For admissions to masters degree program in Computational Biology at Best Universities, GRE, GPA requirements are
Masters programs in Computational Biology which do not require GRE
Yale UniversityRanked 3 in Best National University.
Computational Biology and Bioinformatics Yale University
College description: After their first year, students join the CBB interdepartmental program and work towards a degree in Computational Biology and Bioinformatics. Alternatively, students may join any of the other departments associated with BBS if they find that another department better fits their interest after the first year.CBB offers a PhD with an en-route Masters’ degree a terminal Masters’ program is offered for post-doctoral fellows and other sponsored students.
The Graduate Record Examination General Test is required, and the GRE Subject Test in Biochemistry, Cell and Molecular Biology Biology Chemistry Computer Science other relevant discipline is recommended. Alternatively, the Medical College Admission Test may be substituted for the GRE tests. Applicants for whom English is not their native language are required to submit results from the Test of English as a Foreign LanguageWith approval of the DGS, some courses taken toward the M.D. degree can be counted toward the ten required courses.Terminal Master’s Degree Program The CB B terminal master’s program has limited availability and is intended primarily for postdoctoral fellows supported by training grants and for students with sponsored funding, e.g., from industry. Completion of the terminal M.S. degree will typically take four terms of full-time study.
University of Virginia School of Engineering and Applied Science
College description: Please note that this course does not count toward requirements for the masterâs degree in biotechnology.Please note that this course does not count toward requirements for the masterâs degree in either biotechnology or regulatory science and is required as a prerequisite course for some students entering the Master of Science in Regulatory Science. Pre-requisites: one year of college chemistry and one year of college biology or permission of program director.This course provides the linkage between the inanimate world chemistry and the living world of biology.This course provides a comprehensive of the key concepts in molecular biology.Students are also introduced to the experimental techniques used in cell biology to study cell growth, manipulation, and evaluation.This course is a continuation of 410.603 Advanced Cell Biology and further explores cell organization and subcellular structure Students examine cell-to-cell signaling that involves hormone and receptors, signal transduction pathways, second messenger molecules, cell adhesion, extracellular matrix, cell cycle, programmed cell death, methylation of DNA and modification of chromatic structure, and mechanisms of the cell.Students master both written and verbal communication skills, hone their expertise at making both formal and informal oral presentations, prepare poster presentations, and develop their own public speaking strategies.This integrative, case-based course will focus on applying knowledge gained from previous courses in the Master of Science in Regulatory Science program to actual cases from the FDA.
The TOEFL test is required if their degree was not completed in the United States.Students must take the TOEFL and have a course by course evaluation of their transcripts by service such as the World Education Service
Cornell UniversityRanked 15 in Best National University.
College description: Computational Biology students will be interested in the many and varied courses in genetics, genomics, computer science, mathematics, statistics, and probability at Cornell.
Computational methods and mathematical models are necessary to process, analyze, and interpret the vast amounts of biological data generated by high-throughput techniques.Letters must be submitted electronically as instructed through the application.TOEFL scores for students who have not received a degree from an English language institution.
Computational Biology University of California, Berkeley
College description: Computational biology is an academic growth area that binds together multiple areas of biological research with the mathematical and computational sciences. It takes center stage in the new data-oriented biology by facilitating scientific discoveries based on high-throughput methods. The genomic revolution has fundamentally changed the biological sciences, and computational biology provides the means for translation of genomic discoveries into a new understanding of complex biological systems and eventually into improvements of the human condition through the development of solutions to environmental problems, new drug discoveries, and personalized medicine.The Center for Computational Biology is Berkeley’s hub for research and training in computational biology and bioinformatics.Berkeley Connect in Computational Biology:Berkeley Connect in Computational Biology: Read LessPrerequisites: Introductory level biology genetics course, or consent of instructor.CMPBIO 175Introduction to Computational Biology and Precision Medicine3 Units.Computational biology and bioinformatics tools are critical for advancing precision medicine. This survey course introduces computational tools for the analysis of genomic data and approaches to understanding and advancing precision medicine.Introduction to Computational Biology and Precision Medicine:Introduction to Computational Biology and Precision Medicine: Read LessAn introducton to the diverse ways biological problems are investigated computationally through critical evaluation of the classics and recent peer-reviewed literature. This is the core course required of all Computational Biology graduate students.Classics