.
from upgini.features_enricher import FeaturesEnricher
from upgini.metadata import SearchKey
enricher = FeaturesEnricher(
search_keys={
"subscription_activation_date": SearchKey.DATE,
"country": SearchKey.COUNTRY,
"zip_code": SearchKey.POSTAL_CODE,
"hashed_email": SearchKey.HEM,
"last_visit_ip_address": SearchKey.IP,
"registered_with_phone": SearchKey.PHONE
})
✨ Search key types we support (more to come!)
Search Key Meaning Type |
Description | Allowed pandas dtypes (python types) | Example |
---|---|---|---|
SearchKey.EMAIL | object(str) string |
support@upgini.com | |
SearchKey.HEM | sha256(lowercase(email)) | object(str) string |
0e2dfefcddc929933dcec9a5c7db7b172482814e63c80b8460b36a791384e955 |
SearchKey.IP | IP address (version 4) | object(str, ipaddress.IPv4Address) string int64 |
192.168.0.1 |
SearchKey.PHONE | phone number, E.164 standard | object(str) string int64 float64 |
443451925138 |
SearchKey.DATE | date |
object(str) string datetime64[ns] period[D] |
2020-02-12 (ISO-8601 standard)
12.02.2020 (non standard notation) |
SearchKey.DATETIME | datetime |
object(str) string datetime64[ns] period[D] |
2020-02-12 12:46:18 12:46:18 12.02.2020 |
SearchKey.COUNTRY | Country ISO-3166 code, Country name | object(str) string |
GB US IN |
SearchKey.POSTAL_CODE | Postal code a.k.a. ZIP code. Could be used only with SearchKey.COUNTRY | object(str) string |
21174 061107 SE-999-99 |
For the meaning types SearchKey.DATE/SearchKey.DATETIME with dtypes object or string you have to clarify date/datetime format by passing date_format parameter to FeaturesEnricher
. For example:
from upgini.features_enricher import FeaturesEnricher
from upgini.metadata import SearchKey
enricher = FeaturesEnricher(
search_keys={
"subscription_activation_date": SearchKey.DATE,
"country": SearchKey.COUNTRY,
"zip_code": SearchKey.POSTAL_CODE,
"hashed_email": SearchKey.HEM,
"last_visit_ip_address": SearchKey.IP,
"registered_with_phone": SearchKey.PHONE
},
date_format = "%Y-%d-%m"
)
To use datetime not in UTC timezone, you can cast datetime column explicitly to your timezone (example for Warsaw):
df["date"] = df.date.astype("datetime64").dt.tz_localize("Europe/Warsaw")
Single country for the whole training dataset can be passed with country_code
parameter:
from upgini.features_enricher import FeaturesEnricher
from upgini.metadata import SearchKey
enricher = FeaturesEnricher(
search_keys={
"subscription_activation_date": SearchKey.DATE,
"zip_code": SearchKey.POSTAL_CODE,
},
country_code = "US",
date_format = "%Y-%d-%m"
)
4. 🔍 Start your first feature search!
The main abstraction you interact is FeaturesEnricher
, a Scikit-learn compatible estimator. You can easily add it into your existing ML pipelines.
Create instance of the FeaturesEnricher
class and call:
fit
to search relevant datasets & features- than
transform
to enrich your dataset with features from search result
Let's try it out!
import pandas as pd
from upgini.features_enricher import FeaturesEnricher
from upgini.metadata import SearchKey
# load labeled training dataset to initiate search
train_df = pd.read_csv("customer_churn_prediction_train.csv")
X = train_df.drop(columns="churn_flag")
y = train_df["churn_flag"]
# now we're going to create `FeaturesEnricher` class
enricher = FeaturesEnricher(
search_keys={
"subscription_activation_date": SearchKey.DATE,
"country": SearchKey.COUNTRY,
"zip_code": SearchKey.POSTAL_CODE
})
# everything is ready to fit! For 200к records fitting should take around 10 minutes,
# we send email notification, just register on profile.upgini.com
enricher.fit(X, y)
That's all). We've fitted FeaturesEnricher
.
