Welcome to
Scientific Software & Advanced Computing
Scientific Computing & Modeling
We provide comprehensive scientific computing solutions that enable complex modeling
and simulation capabilities for various engineering applications. Our team develops
high-performance computing solutions that can handle large-scale data processing,
numerical analysis, and computational modeling. We specialize in creating custom
algorithms and software tools that address specific scientific and engineering challenges.
A little bit about us...
Computational science is about solving scientific problems numerically which is a very well established field on its own. With the rapid growth in the field of computer science and related computing technology (including AI), there is a growing need to bring practises from engineering analysis and design into the field of scientific simulation. The primary driver behind the need is to develop a scalable scientific simulation software (including AI) with which one can target for higher throughput, not just high performance. This is exactly why a specialised field like scientific software engineering has emerged. This is an area where computational mathematics, domain specific science, AI, core computer science and software engineering converge. Advanced computation is the area which covers all cutting edge computing technologies like high throughput accelerated computing, applied mathematics and scalable AI data science/engineering.

Our Scope
Scientific Software & Advanced Computing (SSAC) operates across the full spectrum of computational science, from algorithm to production deployment. We bridge the gap between research and practical implementation, ensuring that cutting-edge computational methods translate into real-world value for Shell's operations.
Key Working Areas
We have categorized our offerings broadly for anyone trying to understand if their problem statement can be handled by us

Advanced Simulation & Data Analysis
Computational software engineers use sophisticated algorithms and models to analyze large datasets and simulate complex systems. This enables businesses to make data-driven decisions, optimize processes and predict future outcomes with greater accuracy.

Innovation & Product Development
By leveraging computational models, a team can experiment with new ideas and product designs in a virtual environment, reducing the time and cost associated with physical prototyping. This accelerates innovation and helps bring new products to market faster.

Optimization of Operations & Resources
Computational software can identify inefficiencies in business operations, supply chains, and resource usage. By optimizing these areas through simulation and modeling, businesses can reduce costs, improve performance, and maximize resource utilization.

Risk Management & Scenario Planning
Computational models allow businesses to simulate various scenarios and assess potential risks before making significant decisions. A scalable software with computational science as a backbone is crucial for risk management, helping companies prepare for and mitigate potential challenges.

Enhancing Scientific Research & Development
In industries where R&D is critical, a scalable scientific software supports experimental design, hypothesis testing, and analysis, enabling faster and more accurate research outcomes. This can lead to breakthroughs that provide a competitive edge.

Scalable & Customized Solutions
SSAC develops tailored scalable software solutions that address specific business challenges, whether it's optimizing a manufacturing process, improving financial models, or enhancing customer analytics. These scalable solutions provide businesses with flexibility to adapt to changing needs and demands by generating valuable insights across various domains.
Technologies
We work with various technologies to provide the best solutions to our clients.
Programming Languages
Python
C/C++
Fortran
R
TensorFlow
PyTorch
MATLAB
Java
C#
JavaScript
Visualization Tools
Matplotlib
VTK
ParaView
High Throughput Software Scaling
MPI
OpenMP
CUDA
Toolchain
Our comprehensive development and deployment toolchain.

Our Services
Computational Modeling
Advanced numerical simulations for complex physical and chemical processes at scale.
Algorithm Deployment
Deploy custom algorithms optimized for specific scientific and engineering challenges.
Performance Optimization
Accelerating computational workflows through advanced optimization techniques at scale.
Data Analytics
Statistical analysis and machine learning for scientific data interpretation.
Scientific Visualization
Real-time interactive visualization tools for complex scientific datasets.
Cloud Computing
Scalable cloud-based solutions for high throughput computing workloads.
Our Projects
We have listed the projects that have been successfully delivered along with those that are in pipeline for reference for you to understand the wide range of our offerings

DIRAC
DIRAC is a cloud-based platform designed to digitalize scientific collaboration and streamline research workflows...
Know More
Virtual Corrosion Engineer (VCE)
A digital solution within DIRAC platform that enhances asset integrity by continuously assessing corrosion threats using real-time process data...
Know More
PennChem Reactor
Advanced reactor analytics integrating MATLAB and Python for reliable performance modeling...
Know More
SCORPIO
Shell's advanced supply chain modelling platform for integrated, high-value energy supply chains with front-end development and software testing...
Know MoreMeet our team
Here's our team! Each one of our members has a set of unique skills and capabilities so be sure to check their specialisations!

Engineering Lead
Core team

Associate Software Engineer

Senior Software Engineer

Software Engineer

Senior Software Engineer

Associate Software Engineer

Senior Software Engineer

Senior Software Engineer

Associate Software Engineer

Senior Software Engineer