W E L C O M E. T R I G A T E T R A N S I S T O R.

Slides:

Advertisements

Similar presentations

DRAFT - NOT FOR PUBLICATION 14 July 2004 – ITRS Summer Conference ITRS FEP Challenges Continued scaling will require the introduction of new materials.

Advertisements

Embedded Systems Design: A Unified Hardware/Software Introduction 1 Chapter 10: IC Technology.

Intel’s Low Power Technology

by Alexander Glavtchev

CONTENTS 1. History 2. FET Definition 3. FET operation

Terahertz Transistors - Abhishek Divekar, Electrical and Computer Engineering, Oklahoma State University Introduction: I n 2001, Intel, came up with a.

A Brief History of Computers From Prehistory to the 21 st Century David A. Lewis Hyndman Middle Senior High School Hyndman, PA

Single Electron Devices Single-electron Transistors

Metal Oxide Semiconductor Field Effect Transistors

Power Reduction Techniques For Microprocessor Systems

In an appliance, we may need to: control current flow direction convert AC to DC turn current on or off amplify a current These used heated filaments and.

High-K Dielectrics The Future of Silicon Transistors

Lateral Asymmetric Channel (LAC) Transistors

Zhang Xintong 11/26/2014 Process technologies for making FinFETs.

Design and Implementation of VLSI Systems (EN0160)

S. Reda EN160 SP’08 Design and Implementation of VLSI Systems (EN1600) Lecture 18: Scaling Theory Prof. Sherief Reda Division of Engineering, Brown University.

Lesson 1 Introduction – “Is there a limit ?” Transistors – “CMOS building blocks” Physics, Cross section and Layout Views.

Outline Introduction – “Is there a limit?”

Moore’s Law No Moore? Presented by: Cutting Edge Homework Development.

EE141 © Digital Integrated Circuits 2nd Introduction 1 The First Computer.

3.1Introduction to CPU Central processing unit etched on silicon chip called microprocessor Contain tens of millions of tiny transistors Key components:

The science that drives modern computers. COS 116, Spring 2012 Adam Finkelstein.

MOS Capacitors MOS capacitors are the basic building blocks of CMOS transistors MOS capacitors distill the basic physics of MOS transistors MOS capacitors.

{ The demise of Conventional Computing? Bilal Kaleem, 1 st Year Physics.

2.6 Moore’s Law U2C6.

Device Physics – Transistor Integrated Circuit

Keeping Up with Moore’s Law Who the heck is this Moore guy anyway? Gordon E. Moore was the cofounder of Intel Corporation Gordon E. Moore was the cofounder.

CMOS Scaling Two motivations to scale down

Figure 9.1. Use of silicon oxide as a masking layer during diffusion of dopants.

VLSI, Lecture 1 A review of microelectronics and an introduction to MOS technology Department of Computer Engineering, Prince of Songkla.

Multi-core Programming Introduction Topics. Topics General Ideas Moore’s Law Amdahl's Law Processes and Threads Concurrency vs. Parallelism.

Introduction to FinFet

Text Book: Silicon VLSI Technology Fundamentals, Practice and Modeling Authors: J. D. Plummer, M. D. Deal, and P. B. Griffin Class: ECE 6466 “IC Engineering”

1 BULK Si (100) VALENCE BAND STRUCTURE UNDER STRAIN Sagar Suthram Computational Nanoelectronics Class Project

Outline  Over view  Design  Performance  Advantages and disadvantages  Examples  Conclusion  Bibliography.

Introduction to CMOS VLSI Design Lecture 1: Circuits & Layout.

Exascale Computing. 1 Teraflops Chip Knight Corner will be manufactured with Intel’s 3-D Tri-Gate 22nm process and features more than 50 cores.

VLSI: A Look in the Past, Present and Future Basic building block is the transistor. –Bipolar Junction Transistor (BJT), reliable, less noisy and more.

Present – Past -- Future

Semiconductor Industry Milestones

History of Computer History of Computer.

EE141 © Digital Integrated Circuits 2nd Introduction 1 Principle of CMOS VLSI Design Introduction Adapted from Digital Integrated, Copyright 2003 Prentice.

Moore’s Law and Its Future Mark Clements. 15/02/2007EADS 2 This Week – Moore’s Law History of Transistors and circuits The Integrated circuit manufacturing.