5. 📈 Evaluate feature importances (SHAP values) from the search result
FeaturesEnricher
class has two properties for feature importances, which will be filled after fit - feature_names_
and feature_importances_
:
feature_names_
- feature names from the search result, and if parameterkeep_input=True
was used, initial columns from search dataset as wellfeature_importances_
- SHAP values for features from the search result, same order as infeature_names_
Method get_features_info()
returns pandas dataframe with features and full statistics after fit, including SHAP values and match rates:
enricher.get_features_info()
Get more details about FeaturesEnricher
at runtime using docstrings via help(FeaturesEnricher)
or help(FeaturesEnricher.fit)
.
6. 🏭 Enrich Production ML pipeline with relevant external features
FeaturesEnricher
is a Scikit-learn compatible estimator, so any pandas dataframe can be enriched with external features from a search result (after fit
).
Use transform
method of FeaturesEnricher
, and let magic to do the rest 🪄
# load dataset for enrichment
test_x = pd.read_csv("test.csv")
# enrich it!
enriched_test_features = enricher.transform(test_x)
6.1 Reuse completed search for enrichment without 'fit' run
FeaturesEnricher
can be initiated with a search_id
parameter from completed search after fit method call.
Just use enricher.get_search_id()
or copy search id string from the fit()
output.
Search keys and features in X should be the same as for fit()
enricher = FeaturesEnricher(
#same set of a search keys as for the fit step
search_keys={"date": SearchKey.DATE},
api_key="<YOUR API_KEY>", # if you fit enricher with api_key then you should use it here
search_id = "abcdef00-0000-0000-0000-999999999999"
)
enriched_prod_dataframe=enricher.transform(input_dataframe)
6.2 Enrichment with an updated external data sources and features
For most of the ML cases, training step requires labeled dataset with a historical observations from the past. But for production step you'll need an updated and actual data sources and features for the present time, to calculate a prediction.
FeaturesEnricher
, when initiated with set of search keys which includes SearchKey.DATE
, will match records from all potential external data sources exactly on a the specific date/datetime based on SearchKey.DATE
. To avoid enrichment with features "form the future" for the fit
step.
And then, for transform
in a production ML pipeline, you'll get enrichment with relevant features, actual for the present date.
⚠️ Initiate FeaturesEnricher
with SearchKey.DATE
search key in a key set to get actual features for production and avoid features from the future for the training:
enricher = FeaturesEnricher(
search_keys={
"subscription_activation_date": SearchKey.DATE,
"country": SearchKey.COUNTRY,
"zip_code": SearchKey.POSTAL_CODE,
},
)
💻 How it works?
🧹 Search dataset validation
We validate and clean search initialization dataset under the hood:
- сheck you search keys columns format;
- check zero variance for label column;
- check dataset for full row duplicates. If we find any, we remove duplicated rows and make a note on share of row duplicates;
- check inconsistent labels - rows with the same features and keys but different labels, we remove them and make a note on share of row duplicates;
- remove columns with zero variance - we treat any non search key column in search dataset as a feature, so columns with zero variance will be removed
❔ Supervised ML tasks detection
We detect ML task under the hood based on label column values. Currently we support:
- ModelTaskType.BINARY
- ModelTaskType.MULTICLASS
- ModelTaskType.REGRESSION
But for certain search datasets you can pass parameter to FeaturesEnricher
with correct ML taks type:
from upgini.features_enricher import FeaturesEnricher
from upgini.metadata import SearchKey, ModelTaskType
enricher = FeaturesEnricher(
search_keys={"subscription_activation_date": SearchKey.DATE},
model_task_type=ModelTaskType.REGRESSION
)
⏰ Time Series prediction support
Time series prediction supported as ModelTaskType.REGRESSION
or ModelTaskType.BINARY
tasks with time series specific cross-validation split:
- Scikit-learn time series cross-validation -
CVType.time_series
parameter - Blocked time series cross-validation -
CVType.blocked_time_series
parameter
To initiate feature search you can pass cross-validation type parameter to FeaturesEnricher
with time series specific CV type:
from upgini.features_enricher import FeaturesEnricher
from upgini.metadata import SearchKey, CVType
enricher = FeaturesEnricher(
search_keys={"sales_date": SearchKey.DATE},
cv=CVType.time_series
)
⚠️ Pre-process search dataset in case of time series prediction:
sort rows in dataset according to observation order, in most cases - ascending order by date/datetime.