in Computational Biology:Prerequisites: Acceptance in the Computational Biology Phd program consent of instructor.Students are expected to understand basic principles of human population genetics and molecular biology, latest designs and methods for genome-wide association studies and other approaches to identify genetic variants, environmental risk factors and the combined effects of gene and environment important to human health.Completion of introductory biostatistics and epidemiology courses strongly recommended and may be taken concurrently with permission.CMPBIO 290Special Topics Computational Biology1 4 Units.The course will focus on computational methodology but will also cover relevant and interesting biological applications.Special Topics Computational Biology:Prerequisites: Graduate standing in EECS, MCB, Computational Biology or related fields consent of the instructor.Special Topics Computational Biology: Read LessTopics will vary each semester.Doctoral Seminar in Computational Biology:Doctoral Seminar in Computational Biology: Read LessCMPBIO 294AIntroduction to Research in Computational Biology2 12 Units.Prerequisites: Standing as a Computational Biology graduate student.Introduction to Research in Computational Biology: Read LessCMPBIO 294BIntroduction to Research in Computational Biology2 12 Units.Prerequisites: Acceptance in the Computational Biology PhD program consent of instructor.CMPBIO 477Introduction to Programming for Bioinformatics Bootcamp1.5 Unit.The course will allow students to programming to the problems that they face in the lab and to leave this course with a sufficiently generalized knowledge of programming that they will be able to their skills to whatever projects they happen to be working on.Introduction to Programming for Bioinformatics Bootcamp:Prerequisites: This is a graduate course and upper level students can only enroll with the consent of the instructor.Introduction to Programming for Bioinformatics Bootcamp: Read Less
If the applicant comes from a country or political entity where English is not the official language, adequate proficiency in English to do graduate work, as evidenced by a TOEFL score of at least 90 on the iBT test, 570 on the paper-and-pencil test, or an IELTS Band score of at least 7 on a 9-point scale and.Applicants may only to one single degree program or one concurrent degree program per admission cycle.Letters of recommendation: Applicants may request letters of recommendation through the application system. Hard copies of recommendation letters must be sent directly to the program, not the Graduate Division.Official TOEFL score reports must be sent directly from Educational Test Services TOEFL and IELTS score reports are only valid for two years.This is assessed based on research experience, grades, standardized exams, course selection, essays, personal background, and letters of recommendation. Three letters of recommendation are required, as is the general GRE. A GRE subject examination in an appropriate area is recommended, but not required.With the successful passing of the orals, students select their thesis committee and advance to candidacy for the PhD degree.
Biomathematics at UCLA
College description: Visit the registrar site for the Biomathematics Department’s course descriptions.
Collaborations are crucial for this progress, and the university train the university graduates to have the skills, tools, and language to easily create and lead collaborative teams and tackle the most exciting interdisciplinary problems today.The general GRE is required for MS and PhD applicants.Three letters of recommendation are required.UCLA will match their GRE results using their name and birthdate.prospective students page.Aside from the university requirement of 3.0 GPA, there is no formal GPA or GRE score requirement. However, successful applicants generally have better than 3.5 GPA and GRE scores.
M.S. in Computational Biology
College description: Guidelines for Transfer to Major in Computational Biology.02-701 CPCB Course Current Topics in Computational Biology.No prior programming experience is assumed, and no biology background is needed.This course gives masters students an opportunity to develop professional skills necessary for a successful career in computational biology. This course will also include opportunities to network with computational biology professionals and academic researchers.These are just three of the many central questions of modern biology that can only be answered using computational approaches. This 12-unit course will delve into some of the fundamental computational ideas used in biology and let students existing resources that are used in practice every day by thousands of biologists.The objective of this course is to study general computational problems, with a focus on the principles used to design those algorithms. This course is not open to CS graduate students who should consider taking 15-651 instead.This is an introductory course that provides the basis for students in the Biotechnology Innovation and Computation program or general science students who do not have a good background in biology, cell biology, genetics and molecular biology. It also covers an introduction to computational molecular biology, using an applied algorithms approach as well as exploring emerging computational problems driven by the newest genomic research.This course consists of weekly invited presentations on current computational biology research topics by leading scientists.02-703 Special Topics in Bioinformatics and Computational Biology.This is a mini Special Topics course taught on an occasional basis to cover different topics in computational biology.Dramatic advances in experimental technology and computational analysis are fundamentally transforming the basic nature and goal of biological research.
