IIT video lectures on VLSI Technology by Prof. Santiram Kal (Prof. S.Kal)

Video Lecture Series from IIT Professors :

               VLSI Technology by Prof. Santiram Kal (Prof. S.Kal) sir
 

Prof. Santiram Kal  obtained his Ph.D. degree in Engineering Electronics and Electrical Communication Engineering from Indian Institute of Technology in 1983. He has been working as a Professor in Engineering Electronics and Electrical Communication Engineering at Indian Institute of Technology, Kharagpur. His research interests are: microelectronics & VLSI design; MEMS; VLSI process technology, ASICs; integrated silicon micro-sensors; advanced salicide technology; Si-Ge, Si-Ge-C materials & devices; process & device simulation; microwave integrated circuits.  

1. Introduction to VLSI Technology

2. Design and Technology Overview of VLSI - I

3. Design and Technology Overview of VLSI - II

4. Yield and cost Estimation of VLSI Chips

5. Defects, Contamination & Clean Room Requirements

6. Wafer Cleaning Technology

7. Oxidation of Silicon

8. Reaction Kinetics of Oxide Growth in Silicon

9. Oxidation Techniques, Growth Rate & Characterization

10. Lithography Process

11. Photoresists

12. Optical Lithography Techniques

13. Exposure Tools and Optical Effects in Lithography

14. Advanced Lithography Techniques (X-ray,Ion-Beam,E-Beam)

15. Etching

16.

17. Dry & Plasma Etching

18.

19. Impurity Diffusion in Semiconductors

20. Diffusion Theory and Diffusion Systems

21. Impurities in Silicon and Diffusion Profile

22. Evaluation of Diffused Layers in Semiconductors

23. Ion Implantation : Range Theory and Stopping Mechanism

24. Ion Implantation Theory and Channeling

25. Ion Implant Machine

26. High Energy High Dose Implantation

27. Epitaxy Techniques and Classifications

28. Vapor Phase and Liquid Phase Epitaxy

29. VPE Growth Kinetics and MBE

30. Defects in Epitaxy Growth, Selective Epitaxy

31. Chemical Vapor Deposition (CVD): APCVD, LPCVD

32. CVD Techniques: PECVD, RTCVD, UHVCVD

33. Metal CVD and MOCVD

34. Materials for Contacts and Interconnects in VLSI

35. Metallization Techniques - I : Physical Evaporation

36. Metallization Techniques - II : Sputtering

37. Metallization Problems and Failure Mechanisms

38. Silicides and Copper Metallization

39. Isolation Technology in VLsI

40. Advanced Isolation Technology in VLSI

41. Bipolar VLSI Process Technology

42.

43. MOS VLSI Process Technology

44. Advanced VLSI MOS/CMOS Process

45. CMOS/BiCMOS Process Technology

46. VLSI Assembly & Packaging : Chip and Wire Bonding

47. VLSI Packaging Technology