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计算机体系结构与安全  英文版
计算机体系结构与安全  英文版

计算机体系结构与安全 英文版PDF电子书下载

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  • 作 者:王双保,(美)莱德利
  • 出 版 社:北京:高等教育出版社
  • 出版年份:2013
  • ISBN:9787040344929
  • 页数:323 页
图书介绍:本书主要介绍计算机体系结构与安全的基础理论与应用。其从安全的角度对计算机硬件、系统软件和数据 的概念进行全面的阐述,并给出了电子与信息安全专业人员必须了解的在实际工作中的硬件和软件安全解决方案。此外,本书还结合作者在安全体系结构方面的发明专利对计算机安全技术创新进行了详细的、深入的讨论。王双保,美国乔治?梅森大学教授,兼任亚太地区教授学生学者联合会秘书长、美国国家生物医学研究基金会首席信息技术总裁(CIO/CTO)等职务。承担美国联邦科研基金项目“数据采集,视频文件检索和图像识别及图像 加密系统”、美国国土安全部(DHS)基金项目“安全计算机系统结构和系统”等项目。出版学术专著2部,发表学术论文30余篇,在国内外获得多项发明专利,其中4项在美国和中国成功转让。 Robert Ledley,乔治敦大学教授,美国国家生物医学研究基金会会长。承担美国美国联邦科研等基金项目44项,发明专利31项,其中著名的CT(电子计 算机X射线断层扫描)仪广泛应用于医学领域。
《计算机体系结构与安全 英文版》目录

