Abstract—In commercial-off-the-shelf (COTS) multi-core sys-tems, a task running on one core can be delayed by other tasks running simultaneously on other cores due to interference in the shared DRAM main memory. Such memory interference delay can be large and highly variable, thereby posing a significant challenge for the design of predictable real-time systems. In this paper, we present techniques to provide a tight upper bound on the worst-case memory interