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CoderzColumn Tutorials


Learning is a lifelong process. But you must know what, where, and how to learn? What skills to develop? What skills will help you boost your career? If not, you are at the right place! Our tutorial section at CoderzColumn is dedicated to providing you with all the practical lessons. It will give you the experience to learn Python for different purposes and code on your own. Our tutorials cover:

  • Python Programming - threading, multiprocessing, concurrent.futures, asyncio, queue, imaplib, smtplib, email, mimetypes, cprofile, profile, tracemalloc, logging, ipywidgets, beautifulsoup, filecmp, glob, shutil, tarfile, zipfile, argparse, datetime, traceback, abc, contextlib, warnings, dataclasses, re, difflib, textwrap, collections, heapq, bisect, weakref, configparser, signa, ipaddress, xarray, pandas, subprocess, sched, etc.
  • Artificial Intelligence - PyTorch, Keras, Tensorflow, JAX, MXNet, Torchvision, Torchtext, GluonCV, GluonNLP, etc
  • Machine Learning - Scikit-Learn, Statsmodels, XGBoost, CatBoost, LightGBM, optuna, scikit-optimize, hyperopt, bayes_opt, scikit-plot, lime, shap, eli5, etc.
  • Data Science - missingno, seaborn, pandas, sweetviz, numpy, networkx, xarray, awkward-array, etc.
  • Data Visualization - Matplotlib, Bokeh, Bqplot, Plotnine, Altair, Plotly, Cufflinks, Holoviews, dash, streamlit, panel, voila, bokeh, geopandas, geoviews, folium, ipyleaflet, geoplot, cartopy, etc.
  • Digital Marketing - SEO tactics, marketing strategies, Social Media marketing, and more.

For an in-depth understanding of the above concepts, check out the sections below.

Recent Tutorials


Tags data-visualizaton, altair
Altair - Basic Interactive Plotting in Python
Data Science

Altair - Basic Interactive Plotting in Python

A simple guide on how to create interactive charts using Python library Altair in Jupyter notebook with simple examples. Altair is a Python data visualization library built on top of javascript libraries Vega and Vega-lite. Tutorial covers basic charts like scatter charts, bar charts, line charts, area charts, histograms, box plots, pie charts, heatmaps, etc. Tutorial is a good starting point for beginners.

Sunny Solanki  Sunny Solanki
Tags python, multiprocessing, multiprocessing-using-py…
Python multiprocessing Module - Simple Guide to Work with Processes in Python
Python

Python multiprocessing Module - Simple Guide to Work with Processes in Python

A complete guide on how to use Python module multiprocessing to create processes and assign tasks to them for parallel execution with simple and easy-to-understand examples. Tutorial covers topics like how to create processes, how to make processes wait for other processes, how to kill or terminate processes, how to create a pool of processes and submit tasks to it, etc.

Sunny Solanki  Sunny Solanki
Tags optuna, hyperparameters-tuning
Optuna: Simple Guide to Hyperparameters Tuning / Optimization
Machine Learning

Optuna: Simple Guide to Hyperparameters Tuning / Optimization

A comprehensive guide on how to use Python library "optuna" to perform hyperparameters tuning / optimization of ML Models. Tutorial explains usage of Optuna with scikit-learn regression and classification models. Tutorial also covers data visualization and logging functionalities provided by Optuna in detail. Optuna also lets us prune underperforming hyperparameters combinations.

Sunny Solanki  Sunny Solanki
Tags asyncio, async-await, concurrent_programming
asyncio - Concurrent Programming using Async / Await Syntax in Python
Python

asyncio - Concurrent Programming using Async / Await Syntax in Python

A detailed guide on how to use Python Module "asyncio" and keywords "async" & "await" for concurrent programming in Python. Tutorial covers how to create coroutines using "async/await" syntax and run them in parallel using "asyncio" module. Tutorial covers topics like creating coroutines, collecting results once coroutines are complete, waiting for coroutines, canceling coroutines, retrieving pending coroutines, etc in detail.

