Doctorate Program in Computer Engineering in USA

Compare PhD Programs in Computer Engineering in USA 2017

Computer Engineering

A PhD or Doctor of Philosophy is a postgraduate academic degree awarded by universities. Once one attains a PhD he or she may often be referred to as a doctor.

In Computer Engineering, you will be exposed to the right skills in handling the devices and structuring quality techniques and algorithms in computers. Learn more and do effective research while on your doctorate program in fields such as Computer architecture and VLSI and FPGA, Robotics, automation, machine perception and sensing or Software engineering, Web development and computational sciences.

The United States of America is a large country in North America, often referred to as the "USA", the "US", the "United States", "America", or simply "the States". American colleges are funded by "tuition" charged to the student, which is often quite expensive, very commonly reaching into the tens of thousands of dollars per year.

Top Doctoral Programs in Computer Engineering in USA 2017

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Doctor of Philosophy in Computer Science (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus Full time 4 - 6 years September 2017 USA District of Columbia

Offered through the Department of Computer Science, the Ph.D. program in Computer Science is designed to equip students with excellent skills at the forefront of computing. Through research and teaching, the Department contributes to computing breakthroughs that are fueling advances in medicine, communications, transportation, security, and other areas vital to society and the world. [+]

Best Doctors of Philosophy in Computer Engineering in USA 2017. Program Overview Offered through the Department of Computer Science, the Ph.D. program in Computer Science is designed to equip students with excellent skills at the forefront of computing. Through research and teaching, the Department contributes to computing breakthroughs that are fueling advances in medicine, communications, transportation, security, and other areas vital to society and the world. The doctoral degree is based on coursework as well as research that leads to a dissertation. It is recommended that students interested in the doctoral degree contact the faculty whose interests best fit his/her interest. Areas of research focus center around these topics: computer security and information assurance, software engineering and systems, bioinformatics and biomedical computing, networking and mobile computing, pervasive computing and embedded systems, machine intelligence, robotics, and algorithms and theory. Courses focus in the following areas: Algorithms and theory Computer architecture, networks, parallel and distributed computing Computer security and information assurance Database and information retrieval systems Machine intelligence and cognition Multimedia, animation, graphics, and user interface Software engineering and systems The program is designed to prepare students for exciting and rewarding careers in information technology, medicine, film, business, government, and engineering. With the unique location of Washington, D.C., students have access one of the highest concentrations of high-tech companies in the country and federal institutes, including the National Institutes of Health (NIH), NASA, National Institute of Standards and Technology, and the Naval Research Laboratory. Doctor of Philosophy in Computer Science (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Other requirements: Course requirements: Students must take one course from each of the three areas: theory, systems, and applications. Students must also take one advanced topics course. For students without a prior master's degree, 15 credit hours may be taken outside of the department; for those with a prior master's degree, nine credit hours may be taken. Preliminary exam: Students must pass the exam within four semesters of starting the program Dissertation committee: Students are responsible for forming a dissertation committee comprised of three members in addition to the advisor and co-advisor(s). Dissertation proposal exam: Students must first pass the preliminary exam prior to the dissertation proposal exam. The student must then submit a written proposal for evaluation and undergo an oral exam. Peer-reviewed papers: Students are expected to have at least two or three conference or journal papers accepted for publication prior to the dissertation defense. Colloquium requirement: Students must attend a minimum of two seminars, workshops, or symposia sponsored by the department in order to fulfill this zero-credit requirement. Doctoral Degree Program Requirements Number of credit hours: For direct Ph.D. degree students: 54 credit hours (minimum of 18 credit hours of course work available for graduate credit and minimum of 12 credit hours of dissertation research credits (CSCI 8999)) For post-Master’s Ph.D. students: 18 credit hours of course work available for graduate credit and 12 credit hours of dissertation research credits (CSCI 8999) Specific course requirements: At least one course from each of the following three areas: 1) theory, 2) systems; and 3) applications. The purpose is to introduce students to the major methods of computer science research at the graduate level. Theory research involves constructing formal models of computation; validation is primarily by mathematical proof. Systems research involves improving computing infrastructure to make it faster, more reliable, more secure, etc.; validation is primarily empirical or analytical. Applied research involves using computers to solve problems of interest. Validation is primarily through demonstration that a method is effective in solving a problem. Theory: CSci 4314, 6212, 6213, 6311, 6312, 6331, 6341, 6362 Systems: CSci 6431, 6441, 6461, 6541 Applications: CSci 6351, 6364, 6365, 6443, 6448, 6511, 6521, 6525, 6527, 6554, 6555 At least one advanced topics course. CSci courses at the 8000 level with “Advanced” in the title satisfy this requirement. With approval of the student’s advisor, a CSci 6907 course may also satisfy this requirement. A maximum of 15 credits outside of the department for direct Ph.D. students; a maximum of 9 credits outside of the department for post-Master’s Ph.D. students. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in a relevant area from an accredited institution If applicant has obtained a master’s degree, a minimum grade point average of 3.5 (on a scale of 4.0) is required, as well as coursework in advanced software paradigms, computer architectures, design and analysis of algorithms. If applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). Completion of two math courses beyond pre-calculus Strong academic background that includes courses in structured programming language, discrete structures, and data structures [-]

