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Modeling, IC Processes and Emerging Microtechnology

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Modeling, IC Processes and Emerging Microtechnology

Dieser Kurs ist Teil von Spezialisierung „Introduction to Semiconductor and MEMS Fabrication“

Dozenten: Rama Prasad

Bei enthalten

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3 Module

Verschaffen Sie sich einen Einblick in ein Thema und lernen Sie die Grundlagen.

1 Woche zu vervollständigen

unter 10 Stunden pro Woche

Flexibler Zeitplan

In Ihrem eigenen Lerntempo lernen

3 Module

Verschaffen Sie sich einen Einblick in ein Thema und lernen Sie die Grundlagen.

1 Woche zu vervollständigen

unter 10 Stunden pro Woche

Flexibler Zeitplan

In Ihrem eigenen Lerntempo lernen

Kompetenzen, die Sie erwerben

Kategorie: Finite Element Methods
Kategorie: Microarchitecture
Kategorie: Semiconductors
Kategorie: Artificial Intelligence
Kategorie: Simulation and Simulation Software
Kategorie: Process Engineering
Kategorie: Mathematical Modeling
Kategorie: Engineering Analysis
Kategorie: Manufacturing Processes
Kategorie: Computer Architecture
Kategorie: Emerging Technologies
Kategorie: Electronics Engineering
Kategorie: Quantum computing
Kategorie: Process Flow Diagrams

Wichtige Details

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8 Aufgaben

Unterrichtet in Englisch

91%

of learners achieved a positive career outcome

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Dieser Kurs ist Teil der Spezialisierung Spezialisierung „Introduction to Semiconductor and MEMS Fabrication“

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In diesem Kurs gibt es 3 Module

This course presents a powerful design tool, overall fabrication process flows and emerging trends in the Micro technology industry. Finite Element Analysis is a computational tool that design teams use to build models and simulate parts or whole systems. FEA has been introduced with the high business impact use cases, and theoretical background. Integrated CPU (computational processor unit) fabrication flow and its evolution over the past decades is covered. Finally, emerging technologies and trends in both compute processor chips and MEMS are presented.

Moduldetails

This Module will introduce the field of Finite Element Modeling and Simulation (FEA - Finite Element Analysis) as it is practiced in the development and fabrication of MEMS devices and other semiconductor devices. The first section will cover the benefits of using modeling and simulation for product development and manufacturing control. The second section of this module will go into the governing equations capturing the physics of operation of the devices in this sector of Micro Technology. This section also covers – the concept of discretization and approximation theory. Complex partial differential equations of the governing equations are converted to a computer solvable set of linear algebraic equations using approximation theory. Finally, the limitations and shortcomings of FEA is presented, this prepares the students for - factors to consider when using FEA successfully as a powerful and efficient tool.

Das ist alles enthalten

3 Videos5 Lektüren3 Aufgaben1 Plug-in

3 VideosInsgesamt 76 Minuten

Finite Element Modeling and Simulation (FEA) - Lecture 125 Minuten
Finite Element Modeling and Simulation (FEA) - Lecture 226 Minuten
Finite Element Modeling and Simulation (FEA) - Lecture 326 Minuten

5 LektürenInsgesamt 150 Minuten

Finite Element Analysis - Module Overview30 Minuten
Finite Element Modeling and Simulation (FEA) - Lecture 130 Minuten
Finite Element Modeling and Simulation (FEA) - Lecture 230 Minuten
Finite Element Modeling and Simulation (FEA) - Lecture 330 Minuten
Finite element analysis - Additional Resources30 Minuten

3 AufgabenInsgesamt 60 Minuten

Finite Element Modeling and Simulation (FEA) - Quiz 120 Minuten
Finite Element Modeling and Simulation (FEA) - Quiz 220 Minuten
Finite Element Modeling and Simulation (FEA) - Quiz 320 Minuten

1 Plug-in

Finite Element Modeling and Simulation (FEA) - Theory 0 Minuten

This module puts the individual micro fabrication process steps (covered in earlier courses) in an integrated process flow or sequence, to fabricate a complete IC (integrated circuit) wafer. A simple example of the early 3 micro m CMOS circuit chip process flow is walked through. The market specification drivers of the IC circuit is touched upon.

Das ist alles enthalten

3 Videos5 Lektüren3 Aufgaben1 Plug-in

3 VideosInsgesamt 64 Minuten

Process flow specific to IC - Lecture 121 Minuten
Process flow specific to IC - Lecture 215 Minuten
Process flow specific to IC - Lecture 328 Minuten

5 LektürenInsgesamt 92 Minuten

Process flow specific to IC - Module Overview30 Minuten
Process flow specific to IC - Lecture 11 Minute
Process flow specific to IC - Video 230 Minuten
Process flow specific to IC - Lecture 31 Minute
Process flow specific to IC - Additional Resources30 Minuten

3 AufgabenInsgesamt 60 Minuten

Process flow specific to IC - Quiz 120 Minuten
Process flow specific to IC - Quiz 220 Minuten
Process flow specific to IC - Quiz 320 Minuten

1 Plug-in

Evolution of Transistor Innovation: Intel technology0 Minuten

Semiconductor industry is a uniquely remarkable industry that has experienced tremendous increase in computation capability, decrease in chip size, decrease in energy consumption and decrease in cost, all at the same time. This transformational industry continues to see Moore’s law evolve in new ways like parallel algorithms in the software, environment interaction device types (MEMS) built from semiconductor materials and fabrication processes, and quantum computing. The Microtechnology ecosystem is strong within USA and includes the leading R&D entities located across the country. There are industry associations and networks that serve this community.