Sunny Solanki  Sunny Solanki
Tags hyperopt, hyperparameters-optimization
Hyperopt - Complete Guide to Hyperparameters Tuning / Optimization
Machine Learning

Hyperopt - Complete Guide to Hyperparameters Tuning / Optimization

A comprehensive guide on how to use Python library 'hyperopt' for hyperparameters tuning with simple examples. Tutorial explains how to fine-tune scikit-learn models solving regression and classification tasks. Tutorial is a complete guide to hyperparameters optimization of ML models in Python using 'hyperopt'.

Sunny Solanki  Sunny Solanki
Tags sklearn, naive-bayes
Scikit-Learn - Naive Bayes Classifiers
Machine Learning

Scikit-Learn - Naive Bayes Classifiers

A simple guide to use naive Bayes classifiers available from scikit-learn to solve classification tasks. All 5 naive Bayes classifiers available from scikit-learn are covered in detail. Tutorial first trains classifiers with default models on digits dataset and then performs hyperparameters tuning to improve performance. Various ML metrics are also evaluated to check performance of models.

Sunny Solanki  Sunny Solanki
Tags time-series, dates, times, timezones
Dates, Timestamps, Timedeltas, Periods & Time Zone Handling in Python using Pandas
Data Science

Dates, Timestamps, Timedeltas, Periods & Time Zone Handling in Python using Pandas

A simple guide to work with dates, timestamps, periods, time deltas, and time zones using Python library Pandas. Tutorial covers aspects like creating date time ranges / time stamps / time deltas / periods / period ranges, adding / subtracting time deltas from dates / periods, adding time zone to dates, converting time zone of dates, etc.

Sunny Solanki  Sunny Solanki
Tags time-series, resampling, moving-window-functions
Time Series - Resampling & Moving Window Functions in Python using Pandas
Data Science

Time Series - Resampling & Moving Window Functions in Python using Pandas

A detailed guide to resampling time series data using Python Pandas library. Tutorial covers pandas functions ('asfreq()' & 'resample()') to upsample and downsample time series data. Apart from resampling, tutorial covers a guide to apply moving window functions ('rolling', 'expanding' & 'ewm()') to time series data as well. The rolling window, expanding window and exponential moving average is covered in tutorial.

Sunny Solanki  Sunny Solanki
Tags email
email - How to Represent an Email Message in Python?
Python

email - How to Represent an Email Message in Python?

A complete guide on how to use Python library "email" to represent emails with simple examples. Tutorial covers topics like creating a simple email message, emails with CC / BCC, emails with diff types of attachments, setting HTTP headers in emails, combining different content types in emails, etc.

Sunny Solanki  Sunny Solanki
Tags sunburst-chart, plotly
How to Create Sunburst Chart / Diagram in Python [Plotly]?
Data Science

How to Create Sunburst Chart / Diagram in Python [Plotly]?

A simple guide to creating sunburst charts in Python using interactive data visualization library Plotly. Tutorial explains how we can use plotly express and plotly graph objects API of a library to create sunburst charts. The sunburst chart is also referred to by other names like multi-level pie chart, ring chart, donut chart, doughnut chart, or radial treemap.

Sunny Solanki  Sunny Solanki
Parallel Computing using Python

Parallel Computing using Python


Parallel Computing is a type of computation where tasks are assigned to individual processes for completion. These processes can be running on a single computer or cluster of computers. Parallel Computing makes multi-tasking super fast.

Python provides different libraries (joblib, dask, ipyparallel, etc) for performing parallel computing.

Concurrent Programming in Python

Concurrent Programming in Python


Concurrent computing is a type of computing where multiple tasks are executed concurrently. Concurrent programming is a type of programming where we divide a big task into small tasks and execute these tasks in parallel. These tasks can be executed in parallel using threads or processes.

Python provides various libraries (threading, multiprocessing, concurrent.futures, asyncio, etc) to create concurrent code.

