Lectures related to Scaling Trends: Parallel Hardware Evolution

Scaling Trends: Transistors, Power, and Hardware Evolution

Explores the evolution of hardware systems, from transistors to modern parallelism and the challenges of power limitations.

Scaling Trends: Transistors, Power Constraints, and Parallel Computing

Explores the evolution of transistors, power constraints, and the shift towards parallel computing in modern systems.

Analog CMOS Integrated Circuits: Fundamentals

Covers the fundamentals of analog CMOS integrated circuits, emphasizing transistor-level design principles and the historical impact of CMOS technology.

Integrated Circuits: Evolution and Fabrication

Explores the evolution of integrated circuits, from transistors to CMOS technology, highlighting key historical milestones.

Logic Systems: Karnaugh Maps and TTL Gates

Explores Karnaugh maps, TTL gates, analog aspects of digital logic, and prime implicants.

VLSI Basics: Design and Technology

Covers VLSI design basics, including scaling, technology, MOSFET operation, and logic circuit implementation.

Static Logic Fundamentals

Covers the fundamentals of static logic, including noise immunity, noise margins, and various logic gate designs.

Digital Integrated Circuits: Evolution and Design

Covers the evolution of digital integrated circuits, market demands impact, modern IC functionalities, microprocessors history, and Moore's law.

SRAM Memory Architecture & Bit Cell

Delves into SRAM fundamentals, bit cell structure, read/write operations, sizing constraints, and the impact on Moore's Law.

Building Tomorrow’s Electronics: From Atoms to Devices

Delves into the evolution of transistors, the impact of quantum effects on nano-devices, and the functionality of memristors.

Computer Architecture: Electronic Memory (Transistor-based)

Explains electronic memory in computer architecture using transistor-based circuits for data storage and retrieval.

CMOS Technology: Evolution and MOSFET Analysis

Explores the historical evolution of CMOS technology, MOSFET analysis, and its applications in digital and analog electronics.

Transistor Logic Gates: TTL vs CMOS

Compares BJT and MOSFET in logic systems, focusing on TTL vs CMOS technologies.

Neuromorphic Computing: Challenges & Future

Compares digital and neuromorphic computing, highlighting challenges and future prospects in the field.

Transistor Amplifiers: Voltage Amplifiers

Covers common transmitter amplifiers and the characteristics of large signals, including saturation and blocking of transistors.

Transistor Bipolar Modeling: Small Signal Linear Model

Explains the small signal linear model of a bipolar transistor in operation.

CMOS Gates and Logic Systems

Covers the basics of CMOS gates and Logic Systems, highlighting the advantages of CMOS over TTL gates.

Introduction to IC Design

Introduces the design of analog CMOS integrated circuits and emphasizes the importance of good analog design skills.

Digital Systems Overview: Evolution and Integration

Explores the evolution of digital systems, from transistors to integrated circuits, emphasizing the impact of Moore's law and practical FPGA work.

Transistors: Understanding Behavior and Circuits

Explores transistors, from basic concepts to circuit applications, including current sources, amplifiers, followers, and switches.