🆙 Accuracy and uplift metrics calculations
FeaturesEnricher
automaticaly calculates model metrics and uplift from new relevant features either using calculate_metrics()
method or calculate_metrics=True
parameter in fit
or fit_transform
methods (example below).
You can use any model estimator with scikit-learn compartible interface, some examples are:
👈 Evaluation metric should be passed to calculate_metrics() by scoring parameter,
out-of-the box Upgini supports
Metric | Description |
---|---|
explained_variance | Explained variance regression score function |
r2 | R2 (coefficient of determination) regression score function |
max_error | Calculates the maximum residual error (negative - greater is better) |
median_absolute_error | Median absolute error regression loss |
mean_absolute_error | Mean absolute error regression loss |
mean_absolute_percentage_error | Mean absolute percentage error regression loss |
mean_squared_error | Mean squared error regression loss |
mean_squared_log_error (or aliases: msle, MSLE) | Mean squared logarithmic error regression loss |
root_mean_squared_log_error (or aliases: rmsle, RMSLE) | Root mean squared logarithmic error regression loss |
root_mean_squared_error | Root mean squared error regression loss |
mean_poisson_deviance | Mean Poisson deviance regression loss |
mean_gamma_deviance | Mean Gamma deviance regression loss |
accuracy | Accuracy classification score |
top_k_accuracy | Top-k Accuracy classification score |
roc_auc | Area Under the Receiver Operating Characteristic Curve (ROC AUC) from prediction scores |
roc_auc_ovr | Area Under the Receiver Operating Characteristic Curve (ROC AUC) from prediction scores (multi_class="ovr") |
roc_auc_ovo | Area Under the Receiver Operating Characteristic Curve (ROC AUC) from prediction scores (multi_class="ovo") |
roc_auc_ovr_weighted | Area Under the Receiver Operating Characteristic Curve (ROC AUC) from prediction scores (multi_class="ovr", average="weighted") |
roc_auc_ovo_weighted | Area Under the Receiver Operating Characteristic Curve (ROC AUC) from prediction scores (multi_class="ovo", average="weighted") |
balanced_accuracy | Compute the balanced accuracy |
average_precision | Compute average precision (AP) from prediction scores |
log_loss | Log loss, aka logistic loss or cross-entropy loss |
brier_score | Compute the Brier score loss |
In addition to that list, you can define custom evaluation metric function using scikit-learn make_scorer, for example SMAPE.
By default, calculate_metrics()
method calculates evaluation metric with the same cross-validation split as selected for FeaturesEnricher.fit()
by parameter cv = CVType.<cross-validation-split>
.
But you can easily define new split by passing child of BaseCrossValidator to parameter cv
in calculate_metrics()
.
