About NextGenVLSI
Our journey began with a strong focus on low-power-based Intellectual Property (IP), a critical area of semiconductor technology that is vital for creating energy-efficient solutions. From these initial steps, we quickly realized the immense potential for growth and innovation in this field. Over time, we have expanded our expertise and capabilities to encompass a wide array of semiconductor research and development areas, including high-performance computing, system-on-chip (SoC) designs, microelectronics, and advanced packaging technologies.This expansion has not only positioned NextGenVLSI as a key player in the semiconductor domain but also allowed us to develop a comprehensive portfolio of services that cater to both local and global demands. With a strong focus on cutting-edge technologies, we are equipped to meet the ever-evolving needs of the semiconductor industry, helping businesses and innovators stay ahead in a competitive landscape.

Why We Are the Best in Bangladesh
Unlike other training centers that offer theoretical sessions or outdated materials, we focus on hands-on, project-based learning with real industry tools and environments. Students at our institute receive 24/7 access to industry-standard EDA tools through a dedicated VNC server, allowing them to practice anytime, from anywhere.
🔧 Industry Tools
We use Cadence, the same suite of tools used by top semiconductor companies for design and verification.
👨🏫 Expert Instructors
All of our instructors have 15+ years of industry and teaching experience in RTL design, verification, physical design, and analog layout.
🎯 Practical Learning
Students design real modules like ALUs, UARTs, FIFO controllers, and mini-RISC-V processors.
What Makes Us Different from Others
1. Structured Curriculum
- Each course begins from the very basics
- Gradually progresses to advanced topics
- Become industry-ready within 3–6 months
2. Real-Time Industry Projects
- Complete full-flow SoC backend implementation
- Industry exposure before job market
3. Career Guidance
- One-on-one CV building sessions
- Mock interviews and mentorship
4. Online & Flexible
- All classes conducted online
- Recorded lectures and flexible timings
- Interactive doubt-clearing sessions
Our Course Offerings
1. RTL Design Using Verilog – Digital Logic to Synthesizable RTL
Job Roles: RTL Design Engineer, ASIC Design Engineer, FPGA Engineer
Toolchain: Synopsys Design Compiler, Vivado, ModelSim
🔍 Industry Relevance
- Every digital IC design starts with RTL
- Focus on coding efficiency and timing-friendly logic implementation
📘 What You'll Learn
- Combinational & Sequential logic modeling
- FSM-based design for control path
- Pipelined datapath design (RISC-V blocks)
- Clock gating, reset synchronizers, parameterized designs
2. SystemVerilog with UVM – Advanced Functional Verification
Job Roles: Verification Engineer, IP/SoC Testbench Developer
Toolchain: Synopsys VCS, Verdi, UVM Library, QuestaSim
🔍 Industry Relevance
- 70% of chip development effort is verification
- UVM is the global standard for IP and SoC-level verification
📘 What You'll Learn
- SystemVerilog OOP: classes, interfaces, randomization
- Testbench components: driver, monitor, scoreboard, sequencer
- Functional and code coverage, assertions
- UVM testbench architecture and phases
3. ASIC Physical Design – RTL to GDSII Using Innovus
Job Roles: Physical Design Engineer, Backend Engineer
Toolchain: Cadence Innovus, Genus, Tempus, Voltus
🔍 Industry Relevance
- Essential for working on 5nm–28nm nodes
- Complete backend implementation flow
📘 What You'll Learn
- Synthesis to netlist (logic optimization)
- Floorplanning with macro placement
- Power planning and CTS
- DRC and LVS checks
4. Analog Layout & Custom IC Design
Job Roles: Analog Layout Engineer, Custom IC Designer
Toolchain: Cadence Virtuoso
🔍 Industry Relevance
- Precision-driven analog layout design
- Essential for mixed-signal IC design
📘 What You'll Learn
- Layout of current mirror, differential pair, op-amp
- Matching techniques
- DRC/LVS verification
- Custom schematics and simulation
5. Design for Testability (DFT)
Job Roles: DFT Engineer, Test Engineer
Toolchain: Synopsys DFT Compiler, Tetramax, ATPG, TestMAX
🔍 Industry Relevance
- High demand in automotive and safety-critical ICs
- Essential for modern chip testing
📘 What You'll Learn
- Scan insertion and stitching
- ATPG vector generation
- BIST architecture for RAM and logic
- Fault grading and coverage reporting
6. VLSI Career Launchpad
Job Roles: All front-end/back-end roles
Tools: Python, Verilog, Debug Suites, Mentor Tools
🔍 Industry Relevance
- Preparation for top company interviews
- Focus on practical knowledge and debugging skills
📘 What You'll Learn
- Debugging waveform issues
- Industry-standard resume writing
- Interview-level challenges
- Direct mentorship from industry experts
Why Our Courses Work in the Industry
- 100% tool-based practical learning
- Interview-focused training
- Industry-recognized certification
- Proven placement track record