All applicants must take the Graduate Record Examination general test. If their native language is not English, then applicant must also submit theTest of English as a Foreign LanguageUpload their GRE and TOEFL to their application no later than is December 10The three letters of recommendation should be written by professional or academic references. Letters will be requested and submitted electronically within the application system.Letters of recommendation are due by December 10
Computational Medicine and Bioinformatics
College description: Modeling in biology, physiology and medicine.Offered Fall term.Restricted to incoming Bioinformatics students only.This course covers topics to help incoming Bioinformatics graduate students succeed and immerses students into the department. Topics include finding a mentor, a bioinformatics research area, and career path using library, computational, and funding resources writing papers and student grants.The course provides a review of some of the fundamental mathematical techniques commonly used in bioinformatics and biomedical research.The university use selected physiological systems to introduce concepts in computational systems biology.Introduces basic biology to graduate students without any prior college biology. Geared towards students pursuing training in Bioinformatics or Biostatistics who have quantitative training After a brief introduction to organic and biochemistry, boot camp will have lectures on molecular biology, cell biology and laboratory tools used in both, as well as introductory molecular biology laboratory experiments.BIOINF 523 prepares students with no biology background to take graduate level classes in biology. It alone is not sufficient to fulfill the Bioinformatics program requirements in molecular biology.Credits: 3 Category: Related Bioinformatics Courses Offered Winter term.This course provides an introduction to the principles and practical approaches of bioinformatics as applied to genes and proteins. The overall course content is broken down into 3 sections focusing on foundational information, statistics, and systems biology, respectively.Category: Related Bioinformatics Courses Offered Winter term.SyllabusThis course is ideal for first year PIBS students or second year students with little experience in bioinformatics.The university specifically target bioinformatics software and data resources freely available on the Internet.Basic statistics as used in bioinformatics, especially standard statistical tests of significance and when they is the focus for this module.
GPA, minimum 3.2 4.0Letters of recommendation Please be aware that submitting only the Rackham Recommendation for Admission Form is insufficient forms must be accompanied by a letter from the recommender.Submission of the GRE is optional.Applicants whose native language is not English must demonstrate English proficiency via the TOEFL exam.The add a degree application form can be found on the Rackham Admissions webpages.Students complete both their degree and a Bioinformatics Master’s degree within five years of study.Applicants should be in their junior year or approximately 18 months before finishing degree requirements.The MS program is a terminal degree program.Letters of recommendation Please be aware that submitting only the Rackham Recommendation for Admission Form is insufficient forms must be accompanied by a letter from the recommender.If applicant wish to include three letters from their original application, only one additional letter is needed. The letter should state clearly that the mentor takes responsibility for their funding upon admission.Alternately, applicant may wish to obtain three new letters of recommendation. The Admissions Committee strongly encourages applicant to include letters from those familiar with their research and coursework obtained while pursuing their Master’s degree.TOEFL If the TOEFL was required for their Master’s degree and is still valid, no new exam is required.
Masters in Bioinformatics
College description: It is also the driving force behind the explosive demand for trained bioinformatics professionals in pharmaceutical research and development, medical and clinical diagnostics, and other life-science industries.Bioinformatics is an interdisciplinary field of science that combines computer science, statistics, mathematics, and engineering to study and process biological data. The need for bioinformatics capabilities was precipitated by the explosion of publicly available genomic information resulting from the Human Genome Project.The MS in Bioinformatics is invaluable if their goal is to enter this exciting and growing field.Combining challenging academics in biology, computer science, and information technology with practical, real-world experience, the MS in Bioinformatics program will help applicant integrate the knowledge, skills, experience, and confidence applicant need to play a pivotal role in an expanding range of life-science fields.Build a core of critical knowledge in bioinformatics computational methods, bioinformatics programming, statistics for bioinformatics, and ethics for biological research.Integrate knowledge from biological, computational, and mathematical disciplines.The MS in Bioinformatics program combines core coursework in bioinformatics computerized methods, programming, and statistics with graduate electives that offer applicant the flexibility to specialize and build broader knowledge in both the life sciences and computer sciences. A co-op, frequently completed with leading employers in academia and industry, rounds out the program and assures graduates a competitive edge in the dynamic field of bioinformatics.Graduate Certificate in Global Studies and International Relations.
Official exam scores from either the TOEFL iBT, IELTS, or PTE exam.
MS in Bioinformatics
College description: Minimum Requirements for the M.S. Degree in Bioinformatics Animal Sciences Concentration.The Animal Sciences concentration within the M.S. degree program in Bioinformatics requires a minimum of 36 hours, including at least 12 hours at the 500-level.