Example with more tips-and-tricks:
from upgini.features_enricher import FeaturesEnricher
from upgini.metadata import SearchKey
enricher = FeaturesEnricher(search_keys={"registration_date": SearchKey.DATE})
# Fit with default setup for metrics calculation
# CatBoost will be used
enricher.fit(X, y, eval_set=eval_set, calculate_metrics=True)
# LightGBM estimator for metrics
custom_estimator = LGBMRegressor()
enricher.calculate_metrics(estimator=custom_estimator)
# Custom metric function to scoring param (callable or name)
custom_scoring = "RMSLE"
enricher.calculate_metrics(scoring=custom_scoring)
# Custom cross validator
custom_cv = TimeSeriesSplit(n_splits=5)
enricher.calculate_metrics(cv=custom_cv)
# All this custom parameters could be combined in both methods: fit, fit_transform and calculate_metrics:
enricher.fit(X, y, eval_set, calculate_metrics=True, estimator=custom_estimator, scoring=custom_scoring, cv=custom_cv)
✅ More tips-and-tricks
🤖 Automated feature generation from columns in a search dataset
If a training dataset has a text column, you can generate additional embeddings from it using instructed embeddings generation with LLMs and data augmentation from external sources, just like Upgini does for all records from connected data sources.
For most cases, this gives better results than direct embeddings generation from a text field. Currently, Upgini has two LLMs connected to a search engine - GPT-3.5 from OpenAI and GPT-J.
To use this feature, pass the column names as arguments to the generate_features
parameter. You can use up to 2 columns.
Here's an example for generating features from the "description" and "summary" columns:
enricher = FeaturesEnricher(
search_keys={"date": SearchKey.DATE},
generate_features=["description", "summary"]
)
With this code, Upgini will generate LLM embeddings from text columns and then check them for predictive power for your ML task.
Finally, Upgini will return a dataset enriched by only relevant components of LLM embeddings.
Find features only give accuracy gain to existing data in the ML model
If you already have features or other external data sources, you can specifically search new datasets & features only give accuracy gain "on top" of them.
Just leave all these existing features in the labeled training dataset and Upgini library automatically use them during feature search process and as a baseline ML model to calculate accuracy metric uplift. Only features which improve accuracy will return.
Check robustness of accuracy improvement from external features
You can validate external features robustness on out-of-time dataset using eval_set
parameter:
# load train dataset
train_df = pd.read_csv("train.csv")
train_ids_and_features = train_df.drop(columns="label")
train_label = train_df["label"]
# load out-of-time validation dataset
eval_df = pd.read_csv("validation.csv")
eval_ids_and_features = eval_df.drop(columns="label")
eval_label = eval_df["label"]
# create FeaturesEnricher
enricher = FeaturesEnricher(search_keys={"registration_date": SearchKey.DATE})
# now we fit WITH eval_set parameter to calculate accuracy metrics on Out-of-time dataset.
# the output will contain quality metrics for both the training data set and
# the eval set (validation OOT data set)
enricher.fit(
train_ids_and_features,
train_label,
eval_set = [(eval_ids_and_features, eval_label)]
)
⚠️ Requirements for out-of-time dataset
- Same data schema as for search initialization dataset
- Pandas dataframe representation
Use custom loss function in feature selection & metrics calculation
FeaturesEnricher
can be initialized with additional string parameter loss
.
Depending on ML-task, you can use the following loss functions:
regression
: regression, regression_l1, huber, poisson, quantile, mape, gamma, tweedie;binary
: binary;multiclass
: multiclass, multiclassova.
For instance, if your target variable has a Poisson distribution (count of events, number of customers in the shop and so on), you should try to use loss="poisson"
to improve quality of feature selection and get better evaluation metrics.