1 Introduction to Computer Architecture and Security 1

1.1 History of Computer Systems 3

1.1.1 Timeline ofComputer History 5

1.1.2 Timeline of Internet History 15

1.1.3 Timeline of Computer Security History 28

1.2 John von Neumann Computer Architecture 34

1.3 Memory and Storage 36

1.4 Input/Output and Network Interface 37

1.5 Single CPU and Multiple CPU Systems 38

1.6 Overview of Computer Security 41

1.6.1 Confidentiality 41

1.6.2 Integrity 42

1.6.3 Availability 42

1.6.4 Threats 43

1.6.5 Firewalls 43

1.6.6 Hacking andAttacks 44

1.7 Security Problems in Neumann Architecture 46

1.8 Summary 48

Exercises 48

References 50

2 Digital Logic Design 51

2.1 Concept of Logic Unit 51

2.2 Logic Functions and Truth Tables 52

2.3 Boolean Algebra 54

2.4 Logic Circuit Design Process 55

2.5 Gates and Flip-Flops 56

2.6 Hardware Security 58

2.7 FPGA and VLSI 58

2.7.1 Design ofan FPGA Biometric Security System 59

2.7.2 A RIFD Student Attendance System 59

2.8 Summary 65

Exercises 67

References 67

3 Computer Memory and Storage 68

3.1 A One Bit Memory Circuit 68

3.2 Register,MAR,MDR and Main Memory 70

3.3 Cache Memory 72

3.4 Virtual Memory 74

3.4.1 Paged Virtual Memory 75

3.4.2 Segmented Virtual Memory 75

3.5 Non-Volatile Memory 76

3.6 External Memory 77

3.6.1 HardDisk Drives 78

3.6.2 TertiaryStorageandOff-LineStorage 78

3.6.3 Serial Advanced Technology Attachment(SATA) 79

3.6.4 Small Computer System Interface(SCSI) 80

3.6.5 SerialAttached SCSI(SAS) 81

3.6. 6 Network-A ttached Storage(NAS) 82

3.6.7 Storage Area Network(SAN) 83

3.6.8 Cloud Storage 85

3.7 Memory Access Security 86

3.8 Summary 88

Exercises 89

References 89

4 Bus and Interconnection 90

4.1 System Bus 90

4.1.1 AddressBus 91

4.1.2 Data Bus 93

4.1.3 Control Bus 93

4.2 Parallel Bus and Serial Bus 95

4.2.1 Parallel Buses and Parallel Communication 95

4.2.2 Serial Bus and Serial Communication 96

4.3 Synchronous Bus and Asynchronous Bus 107

4.4 Single Bus and Multiple Buses 109

4.5 Interconnection Buses 110

4.6 Security Considerations for Computer Buses 111

4.7 A Dual-Bus Interface Design 112

4.7.1 Dual-channel Architecture 113

4.7.2 Triple-ChannelArchitecture 114

4.7.3 A Dual-Bus Memory Interface 115

4.8 Summary 115

Exercises 117

References 117

5 I/O and Network Interface 118

5.1 Direct Memory Access 118

5.2 Interrupts 120

5.3 Programmed I/O 121

5.4 USB and IEEE 1394 122

5.4.1 USB Advantages 123

5.4.2 USB Architecture 123

5.4.3 USB Version History 124

5.4.4 USBDesign andArchitecture 125

5.4.5 USB Mass Storage 127

5.4.6 USB Interface Connectors 128

5.4.7 USB Connector Types 130

5.4.8 USB Power and Charging 133

5.4.9 IEEE 1394 136

5.5 Network Interface Card 136

5.5.1 Basic NIC Architecture 137

5.5.2 Data Transmission 138

5.6 Keyboard,Video and Mouse(KVM) Interfaces 139

5.6.1 Keyboards 140

5.6.2 Video Graphic Card 140

5.6.3 Mouses 140

5.7 Input/Output Security 140

5.7.1 Disable Certain Key Combinations 141

5.7.2 Anti-Glare Displays 141

5.7.3 Adding Password to Printer 141

5.7.4 Bootable USB Ports 141

5.7.5 Encrypting Hard Drives 141

5.8 Summary 141

Exercises 142

References 143

6 Central Processing Unit 144

6.1 The Instruction Set 144

6.1.1 Instruction Classifications 144

6.1.2 Logic Instructions 145

6.1.3 Arithmetic Instructions 145

6.1.4 Intel64/32 Instructions 147

6.2 Registers 153

6.2.1 General-Purpose Registers 153

6.2.2 Segment Registers 155

6.2.3 EFLAGS Register 156

6.3 The Program Counter and Flow Control 158

6.3.1 Intel Instruction Pointer 158

6.3.2 Interrupt and Exception 159

6.4 RISC Processors 161

6.4.1 History 162

6.4.2 Architecture and Programming 162

6.4.3 Performance 163

6.4.4 Advanrages and Disadvantages 163

6.4.5 Applications 164

6.5 Pipelining 164

6.5.1 Different Types ofPipelines 164

6.5.2 Pipeline Performance Analysis 165

6.5.3 Data Hazard 166

6.6 CPU Security 166

6.7 Virtual CPU 168

6.8 Summary 169

Exercises 170

References 170

7 Advanced Computer Architecture 172

7.1 Multiprocessors 172

7.1.1 Multiprocessing 172

7.1.2 Cache 173

7.1.3 Hyper-Threading 174

7.1.4 Symmetric Multiprocessing 175

7.1.5 Multiprocessing Operating Systems 175

7.1.6 The Future ofMultiprocessing 176

7.2 Parallel Processing 177

7.2.1 History ofParallel Processing 177

7.2.2 Flynn's Taxonomy 178

7.2.3 Bit-Level Parallelism 178

7.2.4 Instruction-Level Parallelism 179

7.2.5 Data-Level Parallelism 179

7.2.6 Task-Level Parallelism 179

7.2.7 Memory in ParallelProcessing 180

7.2.8 Specialized Parallel Computers 181

7.2.9 The Future ofParalielProcessing 182

7.3 Ubiquitous Computing 182

7.3.1 Ubiquitous Computing Development 183

7.3.2 Basicforms of Ubiquitous Computing 184

7.3.3 Augmented Reality 185

7.3.4 Mobile Computing 186