Graduation from an accredited institution with bachelor degree requirements substantially equivalent to those of the University of Illinois.A grade-point average of at least 3.0 on a 4.0 scale in master -level coursework and in the last two years of coursework, in which case GRE scores are not required. However, applicants who hold JD, MD, or PhD degrees are exempt from the GRE requirement.Letters of reference from three individuals, with at least one from a librarian information scientist or biologist and the remainder from employers or teachers.International applicants whose native language is not English must submit evidence of having passed the Test of English as a Foreign Language with a score of 620 or higherThey are NOT counted towards the degree.
College description: The curriculum is designed to provide students with advanced skills in either Molecular Biochemistry or Bioinformatics. Emerging in tandem with genomics is the field of bioinformatics, associated with massive databases of gene and protein sequences and other biological information. Modern science utilizes bioinformatics not only to process and mine the data, but also to generate new testable hypotheses.Students in this program can choose to follow either a Molecular Biochemistry track or a Bioinformatics path. Students selecting the Bioinformatics track, one of the first in the United States devoted exclusively to teaching important genome-wide approaches to medicine and biology, will focus on the use of current bioinformatics technologies for analyzing high-throughput data from genomics and proteomics experiments. Course topics include leveraging Big Data for biomarker discovery in the era of personalized medicine, role of statistics in bioinformatics, gene function prediction, algorithm and software development.A bachelor degree including the following courses, or equivalent: BIOC 3261 BISC 1111, 1112 CHEM 2122, 2151-52, 2153-54 PHYS 1011.In an essay of 250 500 words, state their purpose in undertaking graduate study in their chosen field.Biochemistry and Molecular Biology, Master of Science programs.
GW alumni Current degree or graduate certificate candidates at GW Current McNair Program Scholars the students.S. military personnel who have been on active duty within three years of submitting their application for admission.One letter of recommendation is required and must be submitted through the GW Application.The letter of recommendation must be on letterhead and signed.Recommendations are not acceptable from family members and friends.Applicants must have a minimum cumulative and science GPA of 2.5.Applicants who are not the students.S. citizens are required to submit official test scores for either Test of English as a Foreign Language or Pearsons Test of English Academic or the academic International English Language Testing System
Bioinformatics Master Program Graduate School Marquette University
College description: Earn their Master in Bioinformatics as a Part-time or Full-time Student.This Master program is offered jointly with the Medical College of Wisconsin for an improved, convenient curriculum.Whether applicant are a new college graduate or a working professional looking to advance their career, the university program can fit their needs.Computational Biology prepares students for a multidisciplinary career in the biomedical sciences using mathematics, statistics and computer science. The university curriculum combines biology and computer science classes. Some students also choose to pursue a PhD after graduation.No merit-based aid is available for this program, butprivate scholarshipsmay be available. The students.S. citizens and permanent residents may also be eligible to forneed-based federal aid to help fund their educational expenses.
An essay outlining relevant work experience or education, career goals, possible areas of interest, and reasons for seeking admission to this program.For international applicants only:TOEFL score orother acceptable proofof English proficiency.