Usage example:
enricher = FeaturesEnricher(
search_keys={"date": SearchKey.DATE},
loss="poisson",
model_task_type=ModelTaskType.REGRESSION
)
enriched_dataframe.fit(X, y)
Return initial dataframe enriched with TOP external features by importance
transform
and fit_transform
methods of FeaturesEnricher
can be used with two additional parameters:
importance_threshold
: float = 0 - only features with importance >= threshold will be added to the output dataframemax_features
: int - only first TOP N features by importance will be returned, where N = max_features
And keep_input=True
will keep all initial columns from search dataset X:
enricher = FeaturesEnricher(
search_keys={"subscription_activation_date": SearchKey.DATE}
)
enriched_dataframe.fit_transform(X, y, keep_input=True, max_features=2)
Exclude premium data sources from fit, transform and metrics calculation
fit
, fit_transform
, transform
and calculate_metrics
methods of FeaturesEnricher
can be used with parameter exclude_features_sources
that allows to exclude Trial or Paid features from Premium data sources:
enricher = FeaturesEnricher(
search_keys={"subscription_activation_date": SearchKey.DATE}
)
enricher.fit(X, y, calculate_metrics=False)
trial_features = enricher.get_features_info()[enricher.get_features_info()["Feature type"] == "Trial"]["Feature name"].values.tolist()
paid_features = enricher.get_features_info()[enricher.get_features_info()["Feature type"] == "Paid"]["Feature name"].values.tolist()
enricher.calculate_metrics(exclude_features_sources=(trial_features + paid_features))
enricher.transform(X, exclude_features_sources=(trial_features + paid_features))
Turn off autodetection for search key columns
Upgini has autodetection of search keys on by default.
To turn off use detect_missing_search_keys=False
:
enricher = FeaturesEnricher(
search_keys={"date": SearchKey.DATE},
detect_missing_search_keys=False,
)
enricher.fit(X, y)
Turn off removing of target outliers
Upgini detect rows with target outlier for regression tasks. By default such rows are dropped on metrics calculation. To turn off removing of target outlier rows use parameter remove_outliers_calc_metrics=False
in fit, fit_transform or calculate_metrics methods:
enricher = FeaturesEnricher(
search_keys={"date": SearchKey.DATE},
)
enricher.fit(X, y, remove_outliers_calc_metrics=False)
🔑 Open up all capabilities of Upgini
Register and get a free API key for exclusive data sources and features: 600 mln+ phone numbers, 350 mln+ emails, 2^32 IP addresses
Benefit | No Sign-up | Registered user |
---|---|---|
Enrichment with date/datetime, postal/ZIP code and country keys | Yes | Yes |
Enrichment with phone number, hashed email/HEM and IP-address keys | No | Yes |
Email notification on search task completion | No | Yes |
Automated feature generation with LLMs from columns in a search dataset | Yes, till 12/05/23 | Yes |
Email notification on new data source activation 🔜 | No | Yes |
👩🏻💻 How to share data/features with a community ?
You may publish ANY data which you consider as royalty / license free (Open Data) and potentially valuable for ML applications for community usage:
- Please Sign Up here
- Copy Upgini API key from profile and upload your data from Upgini python library with this key:
import pandas as pd
from upgini.metadata import SearchKey
from upgini.ads import upload_user_ads
import os
os.environ["UPGINI_API_KEY"] = "your_long_string_api_key_goes_here"
#you can define custom search key which might not be supported yet, just use SearchKey.CUSTOM_KEY type
sample_df = pd.read_csv("path_to_data_sample_file")
upload_user_ads("test", sample_df, {
"city": SearchKey.CUSTOM_KEY,
"stats_date": SearchKey.DATE
})
- After data verification, search results on community data will be available usual way.
🛠 Getting Help & Community
Please note, that we are still in a beta stage.
Requests and support, in preferred order
❗Please try to create bug reports that are:
- reproducible - include steps to reproduce the problem.
- specific - include as much detail as possible: which Python version, what environment, etc.
- unique - do not duplicate existing opened issues.
- scoped to a Single Bug - one bug per report.
🧩 Contributing
We are not a large team, so we probably won't be able to:
- implement smooth integration with most common low-code ML libraries and platforms (PyCaret, H2O AutoML, etc. )
- implement all possible data verification and normalization capabilities for different types of search keys And we need some help from the community!
So, we'll be happy about every pull request you open and issue you find to make this library more incredible. Please note that it might sometimes take us a while to get back to you. For major changes, please open an issue first to discuss what you would like to change
Developing
Some convenient ways to start contributing are:
⚙️ Open in Visual Studio Code You can remotely open this repo in VS Code without cloning or automatically clone and open it inside a docker container.
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