Unit 2&3 Questions
2
Unit-2 1) Briefly discuss the generalized scaling technique. 2) Show that the electric field profile become became a 2dimensional in short channel devices. 3) Explain the short channel effect of MOS device 4) Discuss the processing challenges of further CMOs miniaturization with respect to interconnect. 5) Explain the scaling theory &explain one of the current methods used in scaling theory to obtain sub-micron device miniaturization. 6) Compare optical lithography &electron beam lithography Unit-3 1) Explain the working principal of carbon nano tube FET device with a neat sketch. 2) Mention the key advantages of molecular material. 3) Name the 3 different evolutionary approaches that are useful in extending the performance of standard CMOS devices and explain any one in them? 4) With neat diagram differentiate between LUMO state & HOMO states. 5) Describe the construction and working principles of SOI MOSFET. 6) Bring out the difference between molecular computing & biological computing. 7) Sketch the molecular diode energy levels under equilibrium, forward bias & reverse bias. 8) Sketch the structure molecular diode& highlight the feature of σ −bond &π-bonds of molecular material. 9) Explain the working principle of a molecular diode with molecular structure. 10) Along with the structure, bring out the difference between bulks MOSFET & SOI MOSFET.
-
Upload
abhishek-gowda -
Category
Documents
-
view
217 -
download
3
Transcript of Unit 2&3 Questions
Unit-2
1) Briefly discuss the generalized scaling technique.2) Show that the electric field profile become became a 2dimensional in short channel devices.3) Explain the short channel effect of MOS device4) Discuss the processing challenges of further CMOs miniaturization with respect to
interconnect.
5) Explain the scaling theory &explain one of the current methods used in scaling theory to obtain sub-micron device miniaturization.
6) Compare optical lithography &electron beam lithography
Unit-3
1) Explain the working principal of carbon nano tube FET device with a neat sketch.
2) Mention the key advantages of molecular material.3) Name the 3 different evolutionary approaches that are useful in extending the performance of standard CMOS devices and explain any one in them?4) With neat diagram differentiate between LUMO state & HOMO states.5) Describe the construction and working principles of SOI MOSFET.6) Bring out the difference between molecular computing & biological computing.7) Sketch the molecular diode energy levels under equilibrium, forward bias & reverse bias.8) Sketch the structure molecular diode& highlight the feature of σ−bond &π-bonds of molecular material.9) Explain the working principle of a molecular diode with molecular structure.10) Along with the structure, bring out the difference between bulks MOSFET & SOI MOSFET.
