Predict the future by creating it

Diploma in Semiconductor Technology

Learning Outcomes

By the end of this diploma, participants will be able to:

• Understand the physics and materials behind semiconductor devices

• Demonstrate knowledge of cleanroom operations and fabrication techniques

• Operate and maintain semiconductor processing and characterization equipment

• Interpret process flows and quality control standards used in fabrication

• Apply packaging and testing methods for integrated circuit (IC) devices

• Collaborate effectively in production, R&D, or QA environments

Course Duration

1 Year (Full-time) or 2 Years (Part-time/Evening)
Includes 4 semesters or modules with academic + practical components

Course Overview

The Diploma in Semiconductor Technology is a structured, hands-on program designed to equip students with the technical knowledge, practical skills, and industry exposure required to excel in the global semiconductor ecosystem. Covering end-to-end processes—from materials science and device physics to fabrication, testing, and packaging—this diploma program serves as a launchpad for careers in semiconductor manufacturing, R&D, equipment maintenance, and quality assurance.

Through classroom instruction, laboratory practice, and industry-relevant projects, learners gain a solid foundation to meet the growing demand for skilled semiconductor professionals in Bangladesh and worldwide.

Course Modules

Career Opportunities After Completion

• Semiconductor Fabrication Technician

• Cleanroom Process Operator

• Equipment Maintenance Engineer

• QA/QC Technician in Electronics Manufacturing

• Test & Packaging Assistant

• Entry-level roles in OSAT (Outsourced Semiconductor Assembly and Test) companies

• Pathway to Bachelor's degrees in Semiconductor, EEE, or Materials Science

Semester 1: Introduction & Foundation

• Basics of Electronics and Semiconductor Physics

• Materials Science for Semiconductors

• Cleanroom Protocols and Safety

• Introduction to Semiconductor Devices (Diodes, BJTs, MOSFETs)

Semester 2: Fabrication & Processing

• Crystal Growth, Wafer Preparation, and Doping

• Photolithography, Etching, Oxidation & Deposition

• Semiconductor Process Flow and Yield Optimization

• Introduction to Process Simulation Tools

Semester 3: Characterization & Packaging

• Electrical, Optical, and Structural Characterization Techniques

• Reliability and Failure Analysis

• Semiconductor Packaging Technologies (Flip-Chip, WLCSP, etc.)

• Thermal and Mechanical Management in Packaging

Semester 4: Industry Application & Project

• Semiconductor Equipment Operation & Maintenance

• Introduction to IC Design Tools (EDA, Layout basics)

• Industrial Attachment / Internship / Capstone Project

• Entrepreneurship and Innovation in Semiconductor Sector

🛠️ Laboratory/Practical Training Includes:

• Cleanroom training (Level 100/1000)

• Use of lithography, CVD, PVD, etching, and annealing systems

• Four-point probe, Hall effect, SEM, XRD, AFM demonstrations

• Real-world mini-fabrication process simulations

• IC packaging and reliability test labs

• HSC/12th-grade (Science or Technical stream)

• Diploma Engineers or equivalent with science background

• Fresh graduates from Physics, EEE, ECE, or Materials disciplines

• Industry workers seeking skill enhancement or upskilling

Eligibility Criteria

Diploma in Chip Design (VLSI & ASIC/FPGA Specialization)

Learning Outcomes

• Understand digital and analog IC design principles

• Write and simulate RTL (Register Transfer Level) code using VHDL/Verilog

• Perform synthesis, place & route, and static timing analysis

• Design and implement logic on FPGAs using Xilinx or Intel (Altera) platforms

• Work on RTL-to-GDSII flow for ASIC development

• Collaborate in semiconductor design projects with global standards

Course Duration

1 Year Full-Time or 18 Months Part-Time
(4 semesters including final project)

Course Overview

The Diploma in Chip Design is a specialized program that focuses on the theory, design, and hands-on implementation of integrated circuits (ICs), including Application-Specific Integrated Circuits (ASICs) and Field-Programmable Gate Arrays (FPGAs). The course is tailored for students, diploma engineers, and early-career professionals who aspire to build careers in semiconductor design, embedded systems, or digital electronics.

Covering the full design cycle—concept to simulation to layout—this diploma offers both academic foundations and industry-standard Electronic Design Automation (EDA) tool experience.

Course Modules

Career Opportunities After Completion

• FPGA/ASIC Design Engineer

• RTL Design Engineer

• Verification Engineer

• Physical Design/Layout Engineer

• Embedded Hardware Engineer

• VLSI R&D Intern or Trainee

• Opportunity to pursue advanced degrees in semiconductor design or microelectronics

Semester 1: Fundamentals of Chip Design

• Introduction to VLSI and SoC Architecture

• Digital Logic Design and Number Systems

• CMOS Technology and Device Behavior

• RTL Design with Verilog and VHDL

Semester 2: FPGA Design & Implementation

• FPGA Architecture and Applications

• HDL Coding for FPGAs

• Design Entry, Simulation & Synthesis

• Implementation using Xilinx Vivado / Intel Quartus

• On-board implementation & testing

Semester 3: ASIC Design & EDA Tools

• ASIC Design Flow (RTL to GDSII)

