Please contact David Markowitz if interested: david.markowitz@iarpa.gov *Machine Intelligence from Cortical Networks (MICrONS) Technical Supervisor* Despite significant progress in machine learning over the past few years, today’s state of the art algorithms are brittle and do not generalize well. In contrast, the brain is able to robustly separate and categorize signals in the presence of significant noise and non-linear transformations, and can extrapolate from single examples to entire classes of stimuli. This performance gap between software and wetware persists despite some correspondence between the architecture of the leading machine learning algorithms and their biological counterparts in the brain, presumably because the two still differ significantly in the details of operation. The MICrONS program aims to achieve a quantum leap in machine learning by creating novel machine learning algorithms that use neurally-inspired architectures and mathematical abstractions of the representations, transformations, and learning rules employed by the brain. To guide the construction of these algorithms, performers will conduct targeted neuroscience experiments that interrogate the operation of mesoscale cortical computing circuits, taking advantage of emerging tools for high-resolution structural and functional brain mapping. The program is designed to facilitate iterative refinement of algorithms based on a combination of practical, theoretical, and experimental outcomes: performers will use their experiences with the algorithms’ design and performance to reveal gaps in their understanding of cortical computation, and will collect specific neuroscience data to inform new algorithmic implementations that address these limitations. Ultimately, as performers incorporate these insights into successive versions of the machine learning algorithms, they will devise solutions that can achieve human-like performance on complex information processing tasks with human-like proficiency. Position Requirements: Requirement 1: PhD in neuroscience, physics or a related discipline with 4 years of experience studying coding and computation in high-throughput recordings of neural activity from behaving animals using quantitative methods, such as dimensionality reduction, time series analysis, and machine learning approaches. Requirement 2: Demonstrated experience in at least 3 of the following disciplines: high-throughput electrophysiology, multi-photon microscopy, optogenetics, circuit mapping, methods for manipulating cognitive processes in behaving animals. Requirement 3: Training and demonstrated capabilities in applied mathematics and computer science. Must be proficient with at least one numerical analysis and statistics framework (e.g. NumPy, Matlab, R) and one general-purpose programming language (e.g. Python, Java, C). Requirement 4: Two years of experience coordinating collaborative projects with diverse technical contributors and aggressive timelines for achieving results, as evidenced by research publications, public data sets or other artifacts of work. Desired 1: Strong background in systems neuroscience, with at least 2 years of experience studying the circuit basis of cognition. Desired 2: Strong background in machine learning (ML), with at least 2 years of experience using modern ML techniques to support scientific research or solve other challenging problems. Desired 3: Formal training in theoretical neuroscience. Desired 4: Professional software development experience. Desired 5: Experience using cloud computing technologies.