If you want to explore the cutting edge of research in computing and gain skills that will enable you to development software that tackles complex problems then you are looking at the right degree.

This is a unique, interdisciplinary program that will prepare you to be a future leader of the information and communications technology revolution. It also is a great pathway to a PhD.

As a degree accredited by the Australian Computer Society you will not only learn advanced computing techniques and have the opportunity to complete a unique specialisation, but also develop exceptional professional skills including communication and teamwork.

You’ll work alongside distinguished researchers at ANU and pursue research projects in your own area of interest.

While some of our students are developing code which controls unmanned aerial vehicles, others are busy writing algorithms to mine through Petabytes of data.  If mastering challenging projects is your thing, the ANU Bachelor of Advanced Computing (Research and Development) can launch you into a spectacular career

Explore the complex and fascinating world of genetics and unravel the mysteries of DNA with the ANU Bachelor of Genetics.

You’ll learn how genes hold our hereditary information, study classical genetics, molecular genetics, population genetics, and bioinformatics. You can even follow interests in areas as diverse as plant genetics, evolutionary genetics or medicine and health.

Studying at ANU means you’ll be exposed to ground-breaking research being undertaken by our academics in active research laboratories at the Research School of Biology and the John Curtin School of Medical Research, Australia’s national medical research institute.

Find out more about genetics, the degree structure, the university experience, career opportunities and student stories on our website.

Get the inside story on what it’s like to be an ANU student by visiting our student blog.

This program is not available for Semester 2 commencement.

Employment Opportunities

• Data Mining Specialist
• Big Data Analyst
• Human-Computer Interaction Specialist,
• Software Developer
• Embedded systems developer
• Network Architect
• Systems Analyst
• Computer Engineer
• Advanced Software Solutions Engineer
• Software Architect

Our graduates work in many organisations including:

• IBM
• Google
• Microsoft
• Yahoo
• Intel
• Price Waterhouse Coopers
• Accenture Australia
• Bloomberg
• National Australia Bank
• Citigroup
• Deloitte
• Unisys
• Australian Government (Australian Taxation Office, Reserve Bank of Australia, Department of Broadband, Communication and the Digital Economy, etc.)

• Data Mining Specialist
• Big Data Analyst
• Human-Computer Interaction Specialist,
• Software Developer
• Embedded systems developer
• Network Architect
• Systems Analyst
• Computer Engineer
• Advanced Software Solutions Engineer
• Software Architect

Our graduates work in many organisations including:

• IBM
• Google
• Microsoft
• Yahoo
• Intel
• Price Waterhouse Coopers
• Accenture Australia
• Bloomberg
• National Australia Bank
• Citigroup
• Deloitte
• Unisys
• Australian Government (Australian Taxation Office, Reserve Bank of Australia, Department of Broadband, Communication and the Digital Economy, etc.)

Learning Outcomes

1. Define and analyse complex problems, and design, implement and evaluate solutions that demonstrate an understanding of the systems context in which software is developed and operated including economic, social, historical, sustainability and ethical aspects

2. Demonstrate an operational and theoretical understanding of the foundations of computer science including programming, algorithms, logic, architectures and data structures

3. Recognise connections and recurring themes, including abstraction and complexity, across the discipline

4. Adapt to new environments and technologies, and to innovate

5. Demonstrate an understanding of deep knowledge in at least one area of computer science

6. Communicate complex concepts effectively with diverse audiences using a range of modalities

7. Work effectively within teams in order to achieve a common goal

8. Demonstrate commitment to professional conduct and development that recognises the social, legal and ethical implications of their work, to work independently, and self- and peer-assess performance

9.  Demonstrate a deep understanding of the fundamentals of research methodologies, including defining research problems, background reading and literature review, designing experiments, and effectively communicating results

10. Proficiently apply research methods to the solution of contemporary research problems in computer science, and

11.  Demonstrate an understanding of research processes including research proposals, article reviewing and ethics clearance.

1. understand and evaluate the significance of genetic information and discoveries in educational and professional contexts;

2. apply a range of skills and laboratory genetic techniques to addressing specific problems in the field of genetic research;

3. use a range of analytical techniques for the interpretation of genetic data to address specific hypotheses;

4. convey and relate professional and disciplinary information and ideas to diverse audiences in effective and appropriate ways;

5. exercise personal, professional and social responsibility by acting as an interpreter of genetic information in the public domain.