• Synthesis, Floorplanning, Placement & Routing

• Timing Analysis, DRC, LVS and Physical Verification

• Tools: Cadence, Synopsys, Mentor Graphics

Semester 4: Project & Industry Interface

• Chip Design Mini Project (FPGA/ASIC)

• IP Reuse and Low Power Design Techniques

• Industry Internship or Capstone Project

• Resume Development & Job Readiness

• Diploma in EEE/ECE/CS/ICT

• HSC graduates with foundational electronics knowledge

• Recent graduates or working professionals in electronics or computer engineering

• Familiarity with digital logic and programming is a plus

Eligibility Criteria

Diploma in Semiconductor Manufacturing

Learning Outcomes

By the end of this diploma, participants will be able to:

• Understand the physics and materials behind semiconductor devices

• Demonstrate knowledge of cleanroom operations and fabrication techniques

• Operate and maintain semiconductor processing and characterization equipment

• Interpret process flows and quality control standards used in fabrication

• Apply packaging and testing methods for integrated circuit (IC) devices

• Collaborate effectively in production, R&D, or QA environments

Course Duration

1 Year (Full-time) or 2 Years (Part-time/Evening)
Includes 4 semesters or modules with academic + practical components

Course Overview

The Diploma in Semiconductor Technology is a structured, hands-on program designed to equip students with the technical knowledge, practical skills, and industry exposure required to excel in the global semiconductor ecosystem. Covering end-to-end processes—from materials science and device physics to fabrication, testing, and packaging—this diploma program serves as a launchpad for careers in semiconductor manufacturing, R&D, equipment maintenance, and quality assurance.

Through classroom instruction, laboratory practice, and industry-relevant projects, learners gain a solid foundation to meet the growing demand for skilled semiconductor professionals in Bangladesh and worldwide.

Course Modules

Career Opportunities After Completion

• Semiconductor Fabrication Technician

• Cleanroom Process Operator

• Equipment Maintenance Engineer

• QA/QC Technician in Electronics Manufacturing

• Test & Packaging Assistant

• Entry-level roles in OSAT (Outsourced Semiconductor Assembly and Test) companies

• Pathway to Bachelor's degrees in Semiconductor, EEE, or Materials Science

Semester 1: Introduction & Foundation

• Basics of Electronics and Semiconductor Physics

• Materials Science for Semiconductors

• Cleanroom Protocols and Safety

• Introduction to Semiconductor Devices (Diodes, BJTs, MOSFETs)

Semester 2: Fabrication & Processing

• Crystal Growth, Wafer Preparation, and Doping

• Photolithography, Etching, Oxidation & Deposition

• Semiconductor Process Flow and Yield Optimization

• Introduction to Process Simulation Tools

Semester 3: Characterization & Packaging

• Electrical, Optical, and Structural Characterization Techniques

• Reliability and Failure Analysis

• Semiconductor Packaging Technologies (Flip-Chip, WLCSP, etc.)

• Thermal and Mechanical Management in Packaging

Semester 4: Industry Application & Project

• Semiconductor Equipment Operation & Maintenance

• Introduction to IC Design Tools (EDA, Layout basics)

• Industrial Attachment / Internship / Capstone Project

• Entrepreneurship and Innovation in Semiconductor Sector

🛠️ Laboratory/Practical Training Includes:

• Cleanroom training (Level 100/1000)

• Use of lithography, CVD, PVD, etching, and annealing systems

• Four-point probe, Hall effect, SEM, XRD, AFM demonstrations

• Real-world mini-fabrication process simulations

• IC packaging and reliability test labs

• HSC/12th-grade (Science or Technical stream)

• Diploma Engineers or equivalent with science background

• Fresh graduates from Physics, EEE, ECE, or Materials disciplines

• Industry workers seeking skill enhancement or upskilling

Eligibility Criteria

Diploma in Engineering (Microelectronics & Semiconductor Technology)

Learning Outcomes

By the end of this diploma, participants will be able to:

• Understand the physics and materials behind semiconductor devices

• Demonstrate knowledge of cleanroom operations and fabrication techniques

• Operate and maintain semiconductor processing and characterization equipment

• Interpret process flows and quality control standards used in fabrication

• Apply packaging and testing methods for integrated circuit (IC) devices

• Collaborate effectively in production, R&D, or QA environments

Course Duration

1 Year (Full-time) or 2 Years (Part-time/Evening)
Includes 4 semesters or modules with academic + practical components

Course Overview

The Diploma in Semiconductor Technology is a structured, hands-on program designed to equip students with the technical knowledge, practical skills, and industry exposure required to excel in the global semiconductor ecosystem. Covering end-to-end processes—from materials science and device physics to fabrication, testing, and packaging—this diploma program serves as a launchpad for careers in semiconductor manufacturing, R&D, equipment maintenance, and quality assurance.

Through classroom instruction, laboratory practice, and industry-relevant projects, learners gain a solid foundation to meet the growing demand for skilled semiconductor professionals in Bangladesh and worldwide.

