203 parallel-computing-numerical-methods positions at California Institute of Technology
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CEBEX laboratory at LHO. In parallel, the chosen candidate will take a lead role in forging results of these investigations into a conceptual design, construction and installation plan, and parametric
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. This position contributes to the planning, design, and implementation of new observatory sub-systems, such as telescope control systems, testing methods, weather sensing systems, and many other critical
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develop their own independent aspects of ongoing projects. Bioinformatic Analyses Learn and apply state-of-the-art statistical and computational methods for analyzing datasets from shotgun metagenomics
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as necessary. Inspect, maintain, install, program and calibrate all building EMS/BMS controls such as thermistor and thermocouples, install and program controllers and end devices. Work closely with
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laboratory at LHO. In parallel, the chosen candidate will assist in forging results of this R&D into a conceptual reference design, construction plan, and parametric cost estimate for CE. These will form
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of the Director is to support the Chief Investment Officer in the management of the overall investment program, including manager selection, portfolio strategy, and management of staff in
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evaluation of protein variants for a novel nicotine biosensor. Essential Job Duties Use computational methods to design protein variants (10%), Use standard molecular biology techniques to create protein
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, disaster recovery, etc. Continually research emerging technologies and services to evaluate and determine value to IMSS and Caltech community. Stay informed about various service models and delivery methods
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fabrication and qualification of a planned 1.2-meter diameter, 120-meter-long demonstration tube, to be erected in the new purpose-built CEBEX laboratory at the LIGO Hanford Observatory (LHO). In parallel
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polishing specifications. Preferred Qualifications 12 years’ experience in optical simulation. Knowledge of numerical methods in computation. Understanding of thermal distortion mechanisms and beam wavefront