The Most Technologically Advanced Universities

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Updated December 22, 2022

Technologically advanced universities serve students in many ways. Our ranking discusses these benefits and which top schools offer them.

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Universities dedicated to innovation and global success make for technologically advanced institutions. If you're on the hunt for the best places to pursue an academic degree and enjoy the benefits of advanced technology, take a look at our ranking below.

Technological advancement is more than science, technology, engineering, and math (STEM) courses and degree programs. It relies on scientific expansion, technologies that support student engagement, and professors committed to advancing their field of study. Technologically advanced schools actively improve research methods, enhance communications among students and staff, and engage in opportunities for student scholarship on a global scale.

Continuous innovation marks a university as an advanced technological institution. As the descriptions below point out, engaging with the most high-tech equipment is just as important for universities as evolving to meet contemporary student needs.

Uncommon Features of Advanced Technology in Colleges

Advanced technology provides students with access to new software and hardware, developments in scientific research, and global connections that enhance scientific progress. Some of the most technologically advanced universities offer features that stand out from other universities.

Technologically advanced software, such as digital textbooks, improve access to course materials and lowers costs for students.

Scientific research and connection to international scholarship provides students and faculty with strong advancement opportunities. The most technologically advanced institutions, as noted in the descriptions below, provide state-of-the-art research facilities that welcome worldclass specialists to guide and mentor their students.

Technologically advanced software, such as digital textbooks, improve access to course materials and lowers costs for students. Indiana University, Arizona State University, and the University of Washington incorporate some of the most engaging, but uncommon, technological features on college campuses.

  • Makerspaces: Makerspaces encourage students to collaborate with peers and faculty on technological projects. With access to contemporary tech features, a makerspace can provide platforms for competition that inspire technological progress.
  • Digital Textbooks: Digital textbooks allow students access to critical materials without needing large, and often heavy, books. Digital textbooks carry cost-reduction benefits for students as well.
  • Degree Matching Gaming System: Arizona State University's me3 gaming system walks students through critical career-building skills, matching them with degree programs that align with their interests. The platform connects students to the resources needed to begin their college experience.

How High-Tech Colleges Improve the Student Experience

Advanced technologies allow students to engage in a student-centered approach to learning. Colleges and universities that provide access to engage with these technologies offer their students a world of connection, inspiration, and a leg up upon entering the job market.

Student access to classroom technology fosters a stronger sense of self worth and motivation. Feeling a sense of connection to the real world allows students to build confidence in their abilities to engage in professional settings upon graduation.

High-tech colleges prepare students for professional opportunities, making it easier for them to enter workplace environments, according to research from Apple. In addition to feeling more confident, students develop the skills to use new technologies applicable to various employment opportunities.

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What Areas of Study Benefit From Schools With the Best Tech?

High-tech schools provide access to student learning opportunities across many areas of study. Most notably, computer science and information technology fields require a level of technical education and technological connection that students can develop at technologically advanced universities.

Universities' research facilities offer opportunities to investigate new technologies and their effects in various environments. Schools with a wealth of research centers across specializations such as healthcare, artistic development, and applied sciences provide tools for student success.

The perks of advanced technology apply to those studying non-STEM fields, too. Today, all industries use technology to support their growth and development. Whether artistic, historic, or scientific, degree programs benefit immensely from technological advancements.

Are Universities the Only Schools With Advanced Technology?

In addition to universities, nontraditional institutions provide access to advanced technology. Some nontraditional educational platforms with high-tech offerings include bootcamps, community colleges, and solo postsecondary courses.

Bootcamps present short-term, intensive coding courses. Bootcamp graduates can apply their knowledge in computing, cybersecurity, and other information fields. Those interested in accessing this type of technological education without committing to a two- or four-year program may consider bootcamps.

Community colleges offer individual, nondegree courses, plus on-campus tech features. Regardless of whether they are pursuing a degree, community college students can access advanced technologies through campus resources like tech labs and faculty mentorships.

Frequently Asked Questions

Are the top tech colleges expensive?

