Search results for "Network-on-Chip"

showing 4 items of 4 documents

Flexible Spare Core Placement in Torus Topology based NoCs and its validation on an FPGA

2021

In the nano-scale era, Network-on-Chip (NoC) interconnection paradigm has gained importance to abide by the communication challenges in Chip Multi-Processors (CMPs). With increased integration density on CMPs, NoC components namely cores, routers, and links are susceptible to failures. Therefore, to improve system reliability, there is a need for efficient fault-tolerant techniques that mitigate permanent faults in NoC based CMPs. There exists several fault-tolerant techniques that address the permanent faults in application cores while placing the spare cores onto NoC topologies. However, these techniques are limited to Mesh topology based NoCs. There are few approaches that have realized …

RouterGeneral Computer ScienceComputer scienceMesh networkingTopology (electrical circuits)02 engineering and technologyNetwork topologyTopology0202 electrical engineering electronic engineering information engineeringcommunication costGeneral Materials Sciencetorus topologyspare coreInteger programmingGeneral Engineering020206 networking & telecommunicationsFault injectionNetwork-on-chipfault-tolerance020202 computer hardware & architectureVDP::Teknologi: 500Spare partapplication mappingSimulated annealinglcsh:Electrical engineering. Electronics. Nuclear engineeringlcsh:TK1-9971
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NoC based virtualized FPGA as cloud Services

2016

International audience; Web-based applications are increasingly demanding many computationally intensive services. On the other hand, FPGA-based hardware accelerators(HwAcc) provide good performance in accelerating computationally intensive applications. In addition, some FPGAs support a dynamic partial reconfig-uration (DPR) techniques to virtualize and share the FPGA underlying hardware resources in time multiplexing during run-time to save resource and power consumption. Integrating FPGA in a cloud environment is an indispensable way to improve efficiency and provide acceleration services to demanding users. More importantly, in recent years it was proved that FPGA resources deployed in …

[ INFO.INFO-DC ] Computer Science [cs]/Distributed Parallel and Cluster Computing [cs.DC][INFO.INFO-DC] Computer Science [cs]/Distributed Parallel and Cluster Computing [cs.DC]Virtualized FPGA[INFO.INFO-ES]Computer Science [cs]/Embedded Systems[ INFO.INFO-ES ] Computer Science [cs]/Embedded Systems[INFO.INFO-DC]Computer Science [cs]/Distributed Parallel and Cluster Computing [cs.DC]Cloud ComputingNetwork-on-Chip[INFO.INFO-ES] Computer Science [cs]/Embedded SystemsHard- ware accelerators
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Contrasting topologies for regular interconnection networks under the constraints of nanoscale silicon technology

2010

Nowadays, system designers have adopted Networks-on-Chip as communication infrastructure of general-purpose tile-based Multi-Processor System-on-Chip (MPSoC). Such decision implies that a certain topology has to be selected to efficiently interconnect many cores on the chip. To ease such a choice, the networking literature offers a plethora of works about topology analysis and characterization for the off-chip domain. However, theoretical parameters and many intuitive assumptions of such off-chip networks do not necessarily hold when a topology is laid out on a 2D silicon surface. This is due to the distinctive features of silicon technology design pitfalls. This work is a first milestone t…

010302 applied physicsTopology exploration; Network-on-ChipInterconnectionComputer sciencebusiness.industryDistributed computingLogical topologyTopology explorationTopology (electrical circuits)02 engineering and technologyMPSoCNetwork topology01 natural sciencesPipeline (software)020202 computer hardware & architectureNetwork on a chip0103 physical sciences0202 electrical engineering electronic engineering information engineeringNetwork-on-ChipbusinessDesign technologyComputer network
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Fault-Tolerant Application-Specific Topology-Based NoC and Its Prototype on an FPGA

2021

Application-Specific Networks-on-Chips (ASNoCs) are suitable communication platforms for meeting current application requirements. Interconnection links are the primary components involved in communication between the cores of an ASNoC design. The integration density in ASNoC increases with continuous scaling down of the transistor size. Excessive integration density in ASNoC can result in the formation of thermal hotspots, which can cause a system to fail permanently. As a result, fault-tolerant techniques are required to address the permanent faults in interconnection links of an ASNoC design. By taking into account link faults in the topology, this paper introduces a fault-tolerant appli…

RouterGeneral Computer ScienceComputer scienceHeuristic (computer science)Topology (electrical circuits)02 engineering and technologyTopologyNetwork topology01 natural sciencescommunication latencySoftware0103 physical sciences0202 electrical engineering electronic engineering information engineeringGeneral Materials ScienceNetwork-on-ChipField-programmable gate arrayFPGA010302 applied physicsbusiness.industryGeneral EngineeringRing networkFault tolerancefault-toleranceTK1-9971020202 computer hardware & architectureVDP::Teknologi: 500Electrical engineering. Electronics. Nuclear engineeringbusinessspare linkapplication-specific designIEEE Access
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