Sankara Nethralaya
Project Type
Atomic Design System
Role
Project Planning
Design System
Team
Anagh Sharma
Divya Verma
01
Overview
Sankara Nethralaya, a premier eye care institution, approached our team with the goal of creating a unified and scalable design system for their Electronic Medical Portal. As a critical tool for doctors, administrators, and patients, the portal required a cohesive structure to streamline its user experience and ensure accessibility across diverse user groups.
By implementing this design system, we aimed to not only streamline the development process but also improve usability, accessibility, and scalability. This case study delves into the journey of its creation, detailing the challenges faced, strategies employed, and the transformative impact it has had on Sankara Nethralaya’s digital operations.
02
Design System
Design system is a comprehensive collection of reusable components, visual styles, and guidelines that ensure consistency and efficiency in creating digital products. It serves as a unified framework for designers and developers, fostering collaboration, scalability, and a cohesive user experience across platforms.
Consistency
Branding
Accessibility
Reusability
Flexibility
Scalability
Collaboration
Consistency
Reusability
Accessibility
Scalability
Collaboration
Branding
Flexibility
Consistency
Consistency
Consistency
Collaboration
Collaboration
Collaboration
Accessibility
Accessibility
Accessibility
Reusability
Reusability
Reusability
Flexibility
Flexibility
Flexibility
Branding
Branding
Branding
Scalability
Scalability
Scalability
03
03
03
03
Revolutionizing Workflow with a Design System
Revolutionizing Workflow
with a Design System
A design system brings transformative benefits to organizations by improving efficiency, consistency, collaboration, and user satisfaction. Here’s a breakdown of the potential impact:
Time and Cost Efficiency
Time and Cost Efficiency
Time and Cost Efficiency
Time and Cost Efficiency
Consistency Across Products
Consistency Across Products
Accelerated Scaling
Accelerated Scaling
Improved Collaboration
Better Accessibility
Higher Product Quality
Better Accessibility
Consistency Across Products
Accelerated Scaling
Improved Collaboration
Higher Product Quality
Higher Product Quality
Better Accessibility
Better Accessibility
Improved Collaboration
Improved Collaboration
Improved Collaboration
Higher Product Quality
Better Accessibility
04
04
Process
Process
Analyze
Analyze
Analyze
Analyze
Analyze
Analyze
Analyze
Began the process by thoroughly analyzing the existing design files to identify inconsistencies and areas for improvement.
Began the process by thoroughly analyzing the existing design files to identify inconsistencies and areas for improvement.
Began the process by thoroughly analyzing the existing design files to identify inconsistencies and areas for improvement.
Began the process by thoroughly analyzing the existing design files to identify inconsistencies and areas for improvement.
Began the process by thoroughly analyzing the existing design files to identify inconsistencies and areas for improvement.
Began the process by thoroughly analyzing the existing design files to identify inconsistencies and areas for improvement.
Began the process by thoroughly analyzing the existing design files to identify inconsistencies and areas for improvement.
Build
Build
Build
Build
Build
Build
Build
Decided to implement an Atomic Design System for this project, ensuring a modular and scalable approach to creating cohesive and reusable components.
Decided to implement an Atomic Design System for this project, ensuring a modular and scalable approach to creating cohesive and reusable components.
Decided to implement an Atomic Design System for this project, ensuring a modular and scalable approach to creating cohesive and reusable components.
Decided to implement an Atomic Design System for this project, ensuring a modular and scalable approach to creating cohesive and reusable components.
Decided to implement an Atomic Design System for this project, ensuring a modular and scalable approach to creating cohesive and reusable components.
Decided to implement an Atomic Design System for this project, ensuring a modular and scalable approach to creating cohesive and reusable components.
Decided to implement an Atomic Design System for this project, ensuring a modular and scalable approach to creating cohesive and reusable components.
Collate
Collate
Collate
Collate
Collate
Collate
Collate
Conducted workshops to ensure smooth adoption. Maintained a feedback loop for iterative updates and improvements.
Conducted workshops to ensure smooth adoption. Maintained a feedback loop for iterative updates and improvements.
Conducted workshops to ensure smooth adoption. Maintained a feedback loop for iterative updates and improvements.
Conducted workshops to ensure smooth adoption. Maintained a feedback loop for iterative updates and improvements.
Conducted workshops to ensure smooth adoption. Maintained a feedback loop for iterative updates and improvements.
Conducted workshops to ensure smooth adoption. Maintained a feedback loop for iterative updates and improvements.
Conducted workshops to ensure smooth adoption. Maintained a feedback loop for iterative updates and improvements.
06
06
Sankara Nethralaya- Atomic Design System
Sankara Nethralaya- Atomic Design System
Sankara Nethralaya- Atomic Design System
Sankara Nethralaya: Atomic Design System
05
Atomic Design System
Revolutionizing Workflow
with a Design System
Atomic design is a methodology composed of five distinct stages working together to create interface design systems in a more deliberate and hierarchical manner. The five stages of atomic design are: Atoms, Molecules, Organisms, Templates and Pages
Atoms
Atoms
Atoms
Atoms
Atoms
Atoms
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
Molecules
Molecules
Molecules
Molecules
Molecules
Molecules
The groups of two or more atoms held together. These combinations of atoms take on their own unique properties and become more tangible and operational than atoms.