Bioinformatics and Computational Biology Graduate Pathway Saint Louis University
College description: Health Outcomes Research and Evaluation Sciences, M.S., Law, J.D., Dual Degree.Health Outcomes Research, Ph.D. Medicine, M.D. Dual Degree.Public Health Graduate ProgramsToggle Public Health Graduate Programs.Health Administration, M.H.A. Business Administration, M.B.A. Dual Degree.Health Administration, M.H.A. Law, J.D. Dual Degree.Public Health, M.P.H. Law, J.D. Dual Degree.Public Health, M.P.H. Medicine, M.D. Dual Degree.Public Health, M.P.H. Nutrition and Dietetics, M.S. Dual Degree.Public Health, M.P.H. Social Work, M.S.W. Dual Degree.Public Health, M.S. Clinical Psychology, Ph.D. Dual Degree.Social Work, M.S.W. Law, J.D. Dual Degree.Social Work, M.S.W. Pastoral Studies, M.A. Dual Degree.Social Work, M.S.W. Public Health, M.P.H. Dual Degree.Social Work, M.S.W. Spiritual Care with Deaconess Certification, M.A. Dual Degree.Health Care Ethics, Ph.D. J.D. Dual Degree.Health Care Ethics, Ph.D. M.D. Dual Degree.Health Care Ethics, Ph.D. Theology, M.A. Dual DegreeBiology, B.S. to Masters in Chemical Biology Accelerated Program.Biochemistry, B.S. to Masters in Chemical Biology Accelerated Program.Political Science and Public Affairs, M.A. Law, J.D. Dual Degree.Clinical Psychology, Ph.D. Public Health, M.S. Dual Degree.Women and Gender Studies, M.A. and Law, J.D. Dual Degree.Bioinformatics and Computational Biology, Bachelor to M.S. Accelerated Program.Nutrition and Dietetics, M.S. Public Health, M.P.H. Dual Degree.Master of Business AdministrationToggle Master of Business Administration.Business Administration, M.B.A. Educational Leadership, M.A., Dual Degree.Business Administration, M.B.A. Health Administration, M.H.A. Dual Degree.Business Administration, M.B.A. Law, J.D. Dual Degree.Business Administration, M.B.A. Medicine, M.D., Dual Degree.Educational Leadership, M.A. Business Administration, M.B.A. Dual Degree.Law, J.D. Business Administration, M.B.A. Dual Degree.Law, J.D. Health Administration, M.H.A. Dual Degree.Law, J.D. Health Care Ethics, Ph.D. Dual Degree.Law, J.D. Health Outcomes Research Evaluation Sciences, M.S. Dual Degree.Law, J.D. Political Science and Public Affairs M.A. Dual Degree.Law, J.D. Public Health, M.P.H. Dual Degree.Law, J.D. Social Work, M.S.W. Dual Degree.Law, J.D. Urban Planning and Development, M.S. Dual Degree.Law, J.D. Women and Gender Studies, M.A. Dual Degree.Biochemistry and Molecular Biology, Ph.D. Medicine, M.D. Dual Degree.Medicine, M.D. Business Administration, M.B.A. Dual Degree.Medicine, M.D. Public Health, M.P.H. Dual Degree.Computational Biology prepares students to enter the next semester of a Master of Science in Bioinformatics and Computational Biology at Saint Louis University.Advanced Reading and Writing as Researchers for International Graduate Students.Advanced Listening and Speaking for International Graduate Students II.
College of Philosophy and LettersToggle College of Philosophy and Letters.Degree or equivalent in biology, biochemistry, computer science, mathematics, statistics or closely related field 2.75 GPA on a 4.0 scale.TOEFL iBT 75 or.TOEFL iBT 70 or.Completion of Level 5 AE with 2.7 GPA and grades of C or better.
Center for Computational Biology
College description: Bioinformatics is an interdisciplinary science at the interface of biology, chemistry, medicine, mathematics, and computer science. Its goal is developing and applying computational approaches to studies of life processes and improvement of human health. In the postgenomic era, Bioinformatics is of primary importance to basic, clinical and applied science in academia, industry, and many other segments of society.Genetics of complex traits, Genome biology, Drosophila quantitative genetics.Exploring membrane protein folding through protein design, bioinformatics, and molecular biology.Molecular modeling in the context of structural genomics and bioinformatics.
The application process will require a CV, copies of transcripts, a personal statement, 3 letters of recommendation, and scores from the TOEFL or IELTS exam.
Temple UniversityRanked 121 in Best National University.
CST Grad Bioinformatics PhD Admissions
College description: Develop expertise in the various software tools that help applicant identify, interpret and analyze biological data with the Professional Science Master in Bioinformatics in Temple’s College of Science and Technology. This 30-credit-hour graduate degree is ideal for those who are currently working or seeking positions in the biotechnology, healthcare or pharmaceutical industries. Since classes are offered at night, it is flexible enough to fit their busy schedule while providing an advanced, professional development-focused graduate curriculum. Through the program, applicant’ll develop a deep understanding of computer programming, genomics and structural biology.The Bioinformatics PSM program integrates biology, chemistry, computer science, physics and statistics to investigate solutions to biological problems. Not only will applicant understand the computational and statistical methods used to analyze or discover data involving biochemistry, biophysics and genomics, applicant’ll be able to communicate them succinctly and effectively.Ethics in bioinformatics, which examines the legal, privacy and social issues of using computational approaches to large data sets .Structural bioinformatics, which studies protein structure analysis and methods building probabilistic models of sequence ensembles.With opportunities for research in one of Temple’s many state-of-the-art facilities or an internship at a local biotechnology company, the Bioinformatics PSM helps position applicant for career advancement with real-world experience in this rapidly growing field.To earn the Bioinformatics PSM, students must successfully complete a final capstone project, which involves either.Coursework for the Bioinformatics PSM must be completed within two years, on either a part-time or full-time basis.Bioinformatics PSM students are required to complete 30 credit hours of coursework, including classes in other College of Science and Technology Departments, to earn the degree within two years.