Further Information

The Bachelor of Advanced Computing (Research & Development) is a four year program that is accredited by the Australian Computing Society. The program has been specifically designed to provide exceptional students with early experience in undertaking research and or development. The program combines a strong foundation in computer science and mathematics, a specialty advanced computing curricula unique to the ANU, and a project based, research intensive course of study, also unique to the ANU. It provides ample scope for the student to pursue research in individual areas of interest, working with researchers of international distinction in the areas of computer science, engineering and mathematics.

A graduate of the program will have a solid grounding in the fundamentals of computing and relevant mathematics, expertise in the software development process, technical knowledge in a selection of contemporary and advanced ICT topics, and a solid experience in research methods in the ICT area.

Students are required to maintain high grades to remain and complete this program. Students who are unable to maintain these grades may transfer into the Bachelor of Advanced Computing (Honours) degree program which also has many research and development opportunities.

A graduate of the program will have the skills, knowledge and capability to go onto advanced research programs in Computer Science and related areas, and have the potential to become innovators and leaders in the Information Communication Technology (ICT) discipline

Program Transfers

Current students wishing to transfer into the Bachelor of Advanced Computing (Research & Development) are required to achieve at least an 80% average in the university courses they have completed and be deemed suitable by an interview with the program convenor. Generally students would need to transfer into the program before the end of their second year.

Learn more about the degrees offered at the ANU College of Engineering and Computer Science, read current student profiles to see what campus life is really like, and discover what our graduates have achieved since leaving the College. Visit the College of Engineering and Computer Science website.

The Bachelor of Advanced Computing (Research & Development) is a four year program that is accredited by the Australian Computing Society. The program has been specifically designed to provide exceptional students with early experience in undertaking research and or development. The program combines a strong foundation in computer science and mathematics, a specialty advanced computing curricula unique to the ANU, and a project based, research intensive course of study, also unique to the ANU. It provides ample scope for the student to pursue research in individual areas of interest, working with researchers of international distinction in the areas of computer science, engineering and mathematics.

A graduate of the program will have a solid grounding in the fundamentals of computing and relevant mathematics, expertise in the software development process, technical knowledge in a selection of contemporary and advanced ICT topics, and a solid experience in research methods in the ICT area.

Students are required to maintain high grades to remain and complete this program. Students who are unable to maintain these grades may transfer into the Bachelor of Advanced Computing (Honours) degree program which also has many research and development opportunities.

A graduate of the program will have the skills, knowledge and capability to go onto advanced research programs in Computer Science and related areas, and have the potential to become innovators and leaders in the Information Communication Technology (ICT) discipline

Program Transfers

Current students wishing to transfer into the Bachelor of Advanced Computing (Research & Development) are required to achieve at least an 80% average in the university courses they have completed and be deemed suitable by an interview with the program convenor. Generally students would need to transfer into the program before the end of their second year.

Learn more about the degrees offered at the ANU College of Engineering and Computer Science, read current student profiles to see what campus life is really like, and discover what our graduates have achieved since leaving the College. Visit the College of Engineering and Computer Science website.

Admission Requirements

At a minimum, all applicants must meet program-specific academic/non-academic requirements, and English language requirements. Admission to most ANU programs is on a competitive basis. Therefore, meeting all admission requirements does not guarantee entry into the program.

In line with the university's admissions policy and strategic plan, an assessment for admission may include competitively ranking applicants on the basis of specific academic achievement, English language proficiency and diversity factors.

The University reserves the right to alter or discontinue its programs and change admission requirements as needed.

Domestic applicants

Before applying for a program, you should review the general information about domestic undergraduate admission to ANU programs and how to apply, and the program-specific information below.

