As the winter break approaches, students get a much-needed opportunity to refresh their minds. They can also use this time for upskilling and learning new skills that can help them secure great career opportunities. One such skill is Scientific computing—a field that combines Mathematics, Computer Technology, and Science to solve problems related to Science, Research, and Engineering areas. It is among the most in-demand skills in today’s job market.
If you wish to learn Scientific Computing, SciAstra brings you the 0 to 100 Masterclass—the “SciAstra Scientific Computing Workshop”. This 3-week, beginner-friendly workshop covers Bioinformatics and Scientific Computing with Python. Registrations for this workshop open on December 10, 2025, at sciastra.com. Read this article to know everything about the Scientific Computing Workshop.
Why Must You Learn Scientific Computing?
Scientific Computing is a field that combines science, mathematics, and computer technology to solve problems using mathematical models that are too complex for humans to calculate manually.
It collects data from real-life scenarios or problems, and based on these details, computers simulate and predict future conditions and possible solutions.
Refer to the following infographic to understand the functioning of Scientific Computing.
If you have little or no knowledge about the usefulness of Scientific Computing, then we have a solution to this problem. Read below how it can help you in your career.
1. Scientific Computing can boost your career profile
Developing a promising career in Science, Research, and Engineering requires knowledge of Scientific Computing to make problem-solving, analytical thinking, scientific discoveries, and innovation better and faster.
2. High Demand Across Many Industries
Scientific Computing experts are needed in different industries. Some examples of these industries are the following:
Space research
Climate and weather prediction
Healthcare and drug development
Automotive and aviation design
Finance and risk modeling
Artificial intelligence and robotics
Bioinformatics and genetic engineering
This strong demand creates many career opportunities.
3. Strong Salary Growth
Work related to Scientific Computing is highly technical and specialised. Therefore, knowledge of this field will provide you a competitive edge in the job market by equipping you with one of the most in-demand skills. As a result, the salary growth for Scientific Computing experts is exceptional.
4. Opportunity to Work on Real-World Impact
Scientific Computing careers allow professionals to contribute to meaningful work, such as:
Predicting natural disasters
Designing safer vehicles
Developing life-saving medicines
Creating clean energy solutions
Exploring space
Scientific Computing Workshop: Overview
The ScIAstra Scientific Computing Workshop is a 3-week-long masterclass in which Bioinformatics and Scietific Computing are being taught.
The registration for the workshop is live at sciastra.com. You need to visit the "Course" menu of the website's homepage to access the workshop registration link.
It has a total of 15 live classes with a validity of three months. Students can download these class lectures and access them offline.
SciAstra Scientific Computing Workshop | |
Features | Price & Purchase Link |
👉 Fundamental Tools Used in Scientific Computing 👉 Coding Basics 👉 How to Approach Scientific Problems Computationally 👉 Skills Industries Genuinely Look For 👉 15 Live Classes 👉 Guided Hands-on Sessions | INR INR 1,509 |
SciAstra Scientific Computing Workshop: Eligibility
This workshop is open to candidates from any background—engineering, physics, chemistry, or even non-technical fields—who are looking to move into computational biology or scientific computing.
No prior coding knowledge or experience is required to enrol in the workshop.
Scientific Computing Workshop: Topics Covered
The Scientific Computing Workshop includes topics from Scientific Computing, Bioinformatics, and the basics of the Python programming language.
Bioinformatics is a field that combines Biology, Mathematics, and Computer Technology to collect and interpret biological data.
Check out the complete list of topics covered in the SciAstra Scientific Computing Workshop:
Scientific Computing Workshop Topics | |
Topics | Description |
Introduction + Bioinformatics basics | An introduction to how computers help analyse biological data, from DNA sequences to protein structures. |
Setup (including UGENE installation) | A simple walkthrough to install and set up UGENE so learners can start working with biological data tools. |
Python Language | Basics of Python Programming Language |
Techniques & Formats (databases, NCBI access, genome download, BLAST, etc.) | Covers essential bioinformatics techniques and file formats, including how to access NCBI, download genomes, and run BLAST searches. |
Basics (Phylogenetics tree), MATLAB, Linear regression | Explains how to build evolutionary trees, use MATLAB for data tasks, and apply linear regression to analyse biological relationships. |
3D structure, Alphafold | Introduces how proteins fold into 3D shapes and how AlphaFold predicts these structures with high accuracy. |
UGENE | A user-friendly bioinformatics tool that helps you visualise, edit, and analyse DNA, RNA, and protein sequences. |
Gene annotation | The process of identifying functional regions in a genome, such as genes, coding areas, and regulatory sequences. |
Database, Biocuration, charts, query | Covers how biological databases are organised, how experts curate data, and how to analyse it using charts and queries. |
BLAST project | A hands-on task where participants use BLAST to compare sequences and interpret similarity results. |
Data analytics basics | An introduction to handling, cleaning, and interpreting datasets to find meaningful patterns in biological data. |
Q&A session (Future Roadmap) | An open discussion to clarify doubts and explore career opportunities and future learning paths in bioinformatics. |
Scientific Computing Workshop: Mentors
The mentors who will be teaching in the workshop come from top-tier institutes such as the University of Sheffield and the Max Planck Institute for Multidisciplinary Sciences.
Mentors | Profile |
| PhD researcher at The University of Sheffield |
| Former Head of bioinformatics at 4baseCa |
Benefits of Scientific Computing Workshop
The Scientific Computing Workshop can be a great knowledge asset for you and help accelerate your career growth by providing the following benefits:
1. Industry-to-Academia Connection
Our mentor, Anirudh Jakhmola, is a PhD researcher at the University of Sheffield. He has conducted profound research and work in Bioinformatics and Scientific Computing, which can help you gain knowledge based on his practical experience. His academic expertise can help you learn about current trends, background, and future developments related to both fields.
Our second mentor, Vyomesh Javle, is the former Head of Bioinformatics at 4baseCare, a leading precision oncology organisation operating in Asia and the Middle East. His industrial experience can help you understand the practical applications of Scientific Computing and Bioinformatics.
2. Making You a Skilled Professional
A large number of graduates and postgraduates in India lack employability skills, as most educational institutions do not equip students with the abilities required to work in real industrial settings.
Through this workshop, you can learn emerging skills like Scientific Computing and stay relevant across different industries. This will enhance your employability and help you secure high-paying jobs.
3. Research-Relevant Skills
If you want to become a researcher, you will need to learn how to handle large sets of data. Processing and analysing large, complex data is challenging for humans. Scientific Computing can help you manage this work by making data collection, analysis, and visualisation easier and faster.
4. Industrial Exposure
With the guidance of our expert mentors, you can learn about current trends in the medical industry, as they possess extensive practical experience. This will provide you with valuable industrial exposure and help you become part of a professional network.
Conclusion
The SciAstra Scientific Computing Workshop will be a great opportunity for students and professionals who want to strengthen their technical foundation and explore rewarding career paths in science, research, and engineering. Guided by expert mentors, beginner-friendly lessons, and hands-on projects, this workshop will bridge the gap between classroom learning and real-world applications. Be it to advance your studies, enhance your job prospects, or make an entry into high-impact areas such as bioinformatics or scientific research, this 3-week program equips you with the essential skills to get started. Whether you want to upgrade your abilities this winter break and build a future-ready career, the Scientific Computing Workshop is a great place to begin.
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