Plug-n-Play style Intellectual Property (IP) reuse in System on Chip (SoC) design is facilitated by the use of an on-chip bus architecture. We present a synchronous, Finite State Machine based framework for modelling communication aspects of such architectures. This formalism has been developed via interaction with designers and the industry and is intuitive and lightweight. We have developed cycle accurate methods to formally specify protocol compatibility and component composition and show how our model can be used for compatibility verification, interface synthesis and model checking with automated specification. We demonstrate the utility of our framework by modelling the AMBA bus architecture including details such as pipelined operati...
This paper presents a formal model and a systematic approach to the validation of communication arch...
Bus-based systems consist of many similar components which communicate through a fixed channel. We p...
Modern computer systems are advancing from multi-core to many-core designs and System-on-chips (SoC)...
Plug-n-Play style Intellectual Property (IP) reuse in System on Chip (SoC) design is facilitated by ...
Plug-n-Play style Intellectual Property(IP) reuse in System on Chip(SoC) design is facilitated by th...
Plug-n-Play style Intellectual Property(IP) reuse in Sys-tem on Chip(SoC) design is facilitated by t...
Plug-n-play-style intellectual property reuse in system-on-chip design is facilitated by the use of ...
Modern computer systems rely more and more on on-chip communication protocols to exchange data. To m...
Modern computer systems rely more and more on on-chip communication protocols to exchange data. To m...
The field of chip design is characterized by contradictory pressures to reduce time-to-market and ma...
In the absence of a single module interface standard, integration of pre-designed modules in System-...
Hardware module reuse is a standard solution to the problems of increasing complexity of chip archit...
Abstract: System on a Chip (SoC) design has become more and more complexly, because difference funct...
Modern computer systems rely more and more on on-chip communication protocols to exchange data. To t...
International audienceThis paper presents a formal model for representing any on-chip communication ...
This paper presents a formal model and a systematic approach to the validation of communication arch...
Bus-based systems consist of many similar components which communicate through a fixed channel. We p...
Modern computer systems are advancing from multi-core to many-core designs and System-on-chips (SoC)...
Plug-n-Play style Intellectual Property (IP) reuse in System on Chip (SoC) design is facilitated by ...
Plug-n-Play style Intellectual Property(IP) reuse in System on Chip(SoC) design is facilitated by th...
Plug-n-Play style Intellectual Property(IP) reuse in Sys-tem on Chip(SoC) design is facilitated by t...
Plug-n-play-style intellectual property reuse in system-on-chip design is facilitated by the use of ...
Modern computer systems rely more and more on on-chip communication protocols to exchange data. To m...
Modern computer systems rely more and more on on-chip communication protocols to exchange data. To m...
The field of chip design is characterized by contradictory pressures to reduce time-to-market and ma...
In the absence of a single module interface standard, integration of pre-designed modules in System-...
Hardware module reuse is a standard solution to the problems of increasing complexity of chip archit...
Abstract: System on a Chip (SoC) design has become more and more complexly, because difference funct...
Modern computer systems rely more and more on on-chip communication protocols to exchange data. To t...
International audienceThis paper presents a formal model for representing any on-chip communication ...
This paper presents a formal model and a systematic approach to the validation of communication arch...
Bus-based systems consist of many similar components which communicate through a fixed channel. We p...
Modern computer systems are advancing from multi-core to many-core designs and System-on-chips (SoC)...