Integrated System-Level Modeling of Network-on-Chip enabled Multi-Processor Platforms
Integrated System-Level Modeling of Network-on-Chip enabled Multi-Processor Platforms

Author: Tim Kogel

Publisher: Springer Science & Business Media

Published: 2006-08-25

Total Pages: 202

ISBN-13: 1402048262

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Integrated System-Level Modeling of Network-on-Chip Enabled Multi-Processor Platforms first gives a comprehensive update on recent developments in the area of SoC platforms and ESL design methodologies. The main contribution is the rigorous definition of a framework for modeling at the timing approximate level of abstraction. Subsequently this book presents a set of tools for the creation and exploration of timing approximate SoC platform models.

Multi-Processor System-on-Chip 2
Multi-Processor System-on-Chip 2

Author:

Publisher: John Wiley & Sons

Published: 2021-03-31

Total Pages: 272

ISBN-13: 1119818389

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A Multi-Processor System-on-Chip (MPSoC) is the key component for complex applications. These applications put huge pressure on memory, communication devices and computing units. This book, presented in two volumes – Architectures and Applications – therefore celebrates the 20th anniversary of MPSoC, an interdisciplinary forum that focuses on multi-core and multi-processor hardware and software systems. It is this interdisciplinarity which has led to MPSoC bringing together experts in these fields from around the world, over the last two decades. Multi-Processor System-on-Chip 2 covers application-specific MPSoC design, including compilers and architecture exploration. This second volume describes optimization methods, tools to optimize and port specific applications on MPSoC architectures. Details on compilation, power consumption and wireless communication are also presented, as well as examples of modeling frameworks and CAD tools. Explanations of specific platforms for automotive and real-time computing are also included.

Multiprocessor Systems on Chip
Multiprocessor Systems on Chip

Author: Torsten Kempf

Publisher: Springer Science & Business Media

Published: 2011-02-11

Total Pages: 200

ISBN-13: 1441981535

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This book gives a comprehensive introduction to the design challenges of MPSoC platforms, focusing on early design space exploration. It defines an iterative methodology to increase the abstraction level so that evaluation of design decisions can be performed earlier in the design process. These techniques enable exploration on the system level before undertaking time- and cost-intensive development.

Processor and System-on-Chip Simulation
Processor and System-on-Chip Simulation

Author: Rainer Leupers

Publisher: Springer Science & Business Media

Published: 2010-09-15

Total Pages: 343

ISBN-13: 1441961755

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Simulation of computer architectures has made rapid progress recently. The primary application areas are hardware/software performance estimation and optimization as well as functional and timing verification. Recent, innovative technologies such as retargetable simulator generation, dynamic binary translation, or sampling simulation have enabled widespread use of processor and system-on-chip (SoC) simulation tools in the semiconductor and embedded system industries. Simultaneously, processor and SoC simulation is still a very active research area, e.g. what amounts to higher simulation speed, flexibility, and accuracy/speed trade-offs. This book presents and discusses the principle technologies and state-of-the-art in high-level hardware architecture simulation, both at the processor and the system-on-chip level.

Multi-Processor System-on-Chip 1
Multi-Processor System-on-Chip 1

Author: Liliana Andrade

Publisher: John Wiley & Sons

Published: 2021-03-12

Total Pages: 320

ISBN-13: 1119818273

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A Multi-Processor System-on-Chip (MPSoC) is the key component for complex applications. These applications put huge pressure on memory, communication devices and computing units. This book, presented in two volumes – Architectures and Applications – therefore celebrates the 20th anniversary of MPSoC, an interdisciplinary forum that focuses on multi-core and multi-processor hardware and software systems. It is this interdisciplinarity which has led to MPSoC bringing together experts in these fields from around the world, over the last two decades. Multi-Processor System-on-Chip 1 covers the key components of MPSoC: processors, memory, interconnect and interfaces. It describes advance features of these components and technologies to build efficient MPSoC architectures. All the main components are detailed: use of memory and their technology, communication support and consistency, and specific processor architectures for general purposes or for dedicated applications.

