Electronic System-Level HW/SW Co-Design of Heterogeneous Multi-Processor Embedded Systems
Seiten
2016
River Publishers (Verlag)
978-87-93379-38-1 (ISBN)
River Publishers (Verlag)
978-87-93379-38-1 (ISBN)
- Lieferbar (Termin unbekannt)
- Versandkostenfrei innerhalb Deutschlands
- Auch auf Rechnung
- Verfügbarkeit in der Filiale vor Ort prüfen
- Artikel merken
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.
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.
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.
R. Kalidoss and K. S. Vishvaksenan, SSN College of Engineering, lndia, and M. A. Bhagyaveni, Anna University, India.
Preface Acknowledgments List of Figures List of Tables List of Abbreviations Part 1: System-Level Co-Design of Heterogeneous Multi-Processor Embedded Systems 1 Introduction 2 Background 3 The Proposed Approach 4 System-Level Co-Specification 5 Metrics for Co-Analysis 6 System-Level Co-Estimations 7 System-Level Partitioning 8 System-Level Co-Simulation 9 Case Studies Conclusions (Part 1) Part 2 10 System-Level Design Space Exploration 11 SystemC-Based ESL Design Space Exploration References Index About the Author
Erscheinungsdatum | 06.05.2016 |
---|---|
Verlagsort | Gistrup |
Sprache | englisch |
Maße | 156 x 234 mm |
Gewicht | 660 g |
Themenwelt | Informatik ► Weitere Themen ► Hardware |
Technik ► Elektrotechnik / Energietechnik | |
ISBN-10 | 87-93379-38-2 / 8793379382 |
ISBN-13 | 978-87-93379-38-1 / 9788793379381 |
Zustand | Neuware |
Haben Sie eine Frage zum Produkt? |
Mehr entdecken
aus dem Bereich
aus dem Bereich
entwickle, drucke und baue deine DIY-Objekte
Buch | Hardcover (2023)
Hanser, Carl (Verlag)
34,99 €