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B.S. in Computer Engineering
Valparaiso, Indiana
INTAKE: Jan & Aug
Program Overview
The B.S. in Computer Engineering at Valparaiso University combines the principles of electrical engineering and computer science, providing students with a solid foundation in both hardware and software systems. This program prepares graduates to design, develop, and implement computer systems and software applications, equipping them with the skills needed to thrive in the rapidly evolving tech landscape. With a focus on practical application, students engage in hands-on projects and collaborative learning experiences that foster critical thinking and problem-solving abilities.
STEM-designated: Valparaiso University’s B.S. in Computer Engineering is classified as a STEM (Science, Technology, Engineering, and Mathematics) program, which reflects its rigorous curriculum and emphasis on technical skills. This designation not only enhances the academic credibility of the program but also provides students with opportunities for internships, scholarships, and enhanced career prospects in the tech industry, making it an attractive choice for aspiring engineers.
Curriculum: The curriculum for the B.S. in Computer Engineering is designed to provide a comprehensive education in both computer hardware and software. Core courses cover topics such as digital logic design, microprocessors, data structures, algorithms, and software engineering. Students also have the opportunity to select electives that align with their interests, such as embedded systems, computer networks, or artificial intelligence. The program includes laboratory work and projects that allow students to apply theoretical knowledge to real-world challenges.
Research Focus: Valparaiso University encourages students in the B.S. in Computer Engineering program to engage in research activities alongside faculty members. Research opportunities may include projects related to robotics, machine learning, cybersecurity, or computer systems design. This focus on research allows students to gain valuable experience and contributes to advancements in the field of computer engineering, preparing them for graduate studies or professional roles in research and development.
Industry Engagement: The B.S. in Computer Engineering program emphasizes industry engagement through partnerships with local tech companies and organizations. Students are encouraged to participate in internships and co-op programs, providing them with practical experience and networking opportunities. This industry connection enhances students' understanding of current trends and challenges in the field, ensuring they are well-prepared for their future careers.
Global Perspective: The program incorporates a global perspective by addressing how computer engineering impacts various cultures and societies. Students explore the ethical implications of technology, the importance of sustainable practices in engineering, and the role of engineers in addressing global challenges such as climate change and digital inequality. Valparaiso University also offers study abroad programs that allow students to gain international experience and insights into global engineering practices.
Location
Valparaiso, Indiana
Score
IELTS 6
Tuition Fee
USD 46940
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 70% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 75 or higher.
- PTE: Overall score of 56 or higher.
- DET (Duolingo English Test): Minimum score of 100.
The university offers various scholarships to support the educational endeavors of international students, recognizing their achievements and contributions.
Presidential Scholarships: These highly competitive scholarships are awarded to outstanding students based on academic merit, leadership potential, and a community service. Presidential Scholarships are renewable each year, provided the recipient maintains a strong academic standing.
Honors Scholarship: Valparaiso University provides the Honors Scholarship to students who have demonstrated exceptional academic abilities and a passion for intellectual exploration. Recipients are encouraged to engage in a challenging academic curriculum and contribute to the university's intellectual community.
Global Leadership Honors Program Scholarship: This scholarship targets students displaying strong leadership potential and a dedication to global issues. Recipients actively participate in leadership development programs and engage in global initiatives during their academic journey.
Martin Luther Award: Emphasizing diversity and social justice, the Martin Luther Award is presented to students fostering an inclusive and equitable community. Awardees actively contribute to creating a campus environment that values and respects differences.
Talent Scholarships: Recognizing exceptional talents in areas such as music, theatre, and art, Valparaiso University offers Talent Scholarships. These scholarships aim to encourage students to further develop their artistic skills and actively participate in the university's vibrant arts community.
Community/Campus Involvement Scholarships: Valparaiso University values students engaged in campus and community service. Scholarships are awarded to students who have demonstrated to making a positive impact through various service and leadership activities.
Graduates with a B.S. in Computer Engineering from Valparaiso University have a wide range of career opportunities across various sectors. Their comprehensive training in both hardware and software prepares them to tackle complex engineering challenges.
Software Engineer: Many graduates pursue careers as software engineers, designing, developing, and testing software applications for various platforms. They work in industries such as technology, finance, healthcare, and entertainment.
Hardware Engineer: Graduates may choose to specialize in hardware engineering, focusing on the design and development of computer systems, circuit boards, and other electronic components. They often work in industries that require advanced computing technology, such as telecommunications and robotics.
Systems Analyst: Systems analysts evaluate and improve computer systems for organizations. They analyze business needs and develop technology solutions to enhance efficiency and productivity, bridging the gap between technical teams and business stakeholders.
Network Engineer: With a strong understanding of computer networking, graduates can work as network engineers, responsible for designing, implementing, and maintaining computer networks. They ensure that systems are secure, reliable, and capable of meeting organizational demands.
Embedded Systems Engineer: Graduates may find opportunities in the embedded systems field, working on software and hardware integration for devices such as automobiles, medical devices, and consumer electronics. This role involves working closely with both hardware components and software applications.
Cybersecurity Specialist: As cybersecurity threats become more prevalent, graduates can enter the field of cybersecurity, focusing on protecting an organization’s networks and systems from attacks. This role involves risk assessment, implementing security measures, and responding to incidents.
Data Scientist: With skills in programming and analysis, graduates can become data scientists, utilizing large datasets to derive insights and inform business decisions. They often work with machine learning algorithms and data visualization tools.
Robotics Engineer: Graduates interested in automation and robotics can pursue careers in designing and developing robotic systems. They may work in manufacturing, healthcare, or research and development settings, contributing to innovations in automation technology.
Technical Consultant: Many graduates work as technical consultants, providing expertise to organizations on technology implementation, systems integration, and process improvements. This role often involves problem-solving and strategic planning.
Graduate Studies: Some graduates choose to further their education by pursuing advanced degrees in computer engineering or related fields. This can lead to specialized roles in research, academia, or leadership positions in industry.