Tuition expenses vary among the top tech colleges. Private institutions tend to charge higher tuition rates, and many state universities offer lower tuition costs. Most top tech universities offer tuition assistance.

Which one of the best tech colleges is the hardest to get into?

For its class of 2024, California Institute of Technology accepted only about 3% of applicants, making this one of the hardest technologically advanced colleges to get into. Caltech's undergraduate population is fewer than 1,000 students.

Do any of the best technology colleges have a high acceptance rate?

Many of the best technology colleges accept high rates of students into its programs. State universities with multiple campuses tend to offer higher acceptance rates than smaller institutions.

Should I go to college for a computer science degree?

A computer science degree provides the education and credentials necessary to enter the tech industry. Consider pursuing a computer science degree if you want to study advanced technologies.

What are the most technologically advanced cities?

Some of the most technologically advanced cities in the United States are also home to high-rated colleges. New York City, Los Angeles, and Boston offer significant technological advancements for degree- and career-seekers.


Top 30 Technologically Advanced Universities

The most technologically advanced universities provide students with access to top-notch STEM programs as part of a robust academic environment. Consistent access to research, innovation, and leadership sets the top 30 universities apart from the rest.

The methodology used to assess the most technologically advanced universities includes point distribution according to the categories described below.

Research Centers and Institutions: (2 points) Research centers and institutions provide students with in-depth opportunities to investigate and challenge the foundations of technological advancement.

Nobel Prize Winners: (3 points) University-affiliated Nobel Laureates in physics, chemistry, physiology, economic sciences, and medicine provide innovative research and mentorship opportunities.

National and International Awards: These four prestigious awards highlight excellence and advancement in technological fields.

  • Campus Technology Impact Awards (1 point)
  • Computing Research Association Awards (1 point)
  • World Technology Awards (2 points)
  • Millennium Technology Prize (3 points)

National Memberships: These academies offer membership for technological innovation, major research developments, and leadership.

  • National Academies of Sciences, Engineering, and Medicine
    • 1-9 faculty members (1 point)
    • 10+ faculty members (2 points)
  • National Academy of Inventors
    • University membership (2 points)

Utility Patents: Universities with at least 25 utility patents, or inventions that improve upon previous ideas, receive the following number of points:

