School: Kang Chiao International School-Linkou campus(JH)
    New Taipei City, N/A, Taiwan

5 students, ages 12~14 worked together to complete this CyberFair project on March 10, 2026. They have participated in CyberFair in the following year(s): 2025,2024,2023,2022,2021,2020

Classes and Teachers: Janet Gong, Leo Zhuang, Darius Lee, HUANG BO-HAN, CHEN LING-CHUN, LIN CHEN-EN, KUO YEN, FAN CHIANG, SHIH-CHI

E-Mail contact:

Our School's Web Site: http://https://web.kcislk.ntpc.edu.tw/

1. Description of Our Community

Our community is centered on our school, where learning, technology, and critical thinking meet every day. When you enter the campus, you see bright posters, project displays, and students’ work that show our energy and imagination. Our school is not only about classes — it is also about character, teamwork, and being good citizens. Like Taiwan’s role in the global semiconductor industry, our school connects ideas to something bigger. In class, students explore science, technology, engineering, and math. We learn that even small things, such as circuits and chips, can change our world. Each student contributes to group projects, science fairs, and class discussions. This teamwork reflects how Taiwan contributes chip design, manufacturing, and testing to support global technology. Our school also shows the idea of “unite.” Students from different backgrounds and with different interests come together to solve problems. Group experiments and research projects teach us how cooperation gives better results. By studying semiconductors for CyberFair, we see how Taiwan’s partnerships with global companies are like the teamwork we practice at school. We also care about responsibility. We talk about environmental challenges in technology, learn about sustainable innovations, and explore how the industry trains future workers. These lessons remind us that our generation helps shape the future. In short, our school is more than a place to study. It is a growing community where learning connects people—just as semiconductors connect ideas, people, and the world.

2. Summary of Our Project

Our project, Taiwan’s Semiconductors: The Lead to Future Technologies, explores how Taiwan’s semiconductor industry connects our daily lives to the global community. Chips are very small, but they power many devices we use every day: phones, laptops, AI systems, and medical tools. We wanted to learn how Taiwan’s chip design, manufacturing, packaging, and testing contribute to the world and how these industries unite companies and people through cooperation. To do this, we studied the full supply chain: upstream design, midstream wafer manufacturing, and downstream packaging and testing. We also conducted interviews with three industry professionals from materials, packaging & testing, and plastics research. Their explanations helped us see how each part of the industry works and depends on others. Our research found that Taiwan’s success comes from technology, government support, strong education, and tight cooperation across the supply chain. We also found major challenges, such as high energy and water needs, strict cleanroom rules, and the push for greener technologies. This topic matters because semiconductors are the base of modern technology and global innovation. Taiwan supplies many critical chips, so its industry affects world trade, security, and everyday life. With this CyberFair project, we hope to help others understand the hidden systems behind chips and show how teamwork and responsibility let this industry truly contribute to and unite the world.

3. Our Computer and Internet Access

A. Percentage of students using the Internet at home:more than 50%

B. Number of workstations with Internet access in the classroom:4-6

C. Connection speed used in the classroom:not sure

D. Number of years our classroom has been connected to the Internet:more than 6

E. Additional comments concerning your computer and/or Internet access (Optional):

In today’s digital age, internet access helps our team work more efficiently. We used Google Drive to share files, Google Meet for meetings, and Google Doc to edit together. More than 80% of team members used laptops, and most used personal networks after class for editing. The school network is fast (about 310 Mbps), but heavy use during class will slow the speed of the network. Overall, internet tools made it easier to collect data, conduct interviews online, and build our website.

4. Problems We Had To Overcome

Time and scheduling were our biggest problems. With six team members, it was hard to find times for meetings and interviews. To solve this, we used online messages, shared calendars, and recorded interviews so members could watch later. Another issue was writing good interview questions. At first, our questions were unclear because our research was still incomplete. We fixed this by reading more background articles, reviewing other interviews, and then rewriting the questions to be simpler and more focused. Technical challenges included limited access to equipment and occasional slow internet during school hours. We solved this by using personal devices or booking computer time after class, and we chose short online survey tools (Google forms) that work on phones. Finally, communicating with busy professionals was hard. Some experts had little time for interviews. We prepared each interview carefully, sent questions in advance, and stayed flexible with timing. In all cases, teamwork and patience helped us turn these problems into learning experiences.

