Snabbfakta
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- Rennes
Ansök senast: 2024-05-24
PhD Position F/ M Reliability and Security of Large Foundation Models
PhD Position F/M Reliability and Security of Large Foundation Models
Le descriptif de l’offre ci-dessous est en AnglaisType de contrat : CDD
Niveau de diplôme exigé : Bac + 5 ou équivalent
Fonction : Doctorant
A propos du centre ou de la direction fonctionnelle
The Inria Rennes - Bretagne Atlantique Centre is one of Inria's eight centres and has more than thirty research teams. The Inria Center is a major and recognized player in the field of digital sciences. It is at the heart of a rich R&D and innovation ecosystem: highly innovative PMEs, large industrial groups, competitiveness clusters, research and higher education players, laboratories of excellence, technological research institute, etc.
Mission confiée
Large Foundation Models (LFMs) are cutting-edge technology for natural language processing, object detection and segmentation, and audio and multimodal processing, outperforming any available machine learning technique. LFMs, such as OpenAI GPT-4, Google ViT, and Meta LLaMA, have gained public attention with their unprecedented accuracy. Given the superior performance of LFMs, they are being deployed in safety-critical and mission-critical applications, including space exploration and self-driving cars. Improving LFMs’ security and reliability is crucial to enable dependable real-time safety-critical systems.
Large and complex accelerators like Graphics Processing Units (GPUs) are ideal for deploying LFMs in safety-critical applications. However, GPUs integrated into safety-critical systems must meet specific constraints, including real-time execution and high classification/detection accuracy, even in harsh environments. It is imperative to evaluate whether these critical requirements are met when undesirable events, such as radiation-induced faults and electromagnetic hardware attacks, disrupt correct hardware execution and modify the expected results of the LFMs.
This Ph.D. aims to identify hardware and software vulnerabilities in LFM-based systems and propose error mitigation techniques.
Principales activités
The Ph.D. student will characterize the impact of radiation-induced faults and electromagnetic hardware attacks on system reliability and security on GPUs for vision, language processing, and multimodal LFMs. The results will be combined with software simulation data to identify effective hardening solutions. The Ph.D. student will work on developing new fault tolerance approaches tailored for LFMs. Standard fault tolerance techniques may introduce unacceptable overhead. We will conduct a comprehensive fault propagation analysis to propose efficient and effective hardening methods.
The Ph.D. student will participate in international experiments and internships at laboratories like Rutherford Appleton Laboratory in the UK and Los Alamos National Laboratory in the USA. In addition, the student will participate in conferences and international projects. This can help them to develop their research skills and network with other professionals in their field.
Compétences
Required technical skills:
Candidates must have a Master’s degree (or equivalent) in Computer Science, Computer Engineering, or Electrical Engineering.
Languages : proficiency in written English and fluency in spoken English is required.
Relational skills : the candidate will work in a research team, where regular meetings will be set up. The candidate has to be able to present the progress of their work in a clear and detailed manner.
Other valued appreciated : Open-mindedness, strong integration skills and team spirit.
Most importantly, we seek highly motivated candidates.
Avantages
Rémunération
monthly gross salary amounting to 2082 euros for the first and second years and 2190 euros for the third year
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