1 Materials Beyond Silicon Materials Beyond Silicon By Uma Aghoram.

The Fate of Silicon Technology: Silicon Transistors Maria Bucukovska Scott Crawford Everett Comfort.

A 280mV-to-1.1V 256b Reconfigurable SIMD Vector Permutation Engine with 2-D Shuffle in 22nm CMOS [ISSCC ’12] Literature Review Fang-Li Yuan Advisor: Prof.

CS203 – Advanced Computer Architecture

Intel’s 3D Transistor BENJAMIN BAKER. Where we are headed  What is a transistor?  What it is and what does it do?  Moore’s Law  Who is Moore and what.

Computer Organization IS F242. Course Objective It aims at understanding and appreciating the computing system’s functional components, their characteristics,

Government Engineering College Bharuch Metal Oxide Semiconductor Field Effect Transistors{MOSFET} Prepared by- RAHISH PATEL PIYUSH KUMAR SINGH

Integration Lower sums Upper sums

1. What are 3 things you notice in the picture. 2

Power MOSFET Pranjal Barman.

CS203 – Advanced Computer Architecture

Graphene Based Transistors-Theory and Operation; Development State

MOSFET The MOSFET (Metal Oxide Semiconductor Field Effect Transistor) transistor is a semiconductor device which is widely used for switching and amplifying.

Beyond Moore’s Law, Issues and Approaches By: Patrick Cauley 4/8/16

by Alexander Glavtchev

Major developments in technology

INTRODUCTION: MD. SHAFIQUL ISLAM ROLL: REGI:

What is Product “X”? Name a Product “X” have you recently bought to replace an older version, where the new one was much: Better Faster Cheaper Computer.

Device Physics – Transistor Integrated Circuit

Hardware & Processor Pioneers

PRESENTATION ON TRI GATE TRANSISTOR PREPARED BY: SANDEEP ( )

Device Physics – Transistor Integrated Circuit

Beyond Si MOSFETs Part IV.

Unit -4 Introduction to Embedded Systems Tuesday.

Strained Silicon Aaron Prager EE 666 April 21, 2005.

Hangzhou Dianzi University

Presentation transcript:

W E L C O M E

T R I G A T E T R A N S I S T O R

I N T R O D U C T I O N Transistors  Microscopic, silicon-based switches  Fundamental building block of all semiconductor chips.  With traditional planar transistors, electronic signals travel as if on a flat, one-way road.  Transistors shrink to less than 30 nanometers

 3-D structure  Runs faster,better perfomance  Reduces conventional transistor size  Reduces power dissipation  Increases battery life of mobile devices TRI GATE TRANSISTORS

H I S T O R Y  1950s- planar transistors acted as the basic building block of microprocessors.  Intel developed the world’s first CMOS tri-gate transistors.  Performance improved by integrating the tri-gate design with silicon process technology  Tri- gate transistors are expected to replace the nanometer transistors in the Intel microprocessors by 2012

A R C H I T E C T U R E  Built on an ultra-thin layer of fully depleted silicon  Raised source and drain structure  Compatible with the future introduction of a high K gate dielectric  Show excellent DIBL  Thickness requirement of the Si layer is also relaxed by about 2-3 times

A R C H I T E C T U R E

M O O R E ’ S L A W Moore's law describes a long-term trend in the history of computing hardware, in which the number of transistors that can be placed inexpensively on an integrated circuit has doubled approximately every two years.Moore's law 21st centuries precisely describes a driving force of technological and social change in the late 20th and early.

F A B R I C A T I O N

F A B R I C A T I O N D I A G R A M S

PERFORMANCE COMPARISON OF PLANAR AND TRI GATE TRANSISTOR

 Show excellent control of short channel effects (SCE)  Higher performance, in terms of drive current

A D V A N T A G E S  Lower leakage and consume much less power.  Faster & cooler operation.  45% increase in speed or 50x reduction in off- current.  The basic building blocks for future microprocessors.  Moore's Law scaling can be taken well into the next decade.

A P P L I C A T I O N S  Critical part of INTEL's energy efficient performance  Scaling of silicon transistors  Increase battery life of mobile devices

QUESTIONS & QUERIES ? ? ?