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models create new opportunities for cognitive modeling. In the past, the group has created cognitive models (e.g., artificial neural networks, see Rau et al., 2019 ) that mimic specific human learning
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interest in optimization What we value Research mindset and intellectual curiosity Ability to work independently Clear communication of ideas and results Workplace Workplace We offer Your job with impact
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on the available system resources (e.g., communication, computation, energy). Communication-efficient knowledge exchange among networked federated large models. These research directions allow you to gradually build
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viruses (AAVs) are the leading platform for gene therapy, yet their clinical potential is often capped by sub-optimal tissue tropism, pre-existing human immunity, and low manufacturing yields. This project
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., Lustre, NFS, VAST) Collective communication and high-speed networking (e.g., NCCL, RCCL, MPI) Monitoring and observability (e.g., DCGM, LDMS, metrics dataflow pipelines and data products development
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vibration, strain, and environmental sensors with MCU-class edge AI capabilities. Optimize sensing front-ends, power management, and communication interfaces for minimal standby and inference energy. On-chip
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limiting factor to further enhance or optimize viral tropism. In this collaborative project, we explore new ways to adjust this equilibrium so the on/off rates of viral vectors brought in proximity to target
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that act as autonomous micro-agents for perception and communication. Candidates ideally have a background in computer science, electrical engineering, or related fields, and a strong interest in machine
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ETH postdoc contract under ETH regulations ; salary follows the ETH postdoc standard. Community & development: You’ll join the Design++ network, with access to the Design++ Labs the Immersive Design