Essentials of Computer Organization and ArchitectureJones & Bartlett Learning, 12 lut 2014 - 880 Updated and revised, The Essentials of Computer Organization and Architecture, Third Edition is a comprehensive resource that addresses all of the necessary organization and architecture topics, yet is appropriate for the one-term course. |
Spis treści
Chapter Summary | |
Focus on Codes for Data Recording and Transmission | |
Exercises | |
Chapter Summary | |
CHAPTER 12 | |
MP3 Compression | |
Further Reading | |
Systems Architectures | |
CHAPTER 9 | |
Topics in Embedded Systems | |
Chapter Summary | |
Performance Measurement and Analysis | |
Benchmarks | |
Focus on Karnaugh Maps | |
CHAPTER 4 | |
A Closer Look at Instruction Set Architectures | |
Memory | |
InputOutput and Storage Systems | |
Introduction | |
Network Organization and Architecture | |
CHAPTER 13 | |
APPENDIX A Data Structures and the Computer | |
Further Reading | |
Answers and Hints for Selected Exercises | |
Index | |
Inne wydania - Wyświetl wszystko
Essentials of Computer Organization and Architecture Linda Null,Julia Lobur Ograniczony podgląd - 2014 |
Essentials of Computer Organization and Architecture Linda Null,Julia Lobur Podgląd niedostępny - 2014 |
The Essentials of Computer Organization and Architecture Linda Null,Julia Lobur Podgląd niedostępny - 2014 |
Kluczowe wyrazy i wyrażenia
addressing modes algorithm allow arithmetic assembly language big endian binary numbers byte-addressable bytes cache block Chapter chip circuit clock cycle code word compiler components computer organization computer system decimal decoder devices direct mapped embedded systems encoding error example execution faster fetch flip-flop floating-point format function hardware implement input instruction set integer Intel interface interleaving interrupt Java Kmaps loaded logic machine main memory main memory address MARIE MARIE’s memory access memory address microoperations microprogrammed MIPS module multiple number of bits opcode operands operating system output page table parallel parity Pentium performance physical address pipeline processor quantum computing RAID requires result RISC shown in Figure signals specific stack storage stored superscalar tape transistors truth table two’s complement types typically variables virtual address virtual memory write zero