College of Science and Technology graduate candidates must have a bachelor’s degree and a minimum 3.0 GPA on a 4.0 scale to . Most applicants have an degree in one of the natural sciences, Computer Science or Mathematics.For applicants whose native language is not English, the TOEFL, IELTS or PTE Academic exam is required. The minimum acceptable score for the TOEFL is 90 iBT or 575 PBT.
Bioinformatics and Computational Biology
College description: Emphasizes bioinformatics applications including DNA sequence analysis, parsing FAST A and GenBank files, processing BLAST output files, SQL or equivalent query language.May include biochemical reaction kinetics, Hodgkin-Huxley model for cellular electrical activity, continuous and discrete population interactions, and neural network models of learning.Covers the following topics and related methodology: protein sequence, structure prediction, and modeling methods nucleic acid sequence and structure prediction gene structure prediction in prokaryotes and eukaryotes elements of system biology. Students will learn programming approaches to solve bioinformatics problems.BINF 402:Bioinformatics and Computational Biology II.Continuation of BINF401 and studies in-depth several algorithms and methods used in bioinformatics and computational biology. These techniques will then be applied to current bioinformatics problems.Laboratories will introduce students to bioinformatics tools designed to answer research problems in the topics covered in lectures, such as sequence alignment, sequence pattern recognition, structural conformation modeling, phylogenetic analysis methods and image comparisons.Teaches students understand the basis of and use of bioinformatics software in database searching, sequence analysis, gene identification, genomics, protein structure and phylogeny.Designed for physics or chemistry majors also useful for biology majors interested in bioinformatics and computational biology.BINF 490:Independent Senior Research in Bioinformatics and Computational Biology.Notes: An oral progress report with a poster at the fall semester Bioinformatics Student Research Day is required.May not be repeated for credit.Enrollment limited to students with a class of Advanced to Candidacy, Graduate, Non-Degree or Senior Plus.Grading: This course is graded on the Graduate Regular scale.BINF 531:Molecular Cell Biology for Bioinformatics.Intensive review of biochemistry, molecular biology, and cell biology necessary OT begin research in bioinformatics.BINF 550:Introduction to Bioinformatics Database Design.BINF 631:Molecular Cell Biology for Bioinformatics.Intensive review of biochemistry, molecular biology, and cell biology necessary to begin research in bioinformatics.Includes study of recombinant DNA technology, genomics, and bioinformatics as applied to commercially important products.
Applicants to the doctoral program in Bioinformatics and Computational Biology should have the equivalant of a the students.S. 4-year BA BS degree in science, math, engineering, or computer science, with a minimum GPA of 3.25, and minimum GRE scores of 1100 combined on the verbal and quantitative sections and 4.0 on the analytical writing section.Applicants to the master program in Bioinformatics and Computational Biology should have the equivalant of a the students.S. 4-year BA BS degree in science, math, engineering, or computer science, with a minimum GPA of 3.0.An expanded goals statement and resume. Applicants to the doctoral program should address their research interests in the goals statement.An official report of scores obtained on the Graduate Record Examination The GRE requirement is waived if the student holds a master degree from a the students.S. institution.A TOEFL score of 88 with a minimum of 20 in each section , 230 , 575 , or 6.5 IELS is required for all students who have not attained a degree in the US, Canada, the students.K. New Zealand, or Australia. For those ing for assistantships in the Ph.D. program, TOEFL requirements are 100 with a minimum of 23 in each section , 250 , 600Students may not enroll initially in any COS non degree, M.S., or Ph.D. program, then later transfer into this certificate program.Note that GRE scores and letters of recommendation are not required.Non-Degree status is suitable for individuals who do not want to pursue a degree but are interested in taking courses offered by COS. An applicant must have a B.S. degree in mathematics, computer science, engineering, or natural science, and a minimum GPA of 3.00 to be considered for Non-Degree status. Along with the Graduate COS Non-Degree Application, please include unofficial copies of transcripts.Complete Non-Degree application packets are due to the COS Graduate Admission office by July 15 for the fall semester, and December 15 for the spring semester.