Future Systems on Chips (SoCs) will integrate a large number of processor and storage cores onto a single chip and require Networks on Chip (NoC) to support the heavy communication demands of the system. The individual components of the SoCs will be heterogeneous in nature with widely varying functionality and communication requirements. The communication infrastructure should optimally match communication patterns among these components accounting for the individual component needs. In this paper we present ×pipesCompiler, a tool for automatically instantiating an application-specific NoC for heterogeneous Multi-Processor SoCs. The ×pipesCompiler instantiates a network of building blocks from a library of composable soft macros (switches, ...
The growing complexity of customizable single-chip multiprocessors is requiring communication resour...
Submitted on behalf of EDAA (http://www.edaa.com/)International audienceThe limited scalability of c...
To tackle the increasing communication complexity of multi-core systems, scalable Networks on Chips ...
Future Systems on Chips (SoCs) will integrate a large number of processor and storage cores onto a ...
Cataloged from PDF version of article.As a result of increasing communication demands, application-s...
As a result of increasing communication demands, application-specific and scalable Network-on-Chips ...
The growing complexity of embedded multiprocessor architectures for digital media processing will so...
The growing complexity of customizable embedded multi-processor architectures for digital media proc...
The growing complexity of customizable embedded multi-processor architectures for digital media proc...
The limited scalability of current bus topologies for systems on chips (SoCs) dictates the adoption ...
The limited scalability of current bus topologies for systems on chips (SoCs) dictates the adoption ...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
Due to the tight power budget and reduced time-to-market, Systems-on-Chip (SoC) have emerged as a po...
With the growing complexity in consumer embedded products, new tendencies forecast heterogeneous Mul...
Networks on Chips (NoCs) have evolved as the communication design paradigm of future Systems on Chip...
The growing complexity of customizable single-chip multiprocessors is requiring communication resour...
Submitted on behalf of EDAA (http://www.edaa.com/)International audienceThe limited scalability of c...
To tackle the increasing communication complexity of multi-core systems, scalable Networks on Chips ...
Future Systems on Chips (SoCs) will integrate a large number of processor and storage cores onto a ...
Cataloged from PDF version of article.As a result of increasing communication demands, application-s...
As a result of increasing communication demands, application-specific and scalable Network-on-Chips ...
The growing complexity of embedded multiprocessor architectures for digital media processing will so...
The growing complexity of customizable embedded multi-processor architectures for digital media proc...
The growing complexity of customizable embedded multi-processor architectures for digital media proc...
The limited scalability of current bus topologies for systems on chips (SoCs) dictates the adoption ...
The limited scalability of current bus topologies for systems on chips (SoCs) dictates the adoption ...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
Due to the tight power budget and reduced time-to-market, Systems-on-Chip (SoC) have emerged as a po...
With the growing complexity in consumer embedded products, new tendencies forecast heterogeneous Mul...
Networks on Chips (NoCs) have evolved as the communication design paradigm of future Systems on Chip...
The growing complexity of customizable single-chip multiprocessors is requiring communication resour...
Submitted on behalf of EDAA (http://www.edaa.com/)International audienceThe limited scalability of c...
To tackle the increasing communication complexity of multi-core systems, scalable Networks on Chips ...