  • 25-50 utility patents (1 point)
  • 51-99 utility patents (2 points)
  • 100-200 utility points (3 points)
  • 200+ utility points (4 points)
  • USC is one of the top research-focused universities in the country. With over 100 research centers and institutions on its campus, USC offers students extensive opportunities to take part in cutting-edge research and mentorships with world-renowned faculty. Two Nobel Laureates and multiple professors in technologically advanced organizations give students access to resources. USC's computer science and STEM programs build a foundation for ongoing technological advancement opportunities.
  • This institute of technology is among the best and most advanced in the country. Caltech has historically employed Nobel Prize winners in technological fields, in addition to a Millenium prize winner. The globally connected institution gives students access to internationally recognized scientific research, along with mentorship opportunities in specialized degree programs.
  • In New York City, Columbia University stands out as a technologically advanced institution worth noting. Students at Columbia encounter countless opportunities to patent new ideas into sustainable resources for society development. With a research platform of over 80 labs, centers, and networks, Columbia provides hands-on investigation opportunities for students to develop skills in engineering and applied sciences.
  • UW offers nearly 100 on-campus research opportunities related to technological development. Students can obtain degrees in UW's award-winning engineering programs with the backing of international research. UW won the most recent World Technology award and two awards in computing research, giving the school prestige as a front-runner in technological studies and advancement. Its steady stream of utility patents highlights an ability to develop inventive strategies that meet scientific and societal needs.
  • OSU comes in near the top of the most technologically advanced universities due in large part to its dynamic research programs. Offering over 100 formal research opportunities, most focused on technological investigation, OSU leads students through internships and research programs that produce developments in many fields. Based on creative inquiry, OSU's research platform supports innovation and discovery and produces patented ideas across scientific and technological fields.
  • Technologically innovative classrooms and research centers provide access to a global network of inquiry and discovery.
  • Nine Nobel Prize winners in technologically related fields and membership to the National Academy of Inventors highlight Yale's connection to advancement.
  • Renowned professors bring mentorship opportunities to students within degree programs such as computer science and economics.
  • Led by Nobel Laureates and renowned scholars, Cornell's scientific discovery programs and technological developments make profound societal impacts.
  • Laboratories and tech centers on campus offer research opportunities for students in computing, information science, engineering, and other STEM fields.
  • Undergraduate students benefit from networking opportunities with scholars in Cornell's engineering and science programs.
  • Rutgers, The State University of New Jersey, prides itself on prestigious research capabilities and its mission as a public institution.
  • With one technology-related Nobel Laureate affiliated with the university, Rutgers boasts technological advancement through global innovation.
  • Multiple campuses and hundreds of degree programs allow students to select an academic path supported by industry leaders.
  • Membership in the National Academy of Inventors highlights Indiana University's connection to advancement and innovation.
  • With nine campuses across the state, IU provides robust programming in the fields of tech and scientific development.
  • Diversity plays a significant role in IU's programming, academic supports, and community engagement, making it a leader in equitable opportunity.
  • Robust faculty association with the National Academies of Sciences, Engineering, and Medicine and university membership in the National Academy of Inventors demonstrates Purdue's commitment to innovation.
  • On-campus research and partnerships around the world support Purdue's efforts to provide students with the most technologically advanced college experience available.
  • The honors programs at Purdue gives students opportunities to engage in world-class research and scholarship in STEM fields and beyond.
  • Initiatives in entrepreneurship and innovation put students at the forefront of U-M's technological advancement.
  • U-M's large faculty membership in the National Academies of Sciences, Engineering, and Medicine exemplifies the desire to bring innovation into the classroom.
  • The school's global partners in health and medicine and robust tuition assistance offer students incentives to attend U-M, attracting a diverse population.
  • UCI has one of the highest numbers of utility patents in the country, highlighting its active engagement in advancing technology.
  • UCI's dynamic research program brings innovative technologies to improve on-campus tools and programs and enhance community partnerships.
  • A strong alumni network ensures that students receive mentorship opportunities, tuition scholarships, and employment in expanding industries.
  • UNC offers students a network of colleges within its university system, providing opportunities for research and study across academic fields.
  • Its global initiatives connect students with faculty, researchers, and the community, providing technological advancements back to the UNC network.
  • UNC steadily earns patents that improve technology beyond its campuses, maintaining success as an advanced institution for research and development.
  • Berkeley holds one of the highest patent counts of all universities in the country, demonstrating success in technological innovation and advancement.
  • Berkeley won two computing research awards, boasts seven Nobel Laureates in science and technology, and holds membership in the National Academy of Inventors.
  • Its on-campus technology labs, support systems, and degree programs set Berkeley apart as a leader among many other universities.
  • As members of the National Academy of Inventors, and with a plethora of faculty in the National Academies of Science, Engineering, and Medicine, Duke showcases technological advancement through renowned scholarship.
  • Duke's learning innovation team ensures that on-campus and online technologies, research, and faculty development are state of the art.
