Electronic and Computer Engineering (joint programme)

Undergraduate Entry Requirements

Application Fee: € 55

Academic Qualifications: For admission to undergraduate programs at Trinity College Dublin, international students are required to have achieved a minimum academic score of 80-85% or above in their previous academic qualifications.

English Language Proficiency: 

• IELTS: Overall score of 6.0 or 6.5, with no section below 5.5.
• TOEFL iBT: Overall score of 90, with no section score below 20.
• PTE Academic: Overall score of 63, with a minimum of 59 in each section.
• Duolingo English Test (DET): Overall score of 120, with a minimum of 105.

Students must provide:

• academic marksheets & transcripts
• letters of recommendation
• a personal statement - SOP
• passport
• other supporting documents as required by the university.

It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.

Trinity College Dublin offers an array of scholarships to attract and support international students seeking to pursue undergraduate and postgraduate studies. These scholarships aim to recognize academic excellence, promote diversity, and provide financial assistance to talented individuals from around the world.

Trinity Global Graduate Award: This award provides financial assistance to high-achieving international students applying for postgraduate programs. It covers full tuition fees for successful applicants, ensuring access to Trinity's exceptional academic offerings.

Trinity College Dublin Scholarships: These scholarships are available for both undergraduate and postgraduate international students based on academic merit and may cover partial tuition fees or provide stipends to support living expenses.

Government and External Scholarships: TCD facilitates numerous external scholarship programs offered by governments, foundations, and organizations worldwide. These scholarships vary in criteria and scope, providing opportunities for international students across different academic disciplines.

Specific Program Scholarships: Certain academic departments or faculties within Trinity College Dublin may offer scholarships tailored to specific fields of study or research areas. These scholarships aim to attract exceptional talent and encourage students to pursue specialized programs.

Sports Scholarships: TCD also recognizes athletic excellence by offering scholarships to international students with outstanding sports achievements. These scholarships support student-athletes in balancing their academic pursuits with sports participation.

Graduates of Trinity College Dublin's joint program in Electronic and Computer Engineering are in high demand across various industries, equipped with a unique blend of skills in electronics, computer science, and engineering. With their interdisciplinary expertise, graduates are well-positioned for diverse and lucrative career opportunities in technology companies, telecommunications firms, semiconductor manufacturers, research institutions, and beyond. 

1. Electronics Engineer: Many graduates pursue careers as electronics engineers, designing, developing, and testing electronic components and systems for various applications. They work in industries such as telecommunications, aerospace, automotive, and consumer electronics, designing circuits, debugging hardware, and optimizing performance to meet technical specifications and regulatory requirements.

2. Software Engineer: Graduates may specialize in software engineering roles, developing software applications, firmware, and embedded systems for electronic devices and computing platforms. They use programming languages such as C, C++, Java, or Python to write code, debug software, and optimize algorithms, collaborating with hardware engineers to integrate software with hardware components and ensure compatibility and performance.

3. Hardware Engineer: With their expertise in electronic design and hardware development, graduates may work as hardware engineers, designing and implementing electronic systems, integrated circuits, and semiconductor devices. They use computer-aided design (CAD) tools, simulation software, and prototyping techniques to design circuits, analyze performance, and test functionality, ensuring that hardware meets design specifications and performance targets.

4. Systems Engineer: Graduates may pursue careers as systems engineers, focusing on the design, integration, and optimization of complex systems that combine electronic hardware and software components. They analyze system requirements, develop system architectures, and oversee the integration of subsystems, ensuring that systems meet performance, reliability, and safety requirements for specific applications such as telecommunications networks, autonomous vehicles, or medical devices.

5. Telecommunications Engineer: With the growing demand for connectivity and communication technologies, graduates may specialize in telecommunications engineering roles, designing and implementing communication systems, networks, and protocols. They work for telecommunications companies, internet service providers, or network equipment manufacturers, designing network infrastructure, optimizing network performance, and troubleshooting communication issues to ensure reliable and efficient connectivity for users.

6. Robotics Engineer: Graduates interested in robotics and automation may pursue careers as robotics engineers, designing and developing robotic systems for industrial, medical, or consumer applications. They design robotic mechanisms, develop control algorithms, and integrate sensors and actuators to enable robots to perform tasks autonomously or collaboratively with humans, contributing to advancements in manufacturing, healthcare, agriculture, and other fields.

7. Researcher/Scientist: Graduates interested in advancing the state-of-the-art in electronics and computing may pursue careers in research or academia, working for research institutions, universities, or government agencies. They conduct research on emerging technologies, explore new materials and devices, and publish scientific papers, contributing to the development of next-generation electronic and computing systems and advancing the frontiers of knowledge in the field.

8. Entrepreneur/Startup Founder: Some graduates may choose to start their own technology companies or ventures, leveraging their expertise in electronics and computing to develop innovative products and solutions. They identify market opportunities, raise funding, and build teams to commercialize technology innovations, addressing unmet needs and disrupting traditional industries with cutting-edge electronic and computing technologies.