The high-performance computing domain is enriching with the inclusion of Networks-on-chip (NoCs) as a key component of many-core (CMPs or MPSoCs) architectures. NoCs face the communication scalability challenge while meeting tight power, area and latency constraints. Designers must address new challenges that were not present before. Defective components, the enhancement of application-level parallelism or power-aware techniques may break topology regularity, thus, efficient routing becomes a challenge.In this paper, uLBDR (Universal Logic-Based Distributed Routing) is proposed as an efficient logic-based mechanism that adapts to any irregular topology derived from 2D meshes, being an alternative to the use of routing tables (either at rout...
This paper introduces a new, practical routing algorithm, Maze-routing, to tolerate faults in networ...
AbstractWe develop a routing algorithm for fault tolerant 2-D mesh Network-on-Chips (NoCs) with perm...
For most of the history of computing, transistors have been expensive while wires have been cheap. C...
The high-performance computing domain is enriching with the inclusion of networks-on-chip (NoCs) as ...
Chip multiprocessors (CMPs) are gaining momentum in the high-performance computing domain. Networks-...
The design of NoCs for multi-core chips introduces new design constraints like power consumption, ar...
SummaryNetwork-on-Chip has been a growing design paradigm with the rise in Multi-Processor System on...
Network-on-Chip has been a growing design paradigm with the rise in Multi-Processor System on Chip (...
With the rapid shrinking of technology and growing integration capacity, the probability of failures...
LBDR is a routing distributed layer based on minimum logic that removes the need for routing tables ...
In this paper we propose a distributed routing algorithm for networks-on-chip (NoCs) that can dynami...
Abstract—An efficient routing algorithm is important for large on-chip networks [network-on-chip (No...
Abstract—An efficient routing algorithm is important for large on-chip networks [network-on-chip (No...
The roadmap for high-performance computing it is currently switching to multi-core architectures. In...
We develop a routing algorithm for fault tolerant 2-D mesh Network-on-Chips (NoCs) with permanent fa...
This paper introduces a new, practical routing algorithm, Maze-routing, to tolerate faults in networ...
AbstractWe develop a routing algorithm for fault tolerant 2-D mesh Network-on-Chips (NoCs) with perm...
For most of the history of computing, transistors have been expensive while wires have been cheap. C...
The high-performance computing domain is enriching with the inclusion of networks-on-chip (NoCs) as ...
Chip multiprocessors (CMPs) are gaining momentum in the high-performance computing domain. Networks-...
The design of NoCs for multi-core chips introduces new design constraints like power consumption, ar...
SummaryNetwork-on-Chip has been a growing design paradigm with the rise in Multi-Processor System on...
Network-on-Chip has been a growing design paradigm with the rise in Multi-Processor System on Chip (...
With the rapid shrinking of technology and growing integration capacity, the probability of failures...
LBDR is a routing distributed layer based on minimum logic that removes the need for routing tables ...
In this paper we propose a distributed routing algorithm for networks-on-chip (NoCs) that can dynami...
Abstract—An efficient routing algorithm is important for large on-chip networks [network-on-chip (No...
Abstract—An efficient routing algorithm is important for large on-chip networks [network-on-chip (No...
The roadmap for high-performance computing it is currently switching to multi-core architectures. In...
We develop a routing algorithm for fault tolerant 2-D mesh Network-on-Chips (NoCs) with permanent fa...
This paper introduces a new, practical routing algorithm, Maze-routing, to tolerate faults in networ...
AbstractWe develop a routing algorithm for fault tolerant 2-D mesh Network-on-Chips (NoCs) with perm...
For most of the history of computing, transistors have been expensive while wires have been cheap. C...