Multiprocessor System-on-Chip
Multiprocessor System-on-Chip

Author: Michael Hübner

Publisher: Springer Science & Business Media

Published: 2010-11-25

Total Pages: 268

ISBN-13: 1441964606

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The purpose of this book is to evaluate strategies for future system design in multiprocessor system-on-chip (MPSoC) architectures. Both hardware design and integration of new development tools will be discussed. Novel trends in MPSoC design, combined with reconfigurable architectures are a main topic of concern. The main emphasis is on architectures, design-flow, tool-development, applications and system design.

Electronic System-Level HW/SW Co-Design of Heterogeneous Multi-Processor Embedded Systems
Electronic System-Level HW/SW Co-Design of Heterogeneous Multi-Processor Embedded Systems

Author: Luigi Pomante

Publisher: River Publishers

Published: 2016-06-15

Total Pages: 272

ISBN-13: 8793379382

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Modern electronic systems consist of a fairly heterogeneous set of components. Today, a single system can be constituted by a hardware platform, frequently composed of a mix of analog and digital components, and by several software application layers. The hardware can include several heterogeneous microprocessors (e.g. GPP, DSP, GPU, etc.), dedicated ICs (ASICs and/or FPGAs), memories, a set of local connections between the system components, and some interfaces between the system and the environment (sensors, actuators, etc.). Therefore, on the one hand, multi-processor embedded systems are capable of meeting the demand of processing power and flexibility of complex applications. On the other hand, such systems are very complex to design and optimize, so that the design methodology plays a major role in determining the success of the products. For these reasons, to cope with the increasing system complexity, the approaches typically used today are oriented towards co-design methodologies working at the higher levels of abstraction. Unfortunately, such methodologies are typically customized for the specific application, suffer of a lack of generality and still need a considerable effort when real-size project are envisioned. Therefore, there is still the need for a general methodology able to support the designer during the high-level steps of a co-design flow, enabling an effective design space exploration before tackling the low-level steps and thus committing to the final technology. This should prevent costly redesign loops. In such a context, the work described in this book, composed of two parts, aims at providing models, methodologies and tools to support each step of the co-design flow of embedded systems implemented by exploiting heterogeneous multi-processor architectures mapped on distributed systems, as well as fully integrated onto a single chip. The first part focuses on issues like the analysis of system specification languages, and the analysis of existing system-level HW/SW co-simulation methodologies to support heterogeneous multi-processor architectures. The second part focuses mainly on Design Space Exploration, and it presents both some theoretical advancements with respect to the first part, and the development of a prototypal framework that provides practical exploitation of the proposed concepts.

Chip Multiprocessor Generator
Chip Multiprocessor Generator

Author: Ofer Shacham

Publisher: Stanford University

Published: 2011

Total Pages: 190

ISBN-13:

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Recent changes in technology scaling have made power dissipation today's major performance limiter. As a result, designers struggle to meet performance requirements under stringent power budgets. At the same time, the traditional solution to power efficiency, application specific designs, has become prohibitively expensive due to increasing nonrecurring engineering (NRE) costs. Most concerning are the development costs for design, validation, and software for new systems. In this thesis, we argue that one can harness ideas of reconfigurable designs to build a design framework that can generate semi-custom chips --- a Chip Generator. A domain specific chip generator codifies the designer knowledge and design trade-offs into a template that can be used to create many different chips. Like reconfigurable designs, these systems fix the top level system architecture, amortizing software and validation and design costs, and enabling a rich system simulation environment for application developers. Meanwhile, below the top level, the developer can "program" the individual inner components of the architecture. Unlike reconfigurable chips, a generator "compiles" the program to create a customized chip. This compilation process occurs at elaboration time --- long before silicon is fabricated. The result is a framework that enables more customization of the generated chip at the architectural level, because additional components and logic can be added if the customization process requires it. At the same time this framework does not introduce inefficiency at the circuit level because unneeded circuit overheads are not taped out. Using Chip Generators, we argue, will enable design houses to design a wide family of chips using a cost structure similar to that of designing a single chip --- potentially saving tens of millions of dollars --- while enabling per-application customization and optimization.