Job No.: 696617
Location: Clayton campus
Employment Type: Full-time
Duration: The scholarship may be held for up to 3.5 years (fulltime) for Research Doctorate (PhD) studies
Remuneration: The successful applicant will receive
The Opportunity
This is an outstanding opportunity for a highly motivated PhD candidate interested in - , , and - . The successful candidate will be supervised by at , with co-supervision and support from leading academic and industry experts.
The candidate will join the at Monash University and work closely with , the industry partner on this project. The project focuses on developing - for training large-scale foundation models across - .
This research addresses a critical challenge in modern AI: how to train increasingly large models in a more scalable, accessible, and sustainable way. As AI systems continue to grow, centralised training infrastructure creates significant barriers related to cost, energy consumption, infrastructure access, and environmental impact. This project will explore new decentralised training frameworks that can better utilise distributed computing resources while reducing energy overheads and supporting more sustainable AI infrastructure.
The successful candidate will have the opportunity to work on real-world industry problems, access advanced computing infrastructure, collaborate with researchers and engineers at Pluralis Research, and contribute to high-impact research outputs, open-source tools, and potential commercial translation pathways. The project is especially suited to candidates with strong interests in , /, , , / , and .
Through this National Industry PhD project, the candidate will receive rigorous academic training, meaningful industry experience, and professional development support. They will be embedded with Pluralis Research for part of their candidature, gaining direct exposure to industry-scale decentralised AI training platforms and practical deployment challenges. Upon completion, the candidate will be well positioned for a leading career in academia, industry research, or advanced AI infrastructure development.
To be considered for this opportunity you should fulfil the eligibility requirements listed below. The academic qualification requirements for this PhD is:
For this particular position, applicants must also have an undergraduate or postgraduate qualification in computer science, information technology, machine learning, artificial intelligence, software engineering, or a closely related discipline. Ideally, applicants will have training and research experience in one or more of the following areas: distributed systems, systems for AI/ML, machine learning systems, decentralised training, large-scale AI model training, resource orchestration, cloud/edge computing, high-performance computing, or energy-efficient computing.
Monash University strongly advocates diversity, equality, fairness and openness. We fully support the gender equity principles of the Athena SWAN Charter.
The Project
We invite applications from outstanding PhD candidates with an undergraduate or postgraduate qualification in computer science, information technology, artificial intelligence, machine learning, software engineering, computer/electrical engineering, or a closely related discipline.
This PhD project is part of a project at , in collaboration with industry partner . The project aims to develop - for training large-scale foundation models across - .
Large-scale AI training is increasingly limited by high energy consumption, infrastructure cost, communication overhead, and reliance on centralised datacentres. This project will investigate how decentralised and geo-distributed computing resources can be orchestrated more efficiently to support scalable, sustainable, and accessible training of large AI models.
The project will focus on one or more of the following research objectives:
The project is expected to generate new knowledge, tools, and practical frameworks for reducing the energy footprint of large-scale AI training while improving the accessibility and efficiency of AI infrastructure. Expected outcomes include novel decentralised training algorithms, energy-efficient orchestration techniques, open-source software artefacts, high-quality research publications, and potential translation pathways into industry systems.
To Apply for the position, please check the below steps:
Stage 1: : lnkd.in/gphc2G7E
Stage 2: Please email your application and documents to Dr Goudarzi’s Email address '
mohammad.goudarzi@monash.edu
with the following title “[ ] – [ ]”Stage 3: Applications will be reviewed based on eligibility, academic performance, research background, publication record, and alignment with the project topic. Shortlisted candidates will receive an email regarding the interview process.
Enquiries: Dr Mohammad Goudarzi,
mohammad.goudarzi@monash.edu
Applications Close: Sunday 30 August 2026, 11:55pm AEST
We will begin the interview process as soon as suitable applications are received, so applicants are encouraged to apply early. We will not wait until the closing date to start shortlisting and interviews.
Supporting a diverse workforce
Monash University recognises that its Australian campuses are located on the unceded lands of the people of the Kulin nations, and pays its respects to their elders, past and present.