• Applicants with recent secondary education are assessed on:
  • completion of Australian Year 12 or equivalent, and the minimum Selection Rank (from their academic qualifications, plus any adjustment factors) requirement for this program; and
  • co-curricular or service requirement (applies to applicants who complete secondary education in the year prior to commencing at ANU); and
  • English language proficiency; and
  • any program-specific requirements listed below.
• Applicants with higher education study are assessed on:
  • previous higher education studies; or secondary education results if completed less than one full-time equivalent year (1.0 FTE) of a degree; or the result from a bridging or preparatory course; and
  • English language proficiency; and
  • any program-specific requirements listed below.
• Applicants with vocational education and training (VET) study are assessed on:
  • previously completed VET qualifications at AQF level 5 or higher (i.e. a Diploma or above); or secondary education results if the VET qualification is not completed; and
  • English language proficiency; and
  • any program-specific requirements listed below.
• Applicants with work and life experience are assessed on:
  • ATAR or equivalent if secondary education was completed; or the Special Adult Entry Scheme (SAES); or work experience; and
  • English language proficiency; and
  • any program-specific requirements listed below.

International applicants

Applicants who complete a recognised secondary/senior secondary/post-secondary/tertiary sequence of study will be assessed on the basis of an equivalent selection rank that is calculated upon application. A list of commonly observed international qualifications and corresponding admission requirements can be found here. Applicants must also meet any program specific requirements that are listed below.

Diversity factors & English language proficiency  
As Australia's national university, ANU is global representative of Australian research and education. ANU endeavours to recruit and maintain a diverse and deliberate student cohort representative not only of Australia, but the world. In order to achieve these outcomes, competitive ranking of applicants may be adjusted to ensure access to ANU is a reality for brilliant students from countries across the globe. If required, competitive ranking may further be confirmed on the basis of demonstrating higher-level English language proficiency.

Further information is available for English Language Requirements for Admission

Pathways

Bachelor of Advanced Computing (Honours) might be a pathway for students who meet the Maths pre-requisites but do not have the required score for direct entry into this program.

Eligible students should enrol into Bachelor of Advanced Computing (Honours) and if they can maintain a High Distinction average in their first year, they may be approved to transfer into the R&D program in their second year.

Prerequisites

ACT: Specialist Mathematics (Major/Minor)/Specialist Methods(Major/Minor), NSW: Mathematics Extension 1. More information about interstate subject equivalencies can be found here.

ACT: Chemistry (Major); NSW:  Chemistry or equivalent. More information about interstate subject equivalencies can be found here.

Students who do not meet the chemistry requirement may be admitted into the program via a different pathway. Students who:

• Have an ATAR score of 90 or higher, and

• Commence the Bachelor of Science program after completion of the chemistry bridging course available in February through the ANU Research School of Chemistry (or equivalent) and complete CHEM1101 and BIOL1003 with a minimum average of 65%, may then apply to transfer to the Bachelor of Genetics.

Adjustment Factors

Adjustment factors are additional points added to an applicant's Selection Rank (for example an applicant's ATAR). ANU offers adjustment factors based on performance and equity principles, such as for high achievement in nationally strategic senior secondary subjects and for recognition of difficult circumstances that students face in their studies. 

Selection Rank adjustments are granted in accordance with the approved schedules, and no more than 15 (maximum 5 subject/performance-based adjustment factors and maximum 10 equity-based adjustment factors) can be awarded. 

You may be considered for adjustment factors if you have:

• applied for an eligible ANU Bachelor degree program
• undertaken Australian Year 12 or the International Baccalaureate
• achieved an ATAR or equivalent at or above 70
• not previously attempted tertiary study.

Please visit the ANU Adjustment Factors website for further information.

Scholarships

ANU offers a wide range of scholarships to students to assist with the cost of their studies.

Eligibility to apply for ANU scholarships varies depending on the specifics of the scholarship and can be categorised by the type of student you are.  Specific scholarship application process information is included in the relevant scholarship listing.

For further information see the Scholarships website.

