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Record Nr. |
UNIORUON00203018 |
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Autore |
CHAMERO SERENA, Joaquin |
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Titolo |
De los pedroches a Indias : viajeros del siglo XVI / Joaquin Chamero Serena |
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Pubbl/distr/stampa |
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Madrid, : Editorial Ciencia, 1996. 131 p. ; 22 cm. |
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ISBN |
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Soggetti |
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America latina - Storia - Sec. 16 |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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2. |
Record Nr. |
UNINA9910826714103321 |
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Autore |
Flynn Michael J |
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Titolo |
Computer System Design : System-on-Chip |
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Pubbl/distr/stampa |
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ISBN |
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9786613157355 |
9781283157353 |
1283157357 |
9781118009918 |
1118009916 |
9781118009925 |
1118009924 |
9781118009901 |
1118009908 |
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Edizione |
[1st edition] |
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Descrizione fisica |
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1 online resource (356 p.) |
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Altri autori (Persone) |
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Disciplina |
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Soggetti |
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Systems on a chip |
Electrical & Computer Engineering |
Engineering & Applied Sciences |
Electrical Engineering |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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Note generali |
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Description based upon print version of record. |
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Nota di bibliografia |
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Includes bibliographical references (p. 316-328) and index. |
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Nota di contenuto |
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COMPUTER SYSTEM DESIGN; CONTENTS; PREFACE; LIST OF ABBREVIATIONS AND ACRONYMS; 1: Introduction to the Systems Approach; 1.1 SYSTEM ARCHITECTURE: AN OVERVIEW; 1.2 COMPONENTS OF THE SYSTEM: PROCESSORS, MEMORIES, AND INTERCONNECTS; 1.3 HARDWARE AND SOFTWARE: PROGRAMMABILITY VERSUS PERFORMANCE; 1.4 PROCESSOR ARCHITECTURES; 1.4.1 Processor: A Functional View; 1.4.2 Processor: An Architectural View; 1.5 MEMORY AND ADDRESSING; 1.5.1 SOC Memory Examples; 1.5.2 Addressing: The Architecture of Memory; 1.5.3 Memory for SOC Operating System; 1.6 SYSTEM-LEVEL INTERCONNECTION; 1.6.1 Bus-Based Approach |
1.6.2 Network-on-Chip Approach1.7 AN APPROACH FOR SOC DESIGN; 1.7.1 Requirements and Specifications; 1.7.2 Design Iteration; 1.8 SYSTEM ARCHITECTURE AND COMPLEXITY; 1.9 PRODUCT ECONOMICS AND IMPLICATIONS FOR SOC; 1.9.1 Factors Affecting Product Costs; 1.9.2 Modeling Product Economics and Technology Complexity: The Lesson for SOC; 1.10 DEALING WITH DESIGN COMPLEXITY; 1.10.1 Buying IP; 1.10.2 Reconfiguration; 1.11 CONCLUSIONS; 1.12 PROBLEM SET; 2: Chip Basics: Time, Area, Power, Reliability, and Configurability; 2.1 INTRODUCTION; 2.1.1 Design Trade-Offs; 2.1.2 Requirements and Specifications |
2.2 CYCLE TIME2.2.1 Defining a Cycle; 2.2.2 Optimum Pipeline; 2.2.3 Performance; 2.3 DIE AREA AND COST; 2.3.1 Processor Area; 2.3.2 Processor Subunits; 2.4 IDEAL AND PRACTICAL SCALING; 2.5 POWER; 2.6 AREA-TIME-POWER TRADE-OFFS IN PROCESSOR DESIGN; 2.6.1 Workstation Processor; 2.6.2 Embedded Processor; 2.7 RELIABILITY; 2.7.1 Dealing with Physical Faults; 2.7.2 Error Detection and Correction; 2.7.3 Dealing with Manufacturing Faults; 2.7.4 Memory and Function Scrubbing; 2.8 CONFIGURABILITY; 2.8.1 Why Reconfigurable Design?; 2.8.2 Area Estimate of Reconfigurable Devices; 2.9 CONCLUSION |
2.10 PROBLEM SET3: Processors; 3.1 INTRODUCTION; 3.2 PROCESSOR SELECTION FOR SOC; 3.2.1 Overview; 3.2.2 Example: Soft Processors; 3.2.3 Examples: Processor Core Selection; 3.3 BASIC CONCEPTS IN PROCESSOR ARCHITECTURE; 3.3.1 Instruction Set; 3.3.2 Some Instruction Set Conventions; 3.3.3 Branches; 3.3.4 Interrupts and Exceptions; 3.4 BASIC CONCEPTS IN PROCESSOR MICROARCHITECTURE; 3.5 BASIC ELEMENTS IN INSTRUCTION HANDLING; 3.5.1 The Instruction Decoder and Interlocks; 3.5.2 Bypassing; 3.5.3 Execution Unit; 3.6 BUFFERS: MINIMIZING PIPELINE DELAYS; 3.6.1 Mean Request Rate Buffers |
3.6.2 Buffers Designed for a Fixed or Maximum Request Rate3.7 BRANCHES: REDUCING THE COST OF BRANCHES; 3.7.1 Branch Target Capture: Branch Target Buffers (BTBs); 3.7.2 Branch Prediction; 3.8 MORE ROBUST PROCESSORS: VECTOR, VERY LONG INSTRUCTION WORD (VLIW), AND SUPERSCALAR; 3.9 VECTOR PROCESSORS AND VECTOR INSTRUCTION EXTENSIONS; 3.9.1 Vector Functional Units; 3.10 VLIW PROCESSORS; 3.11 SUPERSCALAR PROCESSORS; 3.11.1 Data Dependencies; 3.11.2 Detecting Instruction Concurrency; 3.11.3 A Simple Implementation; 3.11.4 Preserving State with Out-of-Order Execution |
3.12 PROCESSOR EVOLUTION AND TWO EXAMPLES |
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Sommario/riassunto |
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The next generation of computer system designers will be less concerned about details of processors and memories, and more concerned about the elements of a system tailored to particular applications. These designers will have a fundamental knowledge of |
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processors and other elements in the system, but the success of their design will depend on the skills in making system-level tradeoffs that optimize the cost, performance and other attributes to meet application requirements. This book provides a new treatment of computer system design, particularly for System-on-Chip (SOC), which addresses th |
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