  • Research and innovation are front and center at Duke, leading the way for campus improvements, global initiatives, and funding assets.
  • With over 100 technological patents on the market and university membership in the National Academy of Inventors, Penn is one of the top research institutions in medicine and science.
  • Penn's undergraduate, graduate, and online learning programs host prestigious faculty and continuous research opportunities that enhance the university experience.
  • The bachelor's in engineering degree, a flagship program at Penn, offers some of the most technologically advanced learning opportunities in the country.
  • Over 100 patents for technological improvements and three Nobel Prize winners holds UT in esteem among the most technologically advanced universities.
  • In addition to a large faculty membership in the National Academies of Science, Engineering, and Medicine, UT boasts at least 70 research institutions focusing on technological advancements.
  • The UT system includes five medical campuses and eight academic institutions where students, researchers, and professors achieve scholarship and innovation.
  • ASU's membership in innovative and prestigious academies identifies it as a university with a high technological infrastructure.
  • Accredited by the Higher Learning Commission, ASU built a degree program gaming system to help students identify programs of study that match their interests and goals.
  • With over 100 accelerated and concurrent degree programs, the institution relies on its dynamic online learning platforms to prepare students for an evolving employment industry.
  • The University of Florida's placement as a technologically advanced school begins with innovative classroom designs and uses of adaptive learning devices.
  • Through UF's innovation program, research discoveries and business developments boost local and state economies.
  • UF's honors program offers students over 100 classes directed at developing a diverse group of scholars and leaders.
  • Located in College Station, Texas A&M prides itself on research and leadership development of students taking part in over 100 undergraduate degree programs.
  • Texas A&M works with community resources to share its research and innovation with the public, further enhancing advancement outside university walls.
  • Research at Texas A&M roots itself in problem-solving and insightful developments that create change, operating from over 70 technologically connected research centers and institutions.
  • As a private and world renowned institution, MIT focuses on the development and use of technology across all industrial sectors.
  • MIT boasts over 20 Nobel Prize winners, the development of 200+ patents each year, and winners of three out of four technological awards used in this methodology.
  • Its 30 departments yield graduate, undergraduate, and postgraduate students who make technological impacts on the global stage.
  • Harvard holds the most Nobel Prize winners of any institution on our list of most technologically advanced universities.
  • As a computing research award winner, Harvard continues to excel in technological innovations.
  • Harvard's database of free online courses highlights a dedication to sharing knowledge across the globe. Likewise, the school's over 100 patents indicate its ability to create innovative products.
  • Rice, located in Houston, Texas, holds membership in the National Academy of Inventors and offers a process for students to submit inventions throughout their academic terms.
  • With over 70 research centers and institutions dedicated to STEM related discovery and its center for entrepreneurship, Rice showcases a commitment to innovation.
  • Technological advancement at Rice expands beyond the classroom walls and into the community through research outreach and an emphasis on societal connection.
  • BU, home to over 60 research centers and institutions focusing on STEM disciplines, provides innovative practices for a rigorous student experience.
  • With 300+ degree programs, BU offers students variety when choosing a learning path that suits their needs.
  • The technology department at BU connects students to patent applications and invention marketing as a way to advance developments.
  • UW develops over 100 patents each year and has membership in the National Academy of Inventors.
  • Through a dynamic research program and internships across all disciplines, UW offers its students opportunities to enhance their technological understandings in diverse ways.
  • UW values public service with the goal of improving lives beyond its university walls through volunteerism and community outreach.
  • With over 50 STEM-related research centers and nearly 100 certified patents, Illinois' focus on technological advancement is evident.
  • Four Nobel Prize winners affiliate with the university, providing a connection to elite scholarship and innovative opportunities.
  • The honors program at U of I offers academic distinction and international scholarship opportunities.
  • Princeton, an Ivy League university, hosts students from around the world across hundreds of degree programs.
  • The engineering and applied sciences programs at Princeton connect researchers and scholars with university students at over 30 research centers across campus.
  • Fifteen Nobel Prize winners highlight the diversity of academic scholars affiliated with the university.
  • Stanford's dedication to innovation, backed by its global initiatives, produces award-winning technologies.
  • With 24 Nobel Prize winners and two World Technology awards, Stanford excels in scholarship excellence.
  • A focus on science and technology stands out with more than 200 patents and over 50 acclaimed degree programs.
  • Membership in the National Academy of Inventors points to the U's technological dedication.
  • The U's information technology system allows students regular access to innovative resources and growing network services.
  • With over 2,000 international students from 200+ countries, the U connects its learners to a global network of advancement opportunities.
  • With four affiliated Nobel Laureates and membership in the National Academy of Inventors, NYU leans into robust technological studies across all departments.
  • NYU's prominent study abroad program offers undergraduate and graduate students dozens of options for global scholarship, including its international honors program.
  • Over 400 degree programs allow access to academic and research opportunities that fit their learning goals.

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