The PLECS Coder can produce code for a specific hardware target. By default, PLECS automatically selects the correct target depending on the target settings of Simulink Coder. In this mode, PLECS can generate code for two different targets: the Rapid Simulation target (or RSim target) and the Real-Time target. When the build process is started, PLECS automatically generates code for the circuit block and inserts it in the appropriate locations. If you generate code for a Simulink model the PLECS Coder works hand in hand with the Simulink Coder® (formerly Real-Time Workshop). This approach allows easy verification and validation of the control hardware and software without an expensive power stage. The model to be translated into code may be a physical system or control logic.Ī typical application is hardware-in-the-loop (HIL) simulation, where real control hardware is connected to a virtual plant model simulated on a real-time simulator. The code can be compiled to execute on the simulation host or a separate target, such as an embedded control platform or a real-time digital simulator. The PLECS Coder generates generic ANSI-C code from a PLECS Blockset or PLECS Standalone model. How to Apply: If interested, please send your CV and a brief statement of intent to &. Mentorship can include formal teaching for course credit as well as guidance with senior thesis writing and graduate/medical school applications. Our goal is to guide dedicated students towards developing the abilities to perform and analyze high quality experiments, make sufficient contributions to co-author a publication, and become gradually able to lead their own project. Mentoring: The student will work closely with a postdoctoral fellow (Ganna Palagina) and will meet at regular intervals (weekly) with the PI (Dr Smirnakis) for scientific discussions, teaching/feedback and overall guidance. H ours: Schedules will be determined on an individual basis but, at minimum, a 10-hr weekly commitment (on average) for at least one term is required (work may be done on site or remotely depending on task assigned). Facility with programming (MATLAB, python, or C++) and/or background in computational approaches to systems neuroscience would be very helpful, though training will be provided at the laboratory. Prior experience with animal experiments, rodent behavioral testing, 2-photon imaging and/or electrophysiology are desired but not strictly required the student will be trained to perform such experiments. Requirements: Strong interest, reliability and dedication are essential. Duties: Students will gain experience in performing and analyzing in vivo two photon imaging & electrophysiology experiments in mice to study how neuronal populations encode visual information in a range of contexts, including during bi-stable visual perception, visual learning and others. The position will start as volunteer with the potential of developing into a part-time paid position in the future. We are looking for students interested in studying how different types of neurons interact along the cortical column to form coordinated assemblies that encode sensory (visual) information. Smirnakis Lab ( ), Department of Neurology, Brigham and Women’s Hospital Research Assistant Positions: Circuit Mechanisms of Neural Coding and Visual Perception
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