5. Our Project Sound Bite

“Tiny chips, huge impact: our project shows how Taiwan’s semiconductor industry powers daily life and brings people, companies, and countries together through teamwork and innovation.”

6. How did your activities and research for this CyberFair Project support standards, required coursework and curriculum standards?

Our project connected learning across science, social studies, language arts, and technology classes. Science: We studied wafer processes, cleanroom needs, and materials. These topics deepened our understanding of physics, chemistry, and engineering. We applied scientific methods by forming questions, testing ideas, and analyzing expert answers. Social Studies / Economics: Research on Taiwan’s industry helped us learn about the global market, trade, and how government policy affects technology growth. We studied the history of science parks and how industry clusters support regional development. Language Arts: We practiced reading technical texts, writing summaries, preparing interview questions, and writing website content. Students improved writing, speaking, and citation skills used in class. Technology & Digital Literacy: Building the website and using online tools taught us responsible research, multimedia design, and safe publishing. We used Google Forms for surveys, video calls for interviews, and collaborative documents for editing. Overall, this project let us apply classroom standards to real problems. We learned how different subjects work together and developed research, teamwork, and digital skills that align with school curriculum goals.

1) What information tools & technologies did you used to complete your CyberFair project?

We used many tools and technologies to complete our CyberFair project. We worked on personal laptops and five classroom computers for research and writing. For online collaboration, we used Google Docs, Google Forms, Google Drive, and Google Meet to conduct interviews and share files. We used a website builder platform to publish our CyberFair pages and organize our content clearly. During interviews, we recorded conversations using phone recorders and one tape recorder. We also used digital cameras and online image editing tools to prepare photos for our website. Libraries and online articles provided important background information and reliable facts. In addition, we contacted experts through email and phone to request interviews and gather professional insights. These tools allowed us to research efficiently, stay organized, collaborate smoothly, record and transcribe interviews accurately, and present our final work in a clear and professional way.

2) In what ways did you act as "ambassadors" and spokespersons for your CyberFair project both on-line and in person.

Our team acted as ambassadors by sharing our research and inviting community participation. We contacted local professionals for interviews and thanked them publicly on our website. We made posters and sent emails to classmates asking them to complete our survey. We also shared our findings with teachers and parents to explain Taiwan’s role in global technology. Through these actions, we represented our school and explained complex topics in simple terms. Some professionals offered extra information or resources after the interviews. Our outreach showed that students can connect schools, industry, and the public through respectful and clear communication.

3) What has been the impact of your project on your community?

Our project raised awareness at school about how semiconductors affect daily life. Teachers used our website in class to show real-world applications of science and technology. Students who took our survey said they understood chip roles better after reading our pages. Parents and local professionals told us they appreciated clear explanations about the industry. Beyond school, the project built links with local companies and research centers. Our interviews and shared materials helped some classmates consider STEM careers. Overall, the project strengthened ties between our school and the local technology community and encouraged more students to learn about semiconductors.

4) How did your project involve other members of your community as helpers and volunteers?

Many people helped our team. Teachers guided our research and website building. Family members connected us to local professionals and helped schedule interviews. Industry experts from materials, packaging, and plastics gave time for interviews and answered our questions. Librarians and online resources provided background materials. We contacted helpers by email and in person, explained our goals, and prepared questions in advance. Their guidance made our research richer and more accurate. We thank all helpers and show their names on our website with permission.

5) Discoveries, Lessons and Surprises (Optional)

We discovered that semiconductors are more than tiny parts; they form a whole system of design, manufacture, materials, and logistics. We were surprised that packaging and transport (like FOUP and FOSB containers) are so important to product quality. We learned how much water and electricity fabs use and how companies try to recycle and use green energy. The biggest lesson was that modern technology depends on teamwork across many fields. This project showed us that science is not only about experiments but also about communication, planning, and responsibility.