211 parallel-computing-numerical-methods positions at University of California, Berkeley
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provide space for supportive colleague communities via numerous employee resource groups (staff organizations). Our goal is for everyone on the Berkeley campus to feel supported and equipped to realize
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://strategicplan.berkeley.edu/'>Strategic Plan. At UC Berkeley, we believe that learning is a fundamental part of working, and provide space for supportive colleague communities via numerous employee resource groups (staff
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provide space for supportive colleague communities via numerous employee resource groups (staff organizations). Our goal is for everyone on the Berkeley campus to feel supported and equipped to realize
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numerous employee resource groups (staff organizations). Our goal is for everyone on the Berkeley campus to feel supported and equipped to realize their full potential. We actively support this by providing
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/Full Specialist The Fung lab is developing high-throughput screening methods for reproductive toxicants. We use a combination of chemical screening techniques, in vivo microscopy, molecular biology and
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help manage and contribute to our program in ex vivo human cell biology and in vivo rodent models, focused on deciphering the cellular and molecular basis for neurodegenerative diseases, including
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; innovations in teaching and learning; assessment and program evaluation; decision-making and clinical reasoning; and anti-oppression, diversity, equity, and inclusion. Applicants must hold a doctorate degree
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, and provide space for supportive colleague communities via numerous employee resource groups (staff organizations). Our goal is for everyone on the Berkeley campus to feel supported and equipped
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biochemistry assays. Strong organizational skills, attention to detail, and maintaining a detailed, organized, prompt, and accurate laboratory notebook. Willingness and ability to learn new methods and skills
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. The Specialist will focus on computational modeling using Monte Carlo techniques, as well as modeling of radiotheranostics, modeling of alpha particles, Auger electrons, and conversion electrons for the effects