Real-time (RT) communication support is a critical requirement for many complex embedded applications which are currently targeted to Network-on-chip (NoC) platforms. In this paper, we present novel methods to efficiently calculate worst- case bandwidth and latency bounds for RT traffic streams on wormhole-switched NoCs with arbitrary topology. The proposed methods apply to best-effort NoC architectures, with no extra hardware dedicated to RT traffic support. By applying our methods to several realistic NoC designs, we show substantial improvements (more than 30% in bandwidth and 50% in latency, on average) in bound tightness with respect to existing approaches
A real-time Network-on-Chip (NoC) must guarantee that it is able to execute a set of tasks and deliv...
This paper considers the use of routerless networks-on-chip as an alternative on-chip interconnect f...
Manycore chips are a promising computing platform to cope with the increasing performance needs of c...
Real-time (RT) communication support is a critical requirement for many complex embedded application...
Many Networks-on-Chip (NoC) applications exhibit one or more critical traffic flows that require ha...
Many classes of applications require Quality of Service (QoS) guarantees from the system interconnec...
none6siMany classes of applications require Quality of Service (QoS) guarantees from the system inte...
Nowadays available multiprocessor platforms predominantly use a network-on-chip (NoC) architecture a...
Network on Chip (NoC) is a prevailing communication platform for multi-core embedded systems. Wirele...
Conference of 10th IEEE International Symposium on Industrial Embedded Systems, SIES 2015 ; Conferen...
Network on Chip (NoC) interconnects are some of the most challenging-to-analyse components of multip...
Best-effort (BE) networks-on-chips (NOCs) are usually preferred over time-division multiplexed (TDM)...
Overlay NoCs, such as Hoplite, are cheap to implement on an FPGA but provide no bounds on worst-case...
Computing performance needs in domains such as automotive, avionics, railway, and space are on the ...
The communication latency in traditional Network-on-Chip (NoC) with hop-by-hop traversal is inherent...
A real-time Network-on-Chip (NoC) must guarantee that it is able to execute a set of tasks and deliv...
This paper considers the use of routerless networks-on-chip as an alternative on-chip interconnect f...
Manycore chips are a promising computing platform to cope with the increasing performance needs of c...
Real-time (RT) communication support is a critical requirement for many complex embedded application...
Many Networks-on-Chip (NoC) applications exhibit one or more critical traffic flows that require ha...
Many classes of applications require Quality of Service (QoS) guarantees from the system interconnec...
none6siMany classes of applications require Quality of Service (QoS) guarantees from the system inte...
Nowadays available multiprocessor platforms predominantly use a network-on-chip (NoC) architecture a...
Network on Chip (NoC) is a prevailing communication platform for multi-core embedded systems. Wirele...
Conference of 10th IEEE International Symposium on Industrial Embedded Systems, SIES 2015 ; Conferen...
Network on Chip (NoC) interconnects are some of the most challenging-to-analyse components of multip...
Best-effort (BE) networks-on-chips (NOCs) are usually preferred over time-division multiplexed (TDM)...
Overlay NoCs, such as Hoplite, are cheap to implement on an FPGA but provide no bounds on worst-case...
Computing performance needs in domains such as automotive, avionics, railway, and space are on the ...
The communication latency in traditional Network-on-Chip (NoC) with hop-by-hop traversal is inherent...
A real-time Network-on-Chip (NoC) must guarantee that it is able to execute a set of tasks and deliv...
This paper considers the use of routerless networks-on-chip as an alternative on-chip interconnect f...
Manycore chips are a promising computing platform to cope with the increasing performance needs of c...