Course Modules

Career Opportunities After Completion

• Semiconductor Fabrication Technician

• Cleanroom Process Operator

• Equipment Maintenance Engineer

• QA/QC Technician in Electronics Manufacturing

• Test & Packaging Assistant

• Entry-level roles in OSAT (Outsourced Semiconductor Assembly and Test) companies

• Pathway to Bachelor's degrees in Semiconductor, EEE, or Materials Science

Semester 1: Introduction & Foundation

• Basics of Electronics and Semiconductor Physics

• Materials Science for Semiconductors

• Cleanroom Protocols and Safety

• Introduction to Semiconductor Devices (Diodes, BJTs, MOSFETs)

Semester 2: Fabrication & Processing

• Crystal Growth, Wafer Preparation, and Doping

• Photolithography, Etching, Oxidation & Deposition

• Semiconductor Process Flow and Yield Optimization

• Introduction to Process Simulation Tools

Semester 3: Characterization & Packaging

• Electrical, Optical, and Structural Characterization Techniques

• Reliability and Failure Analysis

• Semiconductor Packaging Technologies (Flip-Chip, WLCSP, etc.)

• Thermal and Mechanical Management in Packaging

Semester 4: Industry Application & Project

• Semiconductor Equipment Operation & Maintenance

• Introduction to IC Design Tools (EDA, Layout basics)

• Industrial Attachment / Internship / Capstone Project

• Entrepreneurship and Innovation in Semiconductor Sector

🛠️ Laboratory/Practical Training Includes:

• Cleanroom training (Level 100/1000)

• Use of lithography, CVD, PVD, etching, and annealing systems

• Four-point probe, Hall effect, SEM, XRD, AFM demonstrations

• Real-world mini-fabrication process simulations

• IC packaging and reliability test labs

• HSC/12th-grade (Science or Technical stream)

• Diploma Engineers or equivalent with science background

• Fresh graduates from Physics, EEE, ECE, or Materials disciplines

• Industry workers seeking skill enhancement or upskilling

Eligibility Criteria

Diploma in Semiconductor Testing

Learning Outcomes

By the end of this diploma, participants will be able to:

• Understand the physics and materials behind semiconductor devices

• Demonstrate knowledge of cleanroom operations and fabrication techniques

• Operate and maintain semiconductor processing and characterization equipment

• Interpret process flows and quality control standards used in fabrication

• Apply packaging and testing methods for integrated circuit (IC) devices

• Collaborate effectively in production, R&D, or QA environments

Course Duration

1 Year (Full-time) or 2 Years (Part-time/Evening)
Includes 4 semesters or modules with academic + practical components

Course Overview

The Diploma in Semiconductor Technology is a structured, hands-on program designed to equip students with the technical knowledge, practical skills, and industry exposure required to excel in the global semiconductor ecosystem. Covering end-to-end processes—from materials science and device physics to fabrication, testing, and packaging—this diploma program serves as a launchpad for careers in semiconductor manufacturing, R&D, equipment maintenance, and quality assurance.

Through classroom instruction, laboratory practice, and industry-relevant projects, learners gain a solid foundation to meet the growing demand for skilled semiconductor professionals in Bangladesh and worldwide.

Course Modules

Career Opportunities After Completion

• Semiconductor Fabrication Technician

• Cleanroom Process Operator

• Equipment Maintenance Engineer

• QA/QC Technician in Electronics Manufacturing

• Test & Packaging Assistant

• Entry-level roles in OSAT (Outsourced Semiconductor Assembly and Test) companies

• Pathway to Bachelor's degrees in Semiconductor, EEE, or Materials Science

Semester 1: Introduction & Foundation

• Basics of Electronics and Semiconductor Physics

• Materials Science for Semiconductors

• Cleanroom Protocols and Safety

• Introduction to Semiconductor Devices (Diodes, BJTs, MOSFETs)

Semester 2: Fabrication & Processing

• Crystal Growth, Wafer Preparation, and Doping

• Photolithography, Etching, Oxidation & Deposition

• Semiconductor Process Flow and Yield Optimization

• Introduction to Process Simulation Tools

Semester 3: Characterization & Packaging

• Electrical, Optical, and Structural Characterization Techniques

• Reliability and Failure Analysis

• Semiconductor Packaging Technologies (Flip-Chip, WLCSP, etc.)

• Thermal and Mechanical Management in Packaging

Semester 4: Industry Application & Project

• Semiconductor Equipment Operation & Maintenance

• Introduction to IC Design Tools (EDA, Layout basics)

• Industrial Attachment / Internship / Capstone Project

• Entrepreneurship and Innovation in Semiconductor Sector

🛠️ Laboratory/Practical Training Includes:

• Cleanroom training (Level 100/1000)

• Use of lithography, CVD, PVD, etching, and annealing systems

• Four-point probe, Hall effect, SEM, XRD, AFM demonstrations

• Real-world mini-fabrication process simulations

• IC packaging and reliability test labs

• HSC/12th-grade (Science or Technical stream)

• Diploma Engineers or equivalent with science background

• Fresh graduates from Physics, EEE, ECE, or Materials disciplines

• Industry workers seeking skill enhancement or upskilling

Eligibility Criteria