Exploitation of silicon capacity will require improvements in design productivity and more scalable system paradigms. Asynchronous message passing networks on chip (NOC) have been proposed as backbones for billion-transistor ASICs. We present a novel layered backbone-platform-system (BPS) design methodology for development of network-on-chip based products. It combines and extends the distributed, parallel, embedded and platform-based design concepts in order to manage the diversity and complexity of NOC-based systems. The reuse of communication principles in various platforms, the reuse of platforms in product differentiation, and system-level decision-support methods are the cornerstones of our methodology. The presented mappability estim...
The design of today's semiconductor chips for various applications, such as telecommunications, pose...
AbstractIn the past, shared bus based architecture was used as a communication architecture in SoC. ...
As multi-core systems transition to the many-core realm, the pressure on the interconnection network...
Diversity of computational requirements of information technology products will increase. The produc...
We propose a packet switched platform for single chip systems which scales well to an arbitrary numb...
Addresses the Challenges Associated with System-on-Chip Integration Network-on-Chip: The Next Genera...
To tackle the increasing communication complexity of multi-core systems, scalable Networks on Chips ...
Performance and power of gigascale systems-on-chip (SoCs) is increasingly communication-dominated. D...
This chapter introduces the basic principles and guidelines for network-on-chip design. After provid...
The scaling of microchip technologies has enabled large scale systems-on-chip (SoC). Network-on-chip...
In this paper we describe how Network-on-Chip (NoC) will be the next major challenge to implementing...
Traditionally, design space exploration for Systems-on-Chip (SoCs) has focused on the computational ...
Multiprocessor system-on-chip (MP-SoC) platforms are emerging as an important trend for System on Ch...
A communication-centric design approach, Networks on Chips (NoCs), has emerged as the design paradig...
Networks on Chip presents a variety of topics, problems and approaches with the common theme to syst...
The design of today's semiconductor chips for various applications, such as telecommunications, pose...
AbstractIn the past, shared bus based architecture was used as a communication architecture in SoC. ...
As multi-core systems transition to the many-core realm, the pressure on the interconnection network...
Diversity of computational requirements of information technology products will increase. The produc...
We propose a packet switched platform for single chip systems which scales well to an arbitrary numb...
Addresses the Challenges Associated with System-on-Chip Integration Network-on-Chip: The Next Genera...
To tackle the increasing communication complexity of multi-core systems, scalable Networks on Chips ...
Performance and power of gigascale systems-on-chip (SoCs) is increasingly communication-dominated. D...
This chapter introduces the basic principles and guidelines for network-on-chip design. After provid...
The scaling of microchip technologies has enabled large scale systems-on-chip (SoC). Network-on-chip...
In this paper we describe how Network-on-Chip (NoC) will be the next major challenge to implementing...
Traditionally, design space exploration for Systems-on-Chip (SoCs) has focused on the computational ...
Multiprocessor system-on-chip (MP-SoC) platforms are emerging as an important trend for System on Ch...
A communication-centric design approach, Networks on Chips (NoCs), has emerged as the design paradig...
Networks on Chip presents a variety of topics, problems and approaches with the common theme to syst...
The design of today's semiconductor chips for various applications, such as telecommunications, pose...
AbstractIn the past, shared bus based architecture was used as a communication architecture in SoC. ...
As multi-core systems transition to the many-core realm, the pressure on the interconnection network...