A masters is awarded to students who have completed postgraduate level study in a specific field of study or area of professional practice while demonstrating a high level of mastery during the process.
As a highly technical area of study, manufacturing engineering can be focused on both the practices and processes of manufacturing. Delving into topics of tool development, process management, and facility equipment and machines, manufacturing engineering students may expect a well-rounded education in facilities and systems management.
The USA remains the world’s most popular destination for international students. Universities in the US dominate the world rankings and the country also offers a wide variety of exciting study locations. State university systems are partially subsidized by state governments, and may have many campuses spread around the state, with hundreds of thousands of students.
Roanoke, an independent city is located in the Commonwealth of Virginia. Higher education institutes in the city run 2 years and 4 year degree programs in a number of cases.
Request Information Part time Masters Degrees in Manufacturing Engineering in Rochester in USA 2019
The master of engineering degree in microelectronics manufacturing engineering provides a broad-based education to students with a bachelor’s degree in traditional engineering or science disciplines who are interested in a career in the semiconductor industry. [+]
The master of engineering degree in microelectronics manufacturing engineering provides a broad-based education to students with a bachelor’s degree in traditional engineering or science disciplines who are interested in a career in the semiconductor industry.
Graduates of the program will: design and understand a sequence of processing steps to fabricate a solid state device to meet a set of target parameters; analyze experimental electrical data from a solid state device to extract performance parameters used in the device design; understand current lithographic materials, processes, and systems to meet imaging and device patterning requirements; understand the relevance of a process or device to current manufacturing practices; perform in a microelectronic manufacturing environment in an area of specialization, such as device engineering, circuit design, lithography, materials and processes, yield enhancement, and manufacturing.... [-]