Consumer electronics products, such as high-end (digital) TVs, contain complex systems on chip (SOC) that offer high computational performance at low cost. Traditionally, these SOCs are application-specific standard products (ASSPs) with limited programmability. We describe why TV SOCs must become more flexible, and why companion chips together with networks on chips (NOC) are a crucial enabling technology. In particular, networks that span multiple chips will become important in the near future. We demonstrate our ideas by extending a commercially-available SOC for picture improvement in high-end TVs with the Æthereal NOC. Our first unoptimised results indicate that replacing the original interconnect (consisting of dedicated links and mul...
Growing complexity of multiprocessor systems on chip (MP-SoC) requires future communication resource...
Abstract — Growing complexity of multiprocessor systems on chip (MP-SoC) requires future communicati...
The scaling of VLSI technology has allowed extensive integration of processing resources on a single...
Consumer electronics products, such as high-end (digital) TVs, contain complex systems on chip (SOC)...
Many SoC applications require guaranteed levels of service and performance. Can networks on chips (N...
We are witnessing a growing interest in Networks on Chips (NoC) that is related to the evolution of ...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
Addresses the Challenges Associated with System-on-Chip Integration Network-on-Chip: The Next Genera...
This paper proposes a design methodology for specific network-on-chip (ASNoC). The methodology gener...
Systems on chip (SOC) are composed of intellectual property blocks (IP) and interconnect. While matu...
Systems on chip (SOC) are composed of intellectual property blocks (IP) and interconnect. While matu...
Abstract — A structured packet-switched Networks-on-Chip (NoC) is designed and implemented for high-...
In this article we present test and verification challenges for system chips that utilize on-chip ne...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
Growing complexity of multiprocessor systems on chip (MP-SoC) requires future communication resource...
Abstract — Growing complexity of multiprocessor systems on chip (MP-SoC) requires future communicati...
The scaling of VLSI technology has allowed extensive integration of processing resources on a single...
Consumer electronics products, such as high-end (digital) TVs, contain complex systems on chip (SOC)...
Many SoC applications require guaranteed levels of service and performance. Can networks on chips (N...
We are witnessing a growing interest in Networks on Chips (NoC) that is related to the evolution of ...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
Addresses the Challenges Associated with System-on-Chip Integration Network-on-Chip: The Next Genera...
This paper proposes a design methodology for specific network-on-chip (ASNoC). The methodology gener...
Systems on chip (SOC) are composed of intellectual property blocks (IP) and interconnect. While matu...
Systems on chip (SOC) are composed of intellectual property blocks (IP) and interconnect. While matu...
Abstract — A structured packet-switched Networks-on-Chip (NoC) is designed and implemented for high-...
In this article we present test and verification challenges for system chips that utilize on-chip ne...
Research on Networks on Chips (NoCs) has spanned over a decade and its results are now visible in so...
Growing complexity of multiprocessor systems on chip (MP-SoC) requires future communication resource...
Abstract — Growing complexity of multiprocessor systems on chip (MP-SoC) requires future communicati...
The scaling of VLSI technology has allowed extensive integration of processing resources on a single...