Dear colleagues, We are recruiting a postdoctoral researcher in Computational Neuroscience and/or Machine Learning to study network neural dynamics of brain function and psychedelics to participate in a cutting-edge International Network for Brain-Inspired Computation<https://www.nsf.gov/awardsearch/showAward?AWD_ID=2019976&HistoricalAwards=false> (AcelNet) that includes nodes in Montreal, Paris, and the Pacific Northwest of the US and Canada (e.g. University of Washington, Allen Brain Institute). The project is at the intersection of mathematics, physics, and neuroscience in the general area of complex network dynamics and representations that drive biological computation. The objective is to understand how the brain develops generative cognitive models to organize perception and behaviour, and the effects of psychedelic drugs. This project involves both analysis of large-scale ensemble neural data collected in our labs, and computational and/or analytical work to develop theories of core function. Please forward to anyone who you think might be interested. For more info (review of applications will begin on May 1st), please see below or https://www.ucalgary.ca/complexity/positions or reach out to Dr. Jörn Davidsen (davidsen@phas.ucalgary.ca<mailto:davidsen@phas.ucalgary.ca>) and Dr. Aaron Gruber (aaron.gruber@uleth.ca<mailto:aaron.gruber@uleth.ca>). Best wishes, Joern. --- Dr. Jörn Davidsen Professor of Physics & Humboldt Research Fellow University of Calgary www.ucalgary.ca/davidsen<http://www.ucalgary.ca/davidsen> ************************************************************************************ Postdoc in Computational Neuroscience and/or Machine Learning at the University of Calgary, Canada We are recruiting a talented postdoctoral researcher in Computational Neuroscience and/or Machine Learning to study network neural dynamics of brain function and psychedelics to participate in a cutting-edge International Network for Brain-Inspired Computation<https://www.nsf.gov/awardsearch/showAward?AWD_ID=2019976&HistoricalAwards=false> (AcelNet) that includes nodes in Montreal, Paris, and the Pacific Northwest of the US and Canada (e.g. University of Washington, Allen Brain Institute). The project is at the intersection of mathematics, physics, and neuroscience in the general area of complex network dynamics and representations that drive biological computation. The objective is to understand how the brain develops generative cognitive models to organize perception and behaviour, and the effects of psychedelic drugs. This project involves both analysis of large-scale ensemble neural data collected in our labs, and computational and/or analytical work to develop theories of core function. The ideal candidate will have a quantitative background (e.g. PhD in mathematics, physics, computer science) along with experience in applying this background to neuroscience. Specifically, we are looking for a postdoctoral candidates interested in what mathematical principles predict (1) how the connectivity structure of neural networks – their connectomes – combine with the dynamics of nodes and edges to control the dynamics and statistics of the network, (2) how the brain learns these connectomes to produce generative models predictive of their environment, and (3) how such models are affected by psychedelic drugs. The overarching aim of the project is to understand how mental models become corrupted in depression/anxiety, and how psychedelics appear to reverse the corruption. A variety of world-class data sets on the structure and function of the brain are available to guide theoretical advances in the understanding of underlying brain computation, particularly in learning, perception, and decision making. The position is open immediately with a primary location in Calgary. It is partially funded by the Pacific Institute for Mathematical Sciences<https://www.pims.math.ca/> and is aimed to strengthen the link between the computational neuroscience community at the University of Calgary (Complexity Science Group<https://www.ucalgary.ca/complexity/>, Hotchkiss Brain Institute<https://hbi.ucalgary.ca/>) and the University of Lethbridge (Canadian Center for Behavioural Neuroscience<https://www.uleth.ca/artsci/neuroscience/about>) with the other network members including the Computational Neuroscience Center<https://cneuro-web01.s.uw.edu/> at the University of Washington, and centers in Montreal and Paris. The specific start date has to be within five years of being awarded a PhD degree. The position is funded for at least two years and includes an annual stipend in the range of CAD$42,000 – $50,000 plus benefits. Opportunities for brief residences in partner nodes (Montreal, Seattle, or Paris) are also available. Interested candidates should submit their application package including a cover letter, their CV with a list of publications, brief statement of research interests and their possible start dates in PDF format to Dr. Jörn Davidsen (davidsen@phas.ucalgary.ca<mailto:davidsen@phas.ucalgary.ca>) and Dr. Aaron Gruber (aaron.gruber@uleth.ca<mailto:aaron.gruber@uleth.ca>). Applicants should arrange for at least two letters of reference to be sent as well. Review of applications will begin May 1st, 2022, and continue until the position is filled. For additional information and informal inquiries, please contact Dr. Davidsen or Dr. Gruber. We strive for a diverse and inclusive environment, and encourage applications from members of any identity. --- Dr. Jörn Davidsen Professor of Physics & Humboldt Research Fellow University of Calgary www.ucalgary.ca/davidsen<http://www.ucalgary.ca/davidsen>