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1 ECE3055 Computer Architecture and Operating Systems Lecture 1 Introduction Prof. Hsien-Hsin Sean Lee School of Electrical and Computer Engineering Georgia.

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Presentation on theme: "1 ECE3055 Computer Architecture and Operating Systems Lecture 1 Introduction Prof. Hsien-Hsin Sean Lee School of Electrical and Computer Engineering Georgia."— Presentation transcript:

1 1 ECE3055 Computer Architecture and Operating Systems Lecture 1 Introduction Prof. Hsien-Hsin Sean Lee School of Electrical and Computer Engineering Georgia Institute of Technology

2 2 Objectives  To Learn  Core concepts of microprocessor architecture ISA (review of 2030) Pipelining Hazards Cache/Memory hierarchy Memory management  Core concepts of operating systems Processes/threads Protection Resource Management Scheduling File System

3 3 Course Information  Web page: http://www.ece.gatech.edu/~leehs/ECE3055 Will be constantly updated, so check it out regularly  Prerequisite: ECE2031 Digital Design Lab  Textbooks Patterson and Hennessey Patterson and Hennessey, Computer Organization & Design: The Hardware/Software Interface (3rd edition), Morgan Kaufmann, 2004. ISBN 1-55860- 604-1. Silberschatz, Galvin, and Gagne Silberschatz, Galvin, and Gagne, Operating System Concepts with Java (6th edition), John Wiley, 2004. ISBN 0471489050.

4 4 Grading Policy  5 Programming Assignments: 35% (5, 10, 10, 5, 5%) Individual work, no collaboration Due in the first 5 min before class starts No late turn-in will ever be accepted  Exams 3 in-class exams: 45% (15% each, dates TBD) Final: 20% (date on Oscar)  Final Grade is relative to your peer in class

5 5 Part I: Patterson & Hennessy book

6 6 Introduction  Rapidly changing field: vacuum tube -> transistor -> IC -> VLSI (see section 1.4) doubling every 1.5 years: memory capacity processor speed ( Due to advances in technology and organization)  Things you’ll be learning: how computers work, a basic foundation how to analyze their performance (or how not to!) issues affecting modern processors (caches, pipelines)  Why learn this stuff? you want to call yourself a “computer scientist” you want to build software people use (need performance) you need to make a purchasing decision or offer “expert” advice

7 7 Moore’s Law Exponential growth 42 millions 2,250 IBM latest POWER5 has 276 million transistors Intel Dual-Core Xeon (P4-based Tulsa) w/ 16MB unified L3: 1.328 billion, 2006 Transistor count will be doubled every 18 months  Gordon Moore, Intel co-founder P4 Extreme Ed. 178 millions w/ 2MB L3 Core 2 Duo (Conroe) 291 millions, July 2006

8 8 Integrated Circuits Capacity

9 9 Feature Size We are currently at 0.09µm and moving towards 0.065µm

10 10 Average Transistor Cost Per Year

11 11 What is a computer?  Components: Processor(s) Co-processors (graphics, security) Memory (disk drives, DRAM, SRAM, CD/DVD) input (mouse, keyboard, mic) output (display, printer) network  Our primary focus: the processor (datapath and control) implemented using millions of transistors Impossible to understand by looking at each transistor We need...

12 12 Abstraction  Delving into the depths reveals more information  An abstraction omits unneeded detail, helps us cope with complexity  What are some of the details that appear in these familiar abstractions? Compiler … lw r2, mem[r7] add r3, r4, r2 st r3, mem[r8] High Level Language main() { int i,b,c,a[10]; for (i=0; i<10; i++)… a[2] = b + c*i; } Assembler ISA

13 13 A Typical PC System Architecture

14 14 A Typical PC Motherboard (D975XBX)

15 15 A Typical PC Motherboard (D975XBX)

16 16 Instruction Set Architecture  A very important abstraction interface between hardware and low-level software standardizes instructions, machine language bit patterns, etc. advantage: different implementations of the same architecture disadvantage: sometimes prevents using new innovations True or False: Binary compatibility is extraordinarily important?  Modern instruction set architectures : 80x86 (aka iA32), PowerPC (e.g. G4, G5) Xscale, ARM, MIPS Intel/HP EPIC (iA64), AMD64, Intel’s EM64T, SPARC, HP PA-RISC, DEC/Compaq/HP Alpha

17 17 Where we are headed  Performance issues  A specific instruction set architecture  Arithmetic and how to build an ALU  Constructing a processor to execute our instructions Pipelining to improve performance  Memory: caches and virtual memory  I/O  I will try to cover as much as possible, but do not forget we have another half of the semester for OS

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