Description: Chapter One: Semiconductors Basics Electricity Electric Charge Electric Current Electromagnetic Force (EMF) and Voltage Power Joule's Law Conductivity Conductors Insulators Semiconductors Silicon - The Crucial Semiconductor Semiconductor History - Part One Semiconductor Value Chain Customer Need & Market DemandChip Design Fabrication & Manufacturing Packaging & Assembly System Integration Product Delivery Performance, Power, Area, and Cost (PPAC) Who Uses Semiconductors? Chapter Two: Circuit Building Blocks Discrete Components - The Building Blocks of Circuits TransistorsTransistor Structure How Transistors Work - A Water Analogy FinFET vs. MOSFET Transistors CMOS Geometric vs. Functional Scaling - Part 1 Logic Gates Chapter Three: Building a System Different Levels of Electronics - How the System Fits Together Integrated Circuit Design Flow System Level Architecture Front End Design Design Verification Physical Design High Level Synthesis Design Netlist Floorplanning Place-and-Route Clock-tree Synthesis Back End Validation Manufacturing (GDS) EDA Tools Chapter Four: Semiconductor Manufacturing Front-End Manufacturing Deposition Patterning & Lithography Removal Processes Physical Property Alteration Cycling - Pre & Post Metal Wafer Probing, Yield, and Failure Analysis Back-End Manufacturing Assembly & Test Wafer Dicing Die Bonding External Interconnect Formation Encapsulation and Sealing Final Testing Chapter Five: Tying the System Together Input / Output (I/O) IC Packaging Wire Bonding Flip Chip Packaging Wafer Level Packaging Multi-Chip Modules & System-In Packages 2.5/3D Packaging Signal Integrity Bus Interfaces Power Flow within Electronic Systems Chapter Six: Common Circuits and System Components Digital vs. Analog Wavelength vs. Frequency Building a System - Putting Components Together Common System Components - The SIA Framework Micro Components Logic Memory OSD Analog Components Micro Components Microprocessors & Microcontrollers Digital Signal Processors Micro Component Market Summary Logic Special Purpose Logic Central Processing Unit Graphics Processing Unit ASIC vs. FPGA System on Chip Logic Market Summary Memory Memory Stack Volatile Memory Random Access Memory DRAM SRAM Non-Volatile Memory Primary Memory ROM PROM EPROM EEPROM NAND Secondary Memory HDD SSD Stacked Die Memory High Bandwidth Memory Hybrid Memory Cube Memory Market Summary Optoelectronics, Sensors & Actuators, and Discrete Components Optoelectronics Sensors & Actuators MEMS Discrete Components PMIC PMU OSD Market Summary Analog Components General Purpose Analog IC vs. ASSP Analog Component Market Summary Chapter Seven: RF & Wireless Technologies RF Signals and The Electromagnetic Spectrum RFIC - Transmitters and Receivers Power Source Oscillators Modulators & Demodulators Amplifiers Antenna Filters OSI Reference Model Application Layer Physical Layer (PHY) Macro System Stack RF and Wireless - The Big Picture Base Stations Tracking a Phone Call Broadcasting and Frequency Regulation Digital Signal Processing TDMA & CDMA 1G to 5G - An Evolution Wireless Communication and Cloud Computing Chapter Eight: System Architecture and Integration Macro vs. Micro-Architecture Common Chip Architectures Von Neumann Architecture Harvard Architecture CISC vs. RISC Choosing an ISA Heterogenous vs. Monolithic Integration Chapter Nine: The Semiconductor Industry - Past, Present, and Future Semiconductor Industry - Major Challenges Design Costs Manufacturing Costs Evolution of the Semiconductor Industry 1960-1980's: Fully Integrated Semiconductor Companies 1980's-2000: IDM + Fabless Design + Pure-Play Foundry 2000-Today: IDM + Fabless Design + Foundries + System Companies Fabs vs. Fabless Design - The Case Against IDM's Industry Outlook Cyclical Revenues and High Volatility High R&D and Capital Investment Positive Productivity Growth Long-Term Profitability High Consolidation 2010-2021: Major Acquisitions by Year U.S. vs. International Semiconductor Market COVID-19 & The Semiconductor Supply Chain Chinese Competition Chapter Ten: The Future of Semiconductors and Electronic Systems Prolonging Moore's Law - Sustaining Technologies 2.5 & 3D Die Stacking Gate-All-Around (GAA) Transistors & New Channel Materials Custom Silicon & Specialized Accelerators Graphene Carbon Nanotubes & 2D Transistors Overcoming Moore's Law - New Technologies Quantum Computing & Quantum TransistorsNeuromorphic Computing
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EAN: 9781484288467
UPC: 9781484288467
ISBN: 9781484288467
MPN: N/A
Format: Paperback, 301 pages, 1st ed. Edition
Author: Richard, Corey
Book Title: Understanding Semiconductors: A Technical Guide fo
Item Height: 1.7 cm
Item Length: 23.4 cm
Item Weight: 0.36 kg
Item Width: 15.6 cm
Language: Eng
Publisher: APress
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