Ph.D. in Computing and Information Sciences

A research degree designed to produce independent scholars, cutting-edge researchers, and well-prepared educators, you'll benefit from world-class faculty, diverse academic offerings, and modern facilities as you identify and research challenges within and beyond computing.

The Ph.D. in computing and information sciences is a research degree designed to produce independent scholars, cutting-edge researchers, and well-prepared educators. You will conduct both foundational and applied research to address diverse and important challenges within and beyond computing, and benefit from world-class faculty, diverse academic offerings, and modern facilities. Our graduates are poised to excel in both computing and interdisciplinary environments in academia, government, and industry.

The doctoral program in computing and information sciences highlights two of the most unique characteristics of the Golisano College for Computing and Information Sciences: its breadth of program offerings and its scholarly focus on discovering solutions to real-world problems by balancing theory and practice.

The program focuses on the theoretical and practical aspects of cyberinfrastructure as applied to specific problems across multiple domains. It is a blend of intra-disciplinary computing knowledge areas and inter-disciplinary domain areas.

Cyberinfrastructure

Cyberinfrastructure (CI) is the comprehensive integration of hardware, data, networks, and digitally-enabled sensors to provide secure, efficient, reliable, accessible, usable, and interoperable suites of software and middleware services and tools. The doctorate program plays a leadership role in CI research by providing human-centered tools for the science and engineering communities. These tools and services focus on such areas as high-performance computing, data analysis and visualization, cyber-services and virtual environments, and learning and knowledge management.

Intra-disciplinary knowledge

There are three intra-disciplinary computing knowledge areas: infrastructure, interaction, and informatics.

Infrastructure comprises aspects related to hardware, software (both system software and applications), communications technology, and their integration with computing systems through applications. The focus is on the best organization of these elements to provide optimal architectural solutions. On the hardware side, it includes system-level design (e.g., for system-on-a-chip solutions) and their building block components. On the software side it covers all aspects of systems and applications software development, including specification and design languages and standards; validation and prototyping, and multi-dimensional Quality-of-Service management; software product lines, model-driven architectures, component-based development, and domain-specific languages; and product estimation, tracking, and oversight. The communications subtopic includes sensor networks and protocols; active, wireless, mobile, configurable, and high-speed networks; and network security and privacy, quality of service, reliability, service discovery, and integration, and inter-networking across heterogeneous networks. At the system level, there are issues related to conformance and certification; system dependability, fault tolerance, verifiable adaptability, and reconfigurable systems; real-time, self-adaptive, self-organizing, autonomic systems. Some of the specialties available in this area are networks and security, digital systems and VLSI, software design and productivity, and systems software.

Interaction refers to topics related to the combined action of two or more entities (human or computational) that affect one another and work together when facilitated by technology. It encompasses several subtopics relating to how people and technology interact and interface. Several common threads weave through all of these areas, many of which rely heavily and build upon foundations in the social and behavioral sciences with an emphasis on understanding human and social/organizational phenomena. To some extent, these fields follow an engineering approach to the design of interactions in which solutions are based on rules and principles derived from research and practice but require analyses that go beyond the analytical approach. From this perspective, solutions can be measured and evaluated against goals and intended outcomes. However, while efficiency and effectiveness are often the watchwords of these fields in practice, this is also where science meets art in computing. Creative design and sensitivity to human needs and aesthetics are critical. Some of the specialties available in this area are human-computer interaction, computer-based instructional systems, and access technologies.

Informatics is the study of computational/algorithmic techniques applied to the management and understanding of data-intensive systems. It focuses on the capture, storage, processing, analysis, and interpretation of data. Topics include algorithms, complexity, and discovery informatics. Data storage and processing require investigation into tools and techniques for modeling, storage, and retrieval. Analysis and understanding require the development of tools and techniques for the symbolic modeling, simulation, and visualization of data. The increased complexity of managing vast amounts of data requires a better understanding of the fundamentals of computation. These fundamentals include complexity, theory to determine the inherent limits of computation, communication, cryptography, and the design and analysis of algorithms to obtain optimal solutions within the limits identified. Some of the specialties available in this area are core informatics, discovery informatics, and intelligent systems.

Interdisciplinary domains

The program focuses on domain-specific computing, or the interaction between computing and non-computing disciplines, in the areas of science, engineering, medicine, arts, humanities, and business. By incorporating domain-specific computing, the research conducted in this program applies computing and information science principles to the solution of problems in application domains that lie outside the scope of the traditional computing discipline. The research requirement incorporates fundamental concepts in cyberinfrastructure that are necessary for understanding the problems commonly encountered in advancing scientific discovery and product development in cross-disciplinary domains.

Highly ranked by most ranking organizations and with more than 80 graduate programs in high-paying, in-demand fields and scholarships, assistantships, and fellowships available, we invite you to take a closer look at RIT .

Don't be fooled by the word "technology" in our name. At RIT, you will discover a university of artists and designers on the one hand and scientists, engineers, and business leaders on the other – a collision of the right brain and the left brain.

RIT focuses on applied learning - a "hands-on" approach involving the direct application of skills, theories, and models.

We offer a high Return on Investment (ROI) in terms of starting salaries and lifetime earnings as well as job satisfaction and personal growth.

Flexible study options include online programs and the ability to work and study. Many of our graduate programs are collaborative and interdisciplinary, allowing you to benefit from and take advantage of the strengths of several of our colleges. Co-op (cooperative education) is a hallmark of RIT, and graduate students have the optional opportunity to spend one or more semesters employed in a full-time, paid position related to their academic program. Tuition is not charged while on co-op, and many students use co-op earnings to help finance their education.

International Students: With one of the largest lists of OPT-certified graduate programs of any US university, coupled with our strong reputation among US employers, RIT is one of the most successful in placing students into OPT.

We offer graduate programs in the following areas:

• Art, Design, and Architecture
• Business and Management
• Communications and Digital Media
• Computing and Information Sciences
• Engineering and Engineering Technology
• Environmental Studies and Sustainability
• Game Design and Development
• Health Professions and Medical Sciences
• Humanities, Social Sciences, and Education
• Photography, Film, and Animation
• Science and Math
• Undeclared and Individualized Study

More advantages of RIT include:

• Unmatched career preparation and work opportunities including a world-renowned cooperative education program that lets you gain valuable experience from and exposure to potential employers and earn money while not paying tuition. International students - RIT offers 50+ STEM-designated graduate programs to choose from, all of which are eligible for OPT extension.
• Excellent Return on Investment
  • 94.3% of our most recent graduate class are employed and the average starting salary for that class was $93,800.
• Strong reputation and rankings
  • ranked 105th among "National" US universities, 11th among top schools' co-op or internship programs and 48th among "best-value" schools in the latest US News rankings; a Money Magazine top-50 for adding value; Morning Consult places RIT in the top third of most trusted US universities.
• Equal opportunity for generous financial aid
  • last year we awarded $40 million in aid to 2,800 US and International graduate students
• Career-enhancing research opportunities with abundant funding and resources.
• Safe campus in an Ideal location just outside a thriving, accessible but not-too-big city - a community where racial and thought diversity is appreciated and celebrated.
• Flexibility to work and study and 8,000 on-campus student jobs available each year.
• Faculty who love to teach and mentor you and small class sizes that facilitate personalized education.
• State-of-the-art facilities on a campus recognized for innovation and sustainability.
• Diverse student population
  • 2,600 International students from 100 countries with resources and support to match.
• 140,000 well-connected alumni to help you network.

International Students : With one of the largest lists of OPT-certified graduate programs of any US university, coupled with our strong reputation among US employers, RIT is one of the most successful in placing students into OPT.

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