A World-Class AI & Robotics Lab,Fully Managed for Your School

See the transformation your parents notice on campus tours and your students feel in class outcomes. We design, deploy, and run AI + Robotics labs aligned to NEP 2020.

45-day deploymentClasses 1-10 curriculumExpert Trainer
Traditional classroom setup
Modern robotics and AI lab setup
Before: Basic Computer Lab
After: AI + Robotics Hub
Empowering Future Innovators

Bring Next-Generation Tech Education to Your Campus

The technology landscape is expanding rapidly into Generative AI, Machine Vision, and Smart IoT. To help schools seamlessly align with the experiential learning mandates of NEP 2020, we partner with educators to create dynamic physical innovation spaces. By building upon your existing IT foundation, we provide the specialized tools and expertise needed for students to bridge the gap between classroom code and real-world robotics.

Foundational Knowledge

Building core academic understanding

Hands-on AI

Building real neural networks and robots

Core Programming

Mastering standard logic and syntax

Smart IoT

Connecting software to the physical world

Partnership Model

An End-to-End Educational Partnership

We eliminate the friction of modernizing your syllabus. From physical infrastructure to daily instruction, we provide a complete, managed ecosystem for your campus.

School innovation lab setup

Lab Setup & Yearly Maintenance

We design and install fully equipped AI and robotics innovation centers right on your campus. To ensure a seamless experience year-round, our team handles all hardware maintenance, upgrades, and technical troubleshooting.

Your students get access to cutting-edge tech, and your administration gets complete peace of mind.

Expert trainer teaching students

Expert Trainers & Curriculum

Sourcing qualified AI educators is a major hurdle for institutions. We solve this by providing an industry-aligned syllabus taught directly by our own expert instructors. We guide the projects, run the classes, and ensure students are building real-world skills.

Instantly upgrade your faculty capabilities without the need for extensive recruiting or staff retraining.

Our Future-Ready Curriculum

A Comprehensive, Future-Ready Syllabus

We move beyond basic computer literacy. Our dedicated trainers guide students through a progressive, hands-on journey across seven pillars of modern technology and turn complex concepts into tangible skills.

1. Advanced Artificial Intelligence

Students do not just use AI; they learn how to build and command it. We cover the entire spectrum of modern AI, moving from foundational logic to cutting-edge applications.

Core Focus: Generative AI, Agentic AI, Prompt Engineering, and Retrieval-Augmented Generation (RAG).

2. Applied Robotics & Electronics

We bring code to the physical world. Students learn the mechanics of motion and automation by building fully functional robotic systems from the ground up.

Core Focus: Structural robotics, circuit design, microcontrollers (Arduino/Raspberry Pi), and sensor integration.

3. The Internet of Things (IoT)

Connecting the physical to the digital. Students learn how to design smart devices that communicate, collect data, and automate real-world environments.

Core Focus: Networked sensors, smart home automation, and cloud-connected hardware.

4. Drone Technology

Taking engineering to the skies. Students explore the principles of aerodynamics, stabilization, and remote programming through hands-on drone assembly and flight logic.

Core Focus: Flight controllers, motor calibration, aerial automation, and spatial programming.

5. Electric Vehicle (EV) Technology

Preparing students for the future of transportation. We break down the engineering behind clean mobility, teaching the fundamentals of battery management and electric drivetrains.

Core Focus: Power distribution, motor efficiency, and sustainable energy mechanics.

6. Immersive Tech: AR & VR

Building alternate realities. Students learn to design and interact with 3D environments, blending digital overlays with the real world through Augmented and Virtual Reality.

Core Focus: Spatial computing, 3D environment design, and interactive simulations.

7. Tech Entrepreneurship & Leadership

Building technology is only half the journey. Students learn to shape technical projects into practical products and communicate their value in real-world contexts.

Core Focus: Business development, product strategy, pitching, communication, teamwork, and entrepreneurial mindset.

1. Advanced Artificial Intelligence

Students do not just use AI; they learn how to build and command it. We cover the entire spectrum of modern AI, moving from foundational logic to cutting-edge applications.

