This book is about digital system testing and testable design. The concepts of testing and testability are treated together with digital design practices and methodologies. The book uses Verilog models and testbenches for implementing and explaining fault simulation and test generation algorithms. Extensive use of Verilog and Verilog PLI for test applications is what distinguishes this book from other test and testability books. Verilog eliminates ambiguities in test algorithms and BIST and DFT hardware architectures, and it clearly describes the architecture of the testability hardware and its test sessions. Describing many of the on-chip decompression algorithms in Verilog helps to evaluate these algorithms in terms of hardware overhead and timing, and thus feasibility of using them for System-on-Chip designs. Extensive use of testbenches and testbench development techniques is another unique feature of this book. Using PLI in developing testbenches and virtual testers provides a powerful programming tool, interfaced with hardware described in Verilog. This mixed hardware/software environment facilitates description of complex test programs and test strategies.
This rigorous text shows electronics designers and students how to deploy Verilog in sophisticated digital systems design.The Second Edition is completely updated -- along with the many worked examples -- for Verilog 2001, new synthesis standards and coverage of the new OVI verification library.
Complete with coverage of the latest VHDL93 standard, this edition offers engineers a thorough guide to the use of VHDL hardware description language in the analysis, simulation, and modeling of complicated microelectronic circuits. Extensive worked problems and examples listed in Verilog as well as VHDL set this edition apart from other VHDL texts.
Utilize the Latest VHDL Tools and Techniques for Desigining Embedded Cores, Cutting-Edge Processors, RT Level Components, and Complex Digital Systems Considered and industry classis, VHDL:Modular Design and Synthesis of Cores and Systems has been fully updated to cover methodologies of modern design and the latest uses of VHDL for digital system design. You'll learn how to utilize VHDL to create specific constructs for specific hardware parts, focusing on VHDL's new libraries and packages. The cutting-edge resource explores the design of RT level components, the application of these components in a core-based, and the development of a complete processor design with its hardware and software as a core in a system-on-a-chip(SOC). Filled with over 150 illustrations, VHDL:Modular Design and Synthesis of Cores and Systems features: An entire toolkit for register-transfer level digital system design Testbench development techniques New to this edition: Coverage of the latest uses of VHDL for digital system design, design of IP cores, interactive and self-checking testbench development, and VHDL's new libraries and packages Inside this State-of-the-Art VHDL Design Tool Design Methodology VHDL Overview Structure of VHDL Simulation Model Combinational Circuits Sequential Circuits Testbench Development Control-Data Partitioned Designs Design of RTL Embedded Cores CPU RT Level Design CPU Memory Indtruction Level Testing Software Tools Embedded System Design
Computer Science and Engineering is a component of Encyclopedia of Technology, Information, and Systems Management Resources in the global Encyclopedia of Life Support Systems (EOLSS), which is an integrated compendium of twenty one Encyclopedias. The Theme on Computer Science and Engineering provides the essential aspects and fundamentals of Hardware Architectures, Software Architectures, Algorithms and Data Structures, Programming Languages and Computer Security. It is aimed at the following five major target audiences: University and College students Educators, Professional practitioners, Research personnel and Policy analysts, managers, and decision makers.
This book is on digital system design for programmable devices, such as FPGAs, CPLDs, and PALs. A designer wanting to design with programmable devices must understand digital system design at the RT (Register Transfer) level, circuitry and programming of programmable devices, digital design methodologies, use of hardware description languages in design, design tools and environments; and finally, such a designer must be familiar with one or several digital design tools and environments. Books on these topics are many, and they cover individual design topics with very general approaches. The number of books a designer needs to gather the necessary information for a practical knowledge of design with field programmable devices can easily reach five or six, much of which is on theoretical concepts that are not directly applicable to RT level design with programmable devices. The focus of this book is on a practical knowledge of digital system design for programmable devices. The book covers all necessary topics under one cover, and covers each topic just enough that is actually used by an advanced digital designer. In the three parts of the book, we cover digital system design concepts, use of tools, and systematic design of digital systems. In the first chapter, design methodologies, use of simulation and synthesis tools and programming programmable devices are discussed. Based on this automated design methodology, the next four chapters present the necessary background for logic design, the Verilog language, programmable devices, and computer architectures.
This book discusses principles, methodologies and tools used for a modern hardware design process. Design flows and hardware languages needed for each stage of the design process are discussed, including C/C++ for description of gate and Boolean level logic circuits, SystemC for RTL descriptions, and TLM-2.0 for system level design and description. Following the coverage of languages and techniques for system level design, the book includes discussion of several system level architectures that can be described using C++, SystemC, and TLM-2.0.
This book is on digital system design for programmable devices, such as FPGAs, CPLDs, and PALs. A designer wanting to design with programmable devices must understand digital system design at the RT (Register Transfer) level, circuitry and programming of programmable devices, digital design methodologies, use of hardware description languages in design, design tools and environments; and finally, such a designer must be familiar with one or several digital design tools and environments. Books on these topics are many, and they cover individual design topics with very general approaches. The number of books a designer needs to gather the necessary information for a practical knowledge of design with field programmable devices can easily reach five or six, much of which is on theoretical concepts that are not directly applicable to RT level design with programmable devices. The focus of this book is on a practical knowledge of digital system design for programmable devices. The book covers all necessary topics under one cover, and covers each topic just enough that is actually used by an advanced digital designer. In the three parts of the book, we cover digital system design concepts, use of tools, and systematic design of digital systems. In the first chapter, design methodologies, use of simulation and synthesis tools and programming programmable devices are discussed. Based on this automated design methodology, the next four chapters present the necessary background for logic design, the Verilog language, programmable devices, and computer architectures.
This book is about digital system testing and testable design. The concepts of testing and testability are treated together with digital design practices and methodologies. The book uses Verilog models and testbenches for implementing and explaining fault simulation and test generation algorithms. Extensive use of Verilog and Verilog PLI for test applications is what distinguishes this book from other test and testability books. Verilog eliminates ambiguities in test algorithms and BIST and DFT hardware architectures, and it clearly describes the architecture of the testability hardware and its test sessions. Describing many of the on-chip decompression algorithms in Verilog helps to evaluate these algorithms in terms of hardware overhead and timing, and thus feasibility of using them for System-on-Chip designs. Extensive use of testbenches and testbench development techniques is another unique feature of this book. Using PLI in developing testbenches and virtual testers provides a powerful programming tool, interfaced with hardware described in Verilog. This mixed hardware/software environment facilitates description of complex test programs and test strategies.
This volume shows how a processor can be designed from scratch and by use of new EDA tools, how it interfaces with its software. It shows how a processor and its software can be used as an embedded core and used for the design of an embedded system.
Complete with coverage of the latest VHDL93 standard, this edition offers engineers a thorough guide to the use of VHDL hardware description language in the analysis, simulation, and modeling of complicated microelectronic circuits. Extensive worked problems and examples listed in Verilog as well as VHDL set this edition apart from other VHDL texts.
This rigorous text shows electronics designers and students how to deploy Verilog in sophisticated digital systems design.The Second Edition is completely updated -- along with the many worked examples -- for Verilog 2001, new synthesis standards and coverage of the new OVI verification library.
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