Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single chip. These cores run several tasks with unpredictable communication needs, resulting in uncertain and often-changing traffic patterns. This unpredictability leads network-on-chip (NoC) designers to plan for the worst-case traffic patterns, and significantly over-provision link capacities. In this paper, we provide NoC designers with an alternative statistical approach. We first present the traffic-load distribution plots (T-Plots), illustrating how much capacity over-provisioning is needed to service 90%, 99%, or 100% of all traffic patterns. We prove that in the general case, plotting T-Plots is #P-complete, and therefore extremely complex. W...
In this dissertation, I explore energy and reliability in future NoC (Network-on-Chip) interconnecte...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have ...
Networks on Chips (NoCs) have evolved as the communication design paradigm of future Systems on Chip...
Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single ch...
Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single ch...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have b...
Networks-on-chip (NoCs) are emerging as the de facto on- chip interconnection fabric of choice for b...
As benchmark programs for microprocessor architectures, network-on-chip (NoC) traffic patterns are e...
Cataloged from PDF version of article.As a result of increasing communication demands, application-s...
With the increasing number of processing cores in many- core chip-multiprocessors (CMPs) and with th...
A communication-centric design approach, Networks on Chips (NoCs), has emerged as the design paradig...
As technology scaling down allows multiple processing components to be integrated on a single chip, ...
As a result of increasing communication demands, application-specific and scalable Network-on-Chips ...
We propose a chapter focused on multi-processor system on chip (MPSoC) traffic modeling for embedded...
Abstract—A continuing technology scaling and the increasing requirements of modern embedded applicat...
In this dissertation, I explore energy and reliability in future NoC (Network-on-Chip) interconnecte...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have ...
Networks on Chips (NoCs) have evolved as the communication design paradigm of future Systems on Chip...
Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single ch...
Chip multiprocessors (CMPs) combine increasingly many general-purpose processor cores on a single ch...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have b...
Networks-on-chip (NoCs) are emerging as the de facto on- chip interconnection fabric of choice for b...
As benchmark programs for microprocessor architectures, network-on-chip (NoC) traffic patterns are e...
Cataloged from PDF version of article.As a result of increasing communication demands, application-s...
With the increasing number of processing cores in many- core chip-multiprocessors (CMPs) and with th...
A communication-centric design approach, Networks on Chips (NoCs), has emerged as the design paradig...
As technology scaling down allows multiple processing components to be integrated on a single chip, ...
As a result of increasing communication demands, application-specific and scalable Network-on-Chips ...
We propose a chapter focused on multi-processor system on chip (MPSoC) traffic modeling for embedded...
Abstract—A continuing technology scaling and the increasing requirements of modern embedded applicat...
In this dissertation, I explore energy and reliability in future NoC (Network-on-Chip) interconnecte...
Today, chip multiprocessors (CMPs) that accommodate multiple processor cores on the same chip have ...
Networks on Chips (NoCs) have evolved as the communication design paradigm of future Systems on Chip...