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Trans conductance Output conductance VLSI Lec 14

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Lessons List | 99 Lesson
What is VLSI Introduction Design flow VLSI Lec 01
00:16:36

What is VLSI Introduction Design flow VLSI Lec 01
Moore s law in VLSI IC evolution VLSI Lec 02
00:14:34

Moore s law in VLSI IC evolution VLSI Lec 02
MOS transistor Structure Modes of operation VLSI Lec 03
00:13:50

MOS transistor Structure Modes of operation VLSI Lec 03
MOS transistor Enhancement mode Characteristics VLSI Lec 04
00:16:44

MOS transistor Enhancement mode Characteristics VLSI Lec 04
MOS transistor 6 Steps for fabrication VLSI Lec 05
00:19:33

MOS transistor 6 Steps for fabrication VLSI Lec 05
NMOS Transistor Fabrication steps VLSI Lec 06
00:14:42

NMOS Transistor Fabrication steps VLSI Lec 06
PMOS Transistor Fabrication steps VLSI Lec 07
00:14:19

PMOS Transistor Fabrication steps VLSI Lec 07
CMOS Transistor N Well fabrication VLSI Lec 08
00:28:12

CMOS Transistor N Well fabrication VLSI Lec 08
CMOS Transistor P Well fabrication VLSI Lec 09
00:16:28

CMOS Transistor P Well fabrication VLSI Lec 09
CMOS Transistor Twin tub process VLSI Lec 10
00:11:27

CMOS Transistor Twin tub process VLSI Lec 10
nMOS Transistor Ids versus Vds derivation Part 1 2 VLSI Lec 11
00:19:05

nMOS Transistor Ids versus Vds derivation Part 1 2 VLSI Lec 11
nMOS Transistor Ids versus Vds derivation Saturation Region Part 2 2 VLSI Lec 12
00:13:09

nMOS Transistor Ids versus Vds derivation Saturation Region Part 2 2 VLSI Lec 12
MOS transistor Aspects of Threshold voltage VLSI Lec 13
00:13:20

MOS transistor Aspects of Threshold voltage VLSI Lec 13
Trans conductance Output conductance VLSI Lec 14
00:11:36

Trans conductance Output conductance VLSI Lec 14
Pass transistor Figure of merit VLSI Lec 15
00:12:05

Pass transistor Figure of merit VLSI Lec 15
nMOS inverter Characteristics VLSI Lec 16
00:19:11

nMOS inverter Characteristics VLSI Lec 16
Pull ups Load Resistor NMOS PMOS VLSI Lec 17
00:17:23

Pull ups Load Resistor NMOS PMOS VLSI Lec 17
CMOS inverter Characteristics VLSI Lec 18
00:14:17

CMOS inverter Characteristics VLSI Lec 18
nMOS inverter Pull up to pull down ratio VLSI Lec 19
00:15:05

nMOS inverter Pull up to pull down ratio VLSI Lec 19
nMOS inverter Pull up to pull down ratio driven through Pass transistor VLSI Lec 20
00:22:25

nMOS inverter Pull up to pull down ratio driven through Pass transistor VLSI Lec 20
BiCMOS inverter Circuit Diagram BiPolar CMOS VLSI Lec 21
00:10:35

BiCMOS inverter Circuit Diagram BiPolar CMOS VLSI Lec 21
CMOS and Bipolar technologies Differences VLSI Lec 22
00:10:24

CMOS and Bipolar technologies Differences VLSI Lec 22
Latch up in CMOS circuits SCR VLSI Lec 23
00:12:13

Latch up in CMOS circuits SCR VLSI Lec 23
Stick diagrams MOS layers VLSI Lec 24
00:15:42

Stick diagrams MOS layers VLSI Lec 24
CMOS realizations Inverter VLSI Lec 25
00:12:54

CMOS realizations Inverter VLSI Lec 25
Stick diagrams Rules to draw VLSI Lec 26
00:12:33

Stick diagrams Rules to draw VLSI Lec 26
CMOS inverter Stick diagram VLSI Lec 27
00:14:46

CMOS inverter Stick diagram VLSI Lec 27
CMOS NAND GATE Stick diagram VLSI Lec 28
00:12:25

CMOS NAND GATE Stick diagram VLSI Lec 28
CMOS NOR GATE Stick diagram VLSI Lec 29
00:12:50

CMOS NOR GATE Stick diagram VLSI Lec 29
CMOS logic functions Stick diagram VLSI Lec 30
00:12:43

CMOS logic functions Stick diagram VLSI Lec 30
MOS Layout layers Color Coding Representation VLSI Lec 31
00:15:51

MOS Layout layers Color Coding Representation VLSI Lec 31
Mask layout Lambda based design rules VLSI Lec 32
00:12:26

Mask layout Lambda based design rules VLSI Lec 32
CMOS inverter Layout diagram VLSI Lec 33
00:12:35

CMOS inverter Layout diagram VLSI Lec 33
CMOS 2 input NAND and NOR gates Layout diagram VLSI Lec 34
00:11:34

CMOS 2 input NAND and NOR gates Layout diagram VLSI Lec 34
CMOS logic functions Layout diagram VLSI Lec 35
00:13:35

CMOS logic functions Layout diagram VLSI Lec 35
MOS layers Sheet resistance concept VLSI Lec 36
00:17:09

MOS layers Sheet resistance concept VLSI Lec 36
MOS transistors Inverters Sheet Resistance VLSI Lec 37
00:15:16

MOS transistors Inverters Sheet Resistance VLSI Lec 37
CMOS Inverter Sheet Resistance VLSI Lec 38
00:11:24

CMOS Inverter Sheet Resistance VLSI Lec 38
MOS circuits Area capacitance Standard unit of capacitance VLSI Lec 39
00:16:44

MOS circuits Area capacitance Standard unit of capacitance VLSI Lec 39
MOS Circuits Area capacitance calculations VLSI Lec 40
00:12:05

MOS Circuits Area capacitance calculations VLSI Lec 40
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Course Description

Moore's law in VLSI course, in this course we will learn about Moore's Law in VLSI. This course provides an in-depth exploration of Moore's Law, its origins, and its profound impact on Very Large Scale Integration (VLSI) technology. Starting with an introduction to the historical context, we will delve into Gordon Moore's observation that the number of transistors on a chip doubles approximately every two years, leading to exponential growth in computational power and efficiency. We will examine the technological advancements that have enabled this trend, including innovations in semiconductor materials, photolithography, and transistor design. Through practical examples and case studies, you will gain insights into how Moore's Law has driven the evolution of microprocessors, memory devices, and other critical components in modern electronics. The course also addresses the challenges and limitations faced as we approach the physical and economic boundaries of scaling. Topics such as power consumption, heat dissipation, and the emergence of alternative technologies like quantum computing and neuromorphic engineering will be discussed. By the end of this course, you will have a comprehensive understanding of Moore's Law's significance in VLSI, its current state, and future prospects. This course is ideal for students, professionals, and anyone interested in the dynamic field of semiconductor technology and its pivotal role in shaping the digital age.
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