Doctor of Philosophy in Computer Engineering (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus Full time 4 - 6 years September 2017 USA District of Columbia

The doctoral program in computer engineering is designed to involve students in cutting-edge research in the areas of computer architecture and high-performance computing, or microelectronics and VLSI systems. The research interests of the faculty in the computer architecture and high-performance computing area span computer architecture, parallel processing, cloud computing, and high-performance and grid computing. [+]

Program Overview The doctoral program in computer engineering is designed to involve students in cutting-edge research in the areas of computer architecture and high-performance computing, or microelectronics and VLSI systems. The research interests of the faculty in the computer architecture and high-performance computing area span computer architecture, parallel processing, cloud computing, and high-performance and grid computing. In the microelectronics and VLSI design area, the faculty's interests include the design and modeling of electronic and nanoelectronic devices and systems, microfluidic devices integrated with electronic devices, the design of MicroElectroMechanical Systems (MEMS) for sensors and for RF-MEMS devices, micro and nanoelectronic circuits with applications to sensors and biosensors, and techniques to develop CMOS Integrated sensors and their interface circuits using analog and digital circuits. Offered through the Department of Electrical and Computer Engineering, the Ph.D. in Computer Engineering prepares students to learn and apply sophisticated computer architecture and integrated circuit design techniques using industry-standard computer-aided design tools. Faculty and students work together to explore solutions for photonic computing; create state-of-the-art advances in high-performance computing; and improve the reliability of cloud computing. The program offers up-to-date knowledge and skills in the advances of computer systems architecture and networking, as well as the rapidly-growing use of superscalar microprocessors, real-time embedded systems, VLSI and ASIC design modules, digital signal processors, and networked computing platforms. The program offers a flexible schedule that includes courses in the late afternoon and evening, as well as the ability to choose a thesis or non-thesis degree option. Students choose from two areas of focus: Computer architecture and high-performance computing MEMS, electronics, and photonics (microelectronics and VLSI systems) Doctor of Philosophy in Computer Engineering (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Duration: 4-6 years Other requirements: ​Scholarship requirement: Doctoral students in the Computer Engineering program must have a minimum GPA of 3.4 at the time of graduation. Students must have a B or higher in all courses to count toward the degree. Seminar requirement: All doctoral students must present one departmental seminar, excluding the dissertation defense, prior to graduation. Colloquium requirement: All doctoral students must attend five seminars, workshops, or symposia sponsored by the department in order to fulfill this zero-credit requirement. Areas of focus Computer Architecture and High-Performance Computing Faculty in this area are involved in research on topics such as computer architecture, parallel processing, cloud computing, and high-performance and grid computing. MEMS, Electronics, and Photonics Faculty in this area are involved in research on topics such as the design and modeling of electronic and nanoelectronic devices and systems, microfluidic devices integrated with electronic devices, the design of MicroElectroMechanical Systems (MEMS) for sensors and for RF-MEMS devices, micro and nanoelectronic circuits with applications to sensors and biosensors, and techniques to develop CMOS Integrated sensors and their interface circuits using analog and digital circuits. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in a relevant area from an accredited institution If the applicant has obtained a master’s, a minimum grade point average of 3.4 (on a scale of 4.0) is required. If the applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). Identified one to three SEAS faculty members whose research interests most closely match their own and note this on the application form. A strong academic or relevant professional background pertinent to the field of study Demonstrated capacity for original research [-]

Doctor of Computer Engineering (D.C.E.)

Northwestern Polytechnic University
Campus Full time 5 years September 2017 USA Fremont

The DCE degree program is intended to develop the student’s ability in advanced academic study, practical research, and professional expertise in computer engineering. The learning shall not only lead to an understanding of complex modern computer engineering technology and systems but also develop the ability of innovative thinking and technology integration. [+]