Visualize Machine Learning Metrics

Visualize Machine Learning Metrics


Once our Machine Learning model is trained, we need some way to evaluate its performance. We need to know whether our model has generalized or not.

For this, various metrics (confusion matrix, ROC AUC curve, precision-recall curve, silhouette Analysis, elbow method, etc) are designed over time. These metrics help us understand the performance of our models trained on various tasks like classification, regression, clustering, etc.

Python has various libraries (scikit-learn, scikit-plot, yellowbrick, interpret-ml, interpret-text, etc) to calculate and visualize these metrics.

Interpret Predictions Of ML Models

Interpret Predictions Of ML Models


After training ML Model, we generally evaluate the performance of model by calculating and visualizing various ML Metrics (confusion matrix, ROC AUC curve, precision-recall curve, silhouette Analysis, elbow method, etc).

These metrics are normally a good starting point. But in many situations, they don’t give a 100% picture of model performance. E.g., A simple cat vs dog image classifier can be using background pixels to classify images instead of actual object (cat or dog) pixels.

In these situations, our ML metrics will give good results. But we should always be a little skeptical of model performance.

We can dive further deep and try to understand how our model is performing on an individual example by interpreting results. Various algorithms have been developed over time to interpret predictions of ML models and many Python libraries (lime, eli5, treeinterpreter, shap, etc) provide their implementation.

Python Data Visualization Libraries

Python Data Visualization Libraries


Data Visualization is a field of graphical representation of information / data. It is one of the most efficient ways of communicating information with users as humans are quite good at capturing patterns in data.

Python has a bunch of libraries that can help us create data visualizations. Some of these libraries (matplotlib, seaborn, plotnine, etc) generate static charts whereas others (bokeh, plotly, bqplot, altair, holoviews, cufflinks, hvplot, etc) generate interactive charts. Majority of basic visualizations like bar charts, line charts, scatter plots, histograms, box plots, pie charts, etc are supported by all libraries. Many libraries also support advanced visualization, widgets, and dashboards.

Advanced Data Visualizations using Python

Advanced Data Visualizations using Python


Basic Data Visualizations like bar charts, line charts, scatter plots, histograms, box plots, pie charts, etc are quite good at representing information and exploring relationships between data variables.

But sometimes these visualizations are not enough and we need to analyze data from different perspectives. For this purpose, many advanced visualizations are developed over time like Sankey diagrams, candlestick charts, network charts, chord diagrams, sunburst charts, radar charts, parallel coordinates charts, etc. Python has many data visualization libraries that let us create such advanced data visualizations.

Python Deep Learning Libraries

Python Deep Learning Libraries


Deep learning is a field in Machine Learning that uses deep neural networks to solve tasks. The neural networks with generally more than one hidden layer are referred to as deep neural networks.

Many real-world tasks like object detection, image classification, image segmentation, etc can not be solved with simple machine learning models (decision trees, random forest, logistic regression, etc). Research has shown that neural networks with many layers are quite good at solving these kinds of tasks involving unstructured data (Image, text, audio, video, etc). Deep neural networks nowadays can have different kinds of layers like convolution, recurrent, etc apart from dense layers.

Python has many famous deep learning libraries (PyTorch, Keras, JAX, Flax, MXNet, Tensorflow, Sonnet, Haiku, PyTorch Lightning, Scikeras, Skorch, etc) that let us create deep neural networks to solve complicated tasks.

Image Classification

Image Classification


Image classification is a sub-field under computer vision and image processing that identifies an object present in an image and assigns a label to an image based on it. Image classification generally works on an image with a single object present in it.

Over the years, many deep neural networks (VGG, ResNet, AlexNet, MobileNet, etc) were developed that solved image classification task with quite a high accuracy. Due to the high accuracy of these algorithms, many Python deep learning libraries started providing these neural networks. We can simply load these networks with weights and make predictions using them.

Python libraries PyTorch and MXNet have helper modules named 'torchvision' and 'gluoncv’ respectively that provide an implementation of image classification networks.