The groups of two or more atoms held together. These combinations of atoms take on their own unique properties and become more tangible and operational than atoms.
The groups of two or more atoms held together. These combinations of atoms take on their own unique properties and become more tangible and operational than atoms.
The groups of two or more atoms held together. These combinations of atoms take on their own unique properties and become more tangible and operational than atoms.
The groups of two or more atoms held together. These combinations of atoms take on their own unique properties and become more tangible and operational than atoms.
The groups of two or more atoms held together. These combinations of atoms take on their own unique properties and become more tangible and operational than atoms.
Organisms
Organisms
Organisms
Organisms
Organisms
Organisms
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
Templates
Templates
Templates
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Templates
Templates
Templates
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Screens
Screens
Screens
They are specific instances of templates that show what a UI looks like with real representative content in place.
They are specific instances of templates that show what a UI looks like with real representative content in place.
They are specific instances of templates that show what a UI looks like with real representative content in place.
Organisms
Organisms
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
The basic building blocks of all matter. Each element has distinct properties, and they can't be broken down further without losing their meaning.
Templates
Templates
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Page-level objects that place components into a layout and articulate the design's underlying content structure.
Screens
Screens
They are specific instances of templates that show what a UI looks like with real representative content in place.
They are specific instances of templates that show what a UI looks like with real representative content in place.
Screens
Screens
Screens
They are specific instances of templates that show what a UI looks like with real representative content in place.
They are specific instances of templates that show what a UI looks like with real representative content in place.
They are specific instances of templates that show what a UI looks like with real representative content in place.
Colors
Colors
Colors
Colors
Colors
Colors
Colors
Atoms
Atoms
Typography
Atoms
Icons
Atoms
Tags Containers
Atoms
Row Containers
Atoms
Icons
Molecules
Buttons
Molecules
Dashboard
Molecules
Dashboard
Molecules
Dashboard
Molecules
OP Appointment
Organisms
IP Appointment
Organisms
Screens
Screens
Screens
Screens
Screens
Screens
Typography
Typography
Typography
Typography
Typography
Typography
Atoms
Icons
Icons
Icons
Atoms
Tags Container
Tags Container
Tags Container
Atoms
Row Container
Row Container
Row Container
Atoms
Icons
Icons
Icons
Molecules
Buttons
Buttons
Buttons
Molecules
Dashboard
Dashboard
Dashboard
Molecules
Dashboard
Dashboard
Dashboard
Molecules
Dashboard
Dashboard
Dashboard
Molecules
OP- Appointment
OP- Appointment
OP- Appointment
Organisms
IP- Appointment
IP- Appointment
IP- Appointment
Organisms
Screens
Screens
Screens
Screens
Screens
Screens
Screens
Screens
Screens
Screens
Screens
Screens
07
07
Key takeaways
Key takeaways
Breaking down the interface into smaller, reusable parts (atoms, molecules, organisms), it becomes easier to maintain visual consistency across different sections of the portal.
Teams can work concurrently on different parts of the system without losing sight of the overall design integrity.
Designers can quickly assemble mock ups using existing atoms and molecules, which accelerates the feedback loop with stakeholders and users.
As someone who at times faces focus challenges, working on Body Mirror wasn’t just about solving a problem – it was about building a tool I’d .
Team members can communicate more effectively about changes and enhancements.
Breaking down the interface into smaller, reusable parts (atoms, molecules, organisms), it becomes easier to maintain visual consistency across different sections of the portal.
Teams can work concurrently on different parts of the system without losing sight of the overall design integrity.
Designers can quickly assemble mock ups using existing atoms and molecules, which accelerates the feedback loop with stakeholders and users.
As someone who at times faces focus challenges, working on Body Mirror wasn’t just about solving a problem – it was about building a tool I’d .
Team members can communicate more effectively about changes and enhancements.
Breaking down the interface into smaller, reusable parts (atoms, molecules, organisms), it becomes easier to maintain visual consistency across different sections of the portal.
Teams can work concurrently on different parts of the system without losing sight of the overall design integrity.
Designers can quickly assemble mock ups using existing atoms and molecules, which accelerates the feedback loop with stakeholders and users.
As someone who at times faces focus challenges, working on Body Mirror wasn’t just about solving a problem – it was about building a tool I’d .
Team members can communicate more effectively about changes and enhancements.
Breaking down the interface into smaller, reusable parts (atoms, molecules, organisms), it becomes easier to maintain visual consistency across different sections of the portal.
Teams can work concurrently on different parts of the system without losing sight of the overall design integrity.
Designers can quickly assemble mock ups using existing atoms and molecules, which accelerates the feedback loop with stakeholders and users.
As someone who at times faces focus challenges, working on Body Mirror wasn’t just about solving a problem – it was about building a tool I’d .
Team members can communicate more effectively about changes and enhancements.
Breaking down the interface into smaller, reusable parts (atoms, molecules, organisms), it becomes easier to maintain visual consistency across different sections of the portal.
Teams can work concurrently on different parts of the system without losing sight of the overall design integrity.
Designers can quickly assemble mock ups using existing atoms and molecules, which accelerates the feedback loop with stakeholders and users.
As someone who at times faces focus challenges, working on Body Mirror wasn’t just about solving a problem – it was about building a tool I’d .
Team members can communicate more effectively about changes and enhancements.
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