For high-performance embedded applications, System-on-Chip (SoC) Design combines digital, analog, memory, and processor parts into one chip.
Level
Advanced
Duration
8 weeks
Placement Client
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About System-on-Chip (SoC) Design
Rated #1 Recognized as the No.1 Institute for System-on-Chip (SoC) Design Online Training Course. This program teaches you everything you need to know about chip-level integration. You will learn everything there is to know about SoC architecture, hardware/software co-design, IP integration, and the RTL-to-GDSII design flow. The course focuses on low-power design, verification methods, and how SoCs are used in real life in IoT, AI, and mobile devices. At the end of the training, students will be able to design and test industry-standard SoCs for the most advanced technologies.
Training Plan
About trainer
Working professional who is carrying more then 10 years of industry experience.
Decks & Updated Content
Access to updated presentation decks shared during live training sessions.
e-Book
E-book provided by TechPratham. All rights reserved.
Assignments & MCQs
Module-wise assignments and MCQs provided for practice.
Video Recording
Daily Session would be recorded and shared to the candidate.
Projects
Live projects will be provided for hands-on practice.
Resume Building
Expert-guided resume building with industry-focused content support.
Interview Preparation
Comprehensive interview preparation with real-time scenario practice.
System-on-Chip (SoC) Design Course Curriculum
Introduction to SoC Design
Overview of integrating complete systems on a single chip
SoC Architecture & Components
Core building blocks of an SoC.
Processor & Embedded Subsystems
Embedded processing elements in SoC designs.
On-Chip Interconnects & Buses
Communication mechanisms inside an SoC.
Memory Architecture & Management
Design and optimization of SoC memory systems.
Power Management & Low-Power Design
Power-efficient techniques for SoC implementation.
VLSI Embedded Systems And Chip Design Courses
No related courses found
Additional Program Highlights
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Who Should Take System-on-Chip (SoC) Design
IT Professionals
Non-IT Career Switchers
Fresh Graduates
Working Professionals
Ops/Administrators/HR
Developers
BA/QA Engineers
Cloud / Infra
IT Professionals
Non-IT Career Switchers
Fresh Graduates
Job Roles For System-on-Chip (SoC) Design
Key Projects
System-on-Chip (SoC) Design
ARM Cortex-M Based SoC
Design an SoC with an ARM Cortex-M processor, memory, and peripherals. Implement RTL design and verify functionality using SystemVerilog.
IoT Low-Power SoC
Develop a power-efficient SoC for IoT devices by optimizing processor and memory design. Validate design with simulation and power analysis tools.
DSP-Integrated SoC
Create an SoC with a built-in DSP core for signal processing. Perform HW/SW co-design and test through FPGA-based prototyping.
Placement Process
Live Class with Industry Use Cases
- Interactive learning
- Real-world examples
- Expert guidance
- Doubt resolution
Daily Assignment & Weekly Assessments
- Hands-on practice
- Concept reinforcement
- Weekly evaluation
- Timely feedback
Project Testing & Deployment
- Project development
- Testing practice
- Deployment exposure
- Portfolio creation
Interview Preparation (Mock, PD, Alumni Session)
- Mock interviews
- Personal development
- Alumni guidance
- Confidence building
Resume Building
- Resume crafting
- Industry-focused format
- Skills highlighting
- Professional presentation
Placement
- Job assistance
- Interview support
- Career guidance
- Opportunity access
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Course FAQs
Why are SoCs widely used in modern electronics?
Industry-Recognized Certification
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