Best Doctors of Philosophy in Computer Engineering in USA 2017. The DCE degree program is intended to develop the student’s ability in advanced academic study, practical research, and professional expertise in computer engineering. The learning shall not only lead to an understanding of complex modern computer engineering technology and systems but also develop the ability of innovative thinking and technology integration. Current research emphases are in the fields of IC design, SOC design and nano-domain system integration, intelligent and ubiquitous embedded systems development and applications, and the newly emerging green technology such as cloud computing, virtualization, and mobile technology and applications. Background Preparation Students admitted into the DCE degree program are required to have proper computer engineering background preparation for taking the graduate level coursework. The DCE Admissions Committee is responsible for making an evaluation of each applicant’s academic background to determine whether there are any deficiencies the applicant is required to clear. D.C.E. Curriculum A minimum of 96 semester units of graduate study beyond a bachelor’s degree are required for the DCE program. Among them, 84 units are required to be graduate coursework and a minimum of 12 units are in doctoral dissertation or comprehensive research project work. Courses at the 4xxG level in the program curriculum must be taken at NPU in order to earn graduate credits. The student must meet prerequisite requirements when taking any of the following courses. The Foundation Requirements are the first group of courses that the student is required to take. I. Foundation Requirements (12 units - First semester of study) (Fundamentals of embedded engineering, software design, network engineering fundamentals, and signal processing and simulation techniques) CE450G Fundamentals of Embedded Engineering (3) CS464G Software Design and Implementations (3) CS470G Network Engineering and Management (3) EE450G Systems Analysis and Simulations (3) II. Core Requirements (18 units - First-second year of study) The student is required to take at least 18 units of coursework (6 courses) from the following list of courses. The student is advised to consider his/her dissertation research area of interest when selecting courses to meet the requirements in sections II and IV. CS480G Java and Internet Applications (3) EE461G Digital Design and HDL (3) EE467G Introduction to Nanoengineering (3) EE488G Computer Architecture (3) CE521 Real-time Systems and Programming (3) CE530 Embedded Software Design in Linux (3) CS501 Advanced Structured Programming and Algorithms (3) CS510 Advanced Unix/Linux Programming (3) CS515 Unix/Linux Network Programming (3) CS535 Network Security Fundamentals (3) EE509 Mobile and Wireless Communication (3) EE520 Advanced FPGA Design and Implementations (3) Upon completing the core requirements, the student is required to take three qualifying examinations. Qualifying Examinations (QE): The QE consist of three (3) subject areas. The student has a chance to select three exam subjects from a list provided by the Doctoral Program Committee. After the student has passed the Qualifying Examinations (QE), he/she is allowed to continue in the DCE program and begins to take courses listed in section III. The student is now a DCE candidate. III. Post-Candidacy Requirements (6 units - Second year of study) (Research methodology) DCE601 Research Methodology - I (3) DCE602 Research Methodology - II (3) IV. Advanced Studies (24 units - Third year of study) The doctoral candidate is required to take at least 24 units of advanced graduate courses to strengthen his/her background in preparation for his/her dissertation endeavor as well as to broaden his/her crossdisciplinary technical capabilities. The following are suggested course clusters provided to the DCE candidate for an in-depth study in his/her chosen research area; each cluster of courses corresponds to a major research area. Area 1. VLSI and Nanoengineering EE505 Advanced Digital IC Design (3) EE511 Advanced Analog IC Design (3) EE553 System on Chip (SOC) Design (3) EE584 Quantum Concepts and Applications in Nanoengineering (3) Area 2. Embedded Systems Design CE522 Embedded Design in Networking Environment (3) CE523 Embedded Design in Device Driver Environment (3) CS551 Mobile Computing for Android Mobile Devices (3) Area 3. Internet Technology and Mobile Computing CS501 Advanced Structured Programming and Algorithms (3) CS526 Advanced Web Programming (3) CS550 Data Mining and Business Intelligence (3) CS551 Mobile Computing for Android Mobile Devices (3) CS570 Big Data Processing – MapReduce Programming (3) CS571 Cloud Management – Hadoop Administration (3) Area 4. Network Engineering CS565 Advanced Network Management (3) CS571 Cloud Management – Hadoop Administration (3) CS575 Network Analysis and Testing (3) The doctoral candidate has the option to take courses in or outside the above cluster courses to meet the Advanced Studies requirement in section IV. Courses must be numbered at the 500 level or above in computer engineering areas (courses with EE, CE, CS designations). V. Electives (24 units - Fourth-fifth year of study) The student is required to take at least 24 units of graduate courses, which need not be limited to engineering, numbered at the 500 level or above to meet the electives requirement. The student is reminded that a cross disciplinary study of subjects can be desirable as the fast changing electronics and computer industries have become more demanding on engineers to have multidisciplinary skillsets. Curricular Practicum: Students without prior practical experience in related fields are required to engage in curricular practicum to work on company projects that are directly related to the student’s dissertation research or course of study. Others have the option to conduct curricular practicum when applicable. No more than 6 units earned from curricular practicum courses are counted for elective credit. The student must observe the rules required for taking the practicum courses. VI. Doctoral Dissertation (12 units - Fifth year of study) A Dissertation Committee (DC) must be formed by the doctoral candidate and approved by the DCE Program Committee before the student starts his/her doctoral research work. The doctoral candidate is required to earn a minimum of 12 units in dissertation coursework to meet the graduation requirement. DCE698 Dissertation – I (6) DCE699 Dissertation - II (6) [-]