Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
manage multiple requests from internal and external customers. Demonstrated experience in leading projects with users/clients. PHYSICAL REQUIREMENTS*: Constantly perform desk-based computer tasks
-
beyond traditional medical, dental, retirement, and savings options: Events and program for children, sports camps, tuition options World-class intellectual stimulation through learning and development
-
materials needing record updates or transfers Computing Support, including job duties such as: * Use on a daily basis common computer programs such as word processing, spreadsheets, Google Suite, Microsoft
-
Stanford University is seeking a Software Developer that is passionate about biomedical informatics and leveraging AI to enhance healthcare. The successful candidate will contribute to the expansion
-
, tasks, and responsibilities. Specific duties and responsibilities may vary depending on department or program needs without changing the general nature and scope of the job or level of responsibility
-
seeking a research specialist with a strong background in Systems Neuroscience and/or Computational Neuroscience. The research specialist will work under the general supervision of Prof. Luis Hernandez
-
students in H&S engage in inspirational teaching, learning, and research every day. Department/Program Description: The Department of East Asian Languages and Cultures at Stanford is dedicated to study of
-
meet deadlines. Advanced computer skills and demonstrated experience with office software and email applications. Physical requirements*: Constantly perform desk-based computer tasks. Frequently sitting
-
. Experience working independently with large datasets. Demonstrated collaboration, communication, and writing skills. Physical requirements: Constantly perform desk-based computer tasks. Frequent sitting
-
(HEART) program supported by Advanced Research Projects Agency for Health (ARPA-H). The experimental goal of the position is to test 3D printed valves ex vivo leading to an optimized in vivo valve model