Program Requirements

The Bachelor of Advanced Computing (Research and Development) (Honours) flexible double degree component requires completion of 144 units, of which:

A maximum of 60 units may come from completion of 1000-level courses

12 units count towards the requirements of the other double degree component

The 144 units must include:

84 units from completion of compulsory courses from the following list:

COMP1130 Programming as Problem Solving (Advanced)

COMP1140 Structured Programming (Advanced)

COMP1600 Foundations of Computing

COMP2100 Software Design Methodologies

COMP2120 Software Engineering

COMP2300 Computer Organisation and Program Execution

COMP2310 Systems, Networks and Concurrency

COMP2420 Introduction to Data Management, Analysis and Security

COMP2550 Advanced Computing R&D Methods

COMP2560 Studies in Advanced Computing R&D

COMP3600 Algorithms

COMP3770 Individual Research Project (12 units)

MATH1005 Discrete Mathematical Models

6 units from completion of course from the following list:

MATH1013 Mathematics and Applications 1

MATH1115 Advanced Mathematics and Applications 1

6 units from completion of course from the following list:

MATH1014 Mathematics and Applications 2

MATH1116 Advanced Mathematics and Applications 2

STAT1003 Statistical Techniques

STAT1008 Quantitative Research Methods

24 units from completion of one of the following specialisations:

Machine Learning

Artificial Intelligence

Systems and Architecture

Theoretical Computer Science

24 units from completion of COMP4550 Advanced Computing Research Project

The Bachelor of Genetics flexible double degree component requires completion of 96 units, of which:

A maximum of 36 units may come from completion of 1000-level courses

The 96 units must include:

60 units from completion of the following compulsory courses:

BIOL1003 - Biology 1: Evolution, Ecology & Genetics (6 units)

BIOL1004 - Biology 2: Molecular & Cell Biology (6 units)

CHEM1101 - Chemistry 1 (6 units)

CHEM1201 - Chemistry 2 (6 units)

BIOL2151 - Genetics (6 units)

BIOL2161 - Genes: Replication and Expression (6 units)

BIOL2162 - Molecular Gene Techniques (6 units)

BIOL2202 - Experimental Design and Analysis in Biology (6 units)

BIOL3161 - Genomics & its Applications (6 units)

BIOL3204 - Genetics of Human Disease 1 (6 units)

 A maximum of 6 units from completion of a computer programming course from the following list:

BIOL2001 - Introduction to Quantitative Biology (6 units)

COMP1730 - Programming for Scientists (6 units)

A minimum of 6 units from completion of a course from the following list

BIOL1009 - Diversity of Life (6 units)

BIOL2114 - Evolution (6 units)

BIOL2117 - Cell Biology (6 units)

BIOL2142 - General Microbiology (6 units)

A minimum of 18 units from completion of courses from the following list:

BIOL3002 - Plants: Genes and the Environment (6 units)

BIOL3108 - Hallmarks of Cancer (6 units)

BIOL3109 - Ecological and Evolutionary Developmental Biology (6 units)

BIOL3141 - Infection and Immunity (6 units)

BIOL3144 - Advanced and Applied Immunology (6 units)

BIOL3157 - Bioinformatics and Its Applications (6 units)

BIOL3177 - Advances in Molecular Plant Sciences (6 units)

BIOL3178 - Recovering Threatened Species and Ecosystems (6 units)

BIOL3191 - Biology, Society and Ethics (6 units)

BIOL3193 - Bacteria and Health: An Ecological and Evolutionary Perspective (6 units)

BIOL3201 - Big Questions in Biology (6 units)

BIOL3205 - Genetics of Human Disease 2 (6 units)

BIOL3206 - Evolution of Biodiversity (6 units)

BIOL3208 - Biology Research Project (6 units)

BIOL3209 - Biology Research Project (12 units)

BIOL3213 - Australian Wildlife (6 units)

BIAN3113 - Human Evolution (6 units)

6 units from 2000 or 3000 level BIOL, MEDN or NEUR courses

Students must achieve a minimum 65% weighted average mark across all Science courses in the Bachelor of Genetics component undertaken in each period (Summer/First Semester/Autumn) and (Winter/Second Semester/Spring) in order to continue in the Bachelor of Genetics. Students who do not achieve a minimum of 65% weighted average mark will be transferred from the Bachelor of Genetics double degree to the equivalent Bachelor of Science double degree

Majors

Bachelor of Advanced Computing (Research and Development) (Honours) Majors

Minors

Bachelor of Advanced Computing (Research and Development) (Honours) Minors

Specialisations

Bachelor of Advanced Computing (Research and Development) (Honours) Specialisations

Study Options