Core Focus: Generative AI, Agentic AI, Prompt Engineering, and Retrieval-Augmented Generation (RAG).

2. Applied Robotics & Electronics

We bring code to the physical world. Students learn the mechanics of motion and automation by building fully functional robotic systems from the ground up.

Core Focus: Structural robotics, circuit design, microcontrollers (Arduino/Raspberry Pi), and sensor integration.

3. The Internet of Things (IoT)

Connecting the physical to the digital. Students learn how to design smart devices that communicate, collect data, and automate real-world environments.

Core Focus: Networked sensors, smart home automation, and cloud-connected hardware.

4. Drone Technology

Taking engineering to the skies. Students explore the principles of aerodynamics, stabilization, and remote programming through hands-on drone assembly and flight logic.

Core Focus: Flight controllers, motor calibration, aerial automation, and spatial programming.

5. Electric Vehicle (EV) Technology

Preparing students for the future of transportation. We break down the engineering behind clean mobility, teaching the fundamentals of battery management and electric drivetrains.

Core Focus: Power distribution, motor efficiency, and sustainable energy mechanics.

6. Immersive Tech: AR & VR

Building alternate realities. Students learn to design and interact with 3D environments, blending digital overlays with the real world through Augmented and Virtual Reality.

Core Focus: Spatial computing, 3D environment design, and interactive simulations.

7. Tech Entrepreneurship & Leadership

Building technology is only half the journey. Students learn to shape technical projects into practical products and communicate their value in real-world contexts.

Core Focus: Business development, product strategy, pitching, communication, teamwork, and entrepreneurial mindset.

The Turnkey Solution

What We Deliver

Infrastructure, curriculum, and classroom execution in one managed delivery model for schools.

Expert On-Campus Trainer

Expert On-Campus Trainer

Along with lab setup, we provide an expert trainer who teaches kids on campus and drives real hands-on outcomes in every batch.

Dedicated instructor-led classroom delivery

Guided project execution and practical mentoring

Consistent student engagement and accountability

The Scaleopal Labs Advantage

Built by Engineers, Not Just Educators.

Unlike traditional textbook publishers or generic workshop vendors, our curriculum is engineered by active AI professionals.

We extract the exact skills required in today's top tech industries and reverse-engineer them into student-friendly, project-based learning modules. Your students learn the frameworks that actual startups and tech giants use today.

Limited Availability

Exclusive 2026 Academic Innovation Cohort

We are currently selecting a limited number of forward-thinking schools in the Pune region to integrate our comprehensive AI & Robotics programs for the upcoming academic year.

  • Prioritized lab deployment
  • Specialized faculty training sessions
  • Preferred pricing structures

Join the Cohort

Spots filling up fast for 2026

FAQs

School Partnership FAQs

Common questions from school leadership teams planning AI and robotics lab implementation.

What is included in Scaleopal Labs' AI and Robotics lab setup for schools?

Our partnership includes lab planning, hardware setup, NEP-aligned curriculum, expert trainer support, and annual maintenance for smooth operations.

How long does it take to deploy an AI and robotics lab on campus?

Typical deployment takes around 45 days after alignment on scope, infrastructure readiness, and scheduling with the school administration.

Is the program aligned with NEP 2020 requirements?

Yes. Our delivery model is designed around experiential and project-based learning outcomes aligned with NEP 2020 direction.

Do you provide trainers and teacher upskilling support?

Yes. We provide expert trainers for delivery and run faculty enablement sessions so schools can sustain quality teaching outcomes.

Which classes or grades can start this program?

Our curriculum spans Classes 1 to 10, with age-appropriate progression from foundational logic to advanced AI and robotics projects.

Can schools start without large upfront infrastructure investment?

Yes. Schools can start through our zero-CapEx style engagement models, depending on implementation scope and partnership structure.

Let’s Build the Future of Your School

Ready to see how an AI and Robotics lab fits into your campus?