7.4 Grid.Distributed and Cloud Computing 187

7.4.1 Characteristics of Grid Computing 187

7.4.2 TheAdvantages andDisadvantages ofGrid Computing 188

7.4.3 Distributed Computing 189

7.4.4 Distributed Systems 189

7.4.5 Parallel and Distributed Computing 190

7.4.6 Distributed Computing Architectures 190

7.4.7 Cloud Computing 192

7.4.8 TechnicalAspects ofCloud Computing 193

7.4.9 Security Aspects of Cloud Computing 194

7.4.1 0 Ongoing and Future Elements in Cloud Computing 195

7.4.1 1 Adoption ofCloud Computing Industry Drivers 196

7.5 Internet Computing 197

7.5.1 Internet Computing Concept and Model 198

7.5.2 Benefit ofInternet Computing for Businesses 199

7.5.3 Examples ofInternet Computing 201

7.5.4 Migrating Internet Computing 202

7.6 Virtualization 203

7.6.1 Types of Virtualization 203

7.6.2 History of Virtualization 205

7.6.3 Virtualization Architecture 205

7.6.4 Virtual Machine Monitor 207

7.6.5 Examples of Virtual Machines 207

7.7 Biocomputers 209

7.7.1 Biochemical Computers 209

7.7.2 Biomechanical Computers 209

7.7.3 Bioelectronic Computers 210

7.8 Summary 211

Exercises 212

References 214

8 Assembly Language and Operating Systems 216

8.1 Assembly Language Basics 217

8.1.1 Numbering Systems 217

8.1.2 The Binary Numbering System and Base Conversions 219

8.1.3 The Hexadecimal Numbering System 220

8.1.4 Signedand UnsignedNumbers 221

8.2 Operation Code and Operands 223

8.3 Direct Addressing 225

8.4 Indirect Addressing 225

8.5 Stack and Buffer Overflow 226

8.5.1 Calling Procedures Using CALL and RET(Return) 228

8.5.2 Exploiting Stack Buffer Overflows 229

8.5.3 Stack Protection 231

8.6 FIFO and M/M/1 Problem 232

8.6.1 FIFO Data Structure 232

8.6.2 M/M/1 Model 233

8.7 Kernel,Drivers and OS Security 234

8.7.1 Kernel 234

8.7.2 BIOS 235

8.7.3 Boot Loader 236

8.7.4 Device Drivers 237

8.8 Summary 238

Exercises 239

References 240

9 TCP/IP and Internet 241

9.1 Data Communications 241

9.1.1 Signal,Data.and Channels 242

9.1.2 Signal Encoding and Modulation 243

9.1.3 Shannon Theorem 244

9.2 TCP/IP Protocol 244

9.2.1 Network Topology 245

9.2.2 Transmission Control Protocol(TCP) 246

9.2.3 The User Datagram Protocol(UDP) 247

9.2.4 Internet Protocol(IP) 247

9.3 Network Switches 248

9.3.1 Layer 1 Hubs 248

9.3.2 Ethernet Switch 249

9.4 Routers 250

9.4.1 History ofRouters 251

9.4.2 Architecture 251

9.4.3 Internet Protocol Version 4 (IPv4) 253

9.4.4 Internet Protocol Version 6(IPv6) 254

9.4.5 Open Shortest Path First 254

9.4.6 Throughput and Delay 256

9.5 Gateways 257

9.6 Wireless Networks and Network Address Translation (NAT) 258

9.6.1 Wireless Networks 258

9.6.2 Wireless Protocols 260

9.6.3 WLANHandshaking,War Driving,and WLANSecurity 261

9.6.4 Security Measures to Reduce Wireless Attacks 263

9.6.5 The Future of Wireless Network 263

9.6.6 Network Address Translation 264

9.6.7 Environmental and Health Concerns Using Cellular and Wireless Devices 265

9.7 Network Security 267

9.7.1 Introduction 268

9.7.2 Firewall Architecture 271

9.7.3 Constraint and Limitations ofFirewall 273

9.7.4 Enterprise Firewalls 274

9.8 Summary 275

Exercises 276

9.9 Virtual Cyber-Security Laboratory 277

References 278

10 Design and Implementation:Modifying Neumann Architecture 280

10.1 Data Security in Computer Systems 280

10.1.1 Computer Security 281

10.1.2 Data Security and Data Bleaches 282

10.1.3 Researches in Architecture Security 283

10.2 Single-Bus View of Neumann Architecture 284

10.2.1 John von Neumann Computer Architecture 284

10.2.2 Modified Neumann Computer Architecture 285

10.2.3 Problems Exist in John Neumann Model 286

10.3 A Dual-Bus Solution 286

10.4 Bus Controller 288

10.4.1 Working Mechanism of the Bus Controller 288

10.4.2 Co-processor Board 289

10.5 Dual-Port Storage 292

10.6 Micro-Operating System 292

10.7 Summary 293

Exercises 294

10.8 Projects 295

References 295

Appendix A Digital Logic Simulators 297

A.1 CEDAR Logic Simulator 297

A.2 Logisim 298

A.3 Digital Logic Simulator v0.4 298

A.4 Logicly 299

Appendix B Computer Security Tools 300

B.1 Wireshark(Ethereal) 300

B.2 Metasploit 300

B.3 Nessus 301

B.4 Aircrack 301

B.5 Snort 301

B.6 Cain and Abel 302

B.7 BackTrack 302

B.8 Netcat 302

B.9 Tcpdump 302

B.10 John the Ripper 303

Appendix C Patent Application:Intrusion-Free Computer Architecture for Information and Data Security 304

C.1 Background of the Invention 304

C.1.1 John von Neumann ComputerArchitecture Model 305

C.1.2 Modified Neumann Computer Architecture 305

C.1.3 Problems Existed in the John Neumann Model 307

C.1.4 The Goal ofthe Invention 307

C.2 Field of Invention 308

C.3 Detailed Description of the Invention 308

C.4 Claim 310

Index 313

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