436 computer-security-"https:"-"https:"-"https:"-"https:"-"https:"-"https:" positions at Carnegie Mellon University
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related to the practical design and implementation of AI technologies and systems. We currently lead a community-wide movement to mature the discipline of AI Engineering for Defense and National Security
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, Sustainability and Safety, reflected in the value of our workforce and our community through the planning and execution of every facet of our work. Core responsibilities include: System Maintenance & Repair
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(AI) technologies and systems. We currently lead a community-wide movement to mature the discipline of AI Engineering for Defense and National Security. As our government customers adopt AI and machine
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currently lead a community-wide movement to mature the discipline of AI Engineering for Defense and National Security. As our government customers adopt AI and machine learning to provide leap-ahead mission
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to obtain and maintain a Department of War security clearance. You might also have experience in an academic or technical research setting marketing writing for a technical or DoW audience coordinating with
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colleges to pioneer advanced analytics to ensure public investments and policies maximize competitiveness in technologies critical to national security, economic competitiveness, and the well-being of all
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computing Power supply design Motor controller design and specification Smart battery design Familiarity with 3D modeling software (SolidWorks or similar) Other Requirements: Successful pre-employment
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to obtain and maintain a Department of War security clearance. Preferred Qualifications: Experience in a research, nonprofit, higher education, government, FFRDC, or similarly regulated environment
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to the Lead Financial Analyst, this role works closely with program and directorate leadership to ensure accurate financial information, sound planning, and strong financial stewardship in a compliance-driven
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. This encompasses the full pipeline of organ biofabrication—from computational design and advanced bioprinting to bioreactor maturation and in vivo validation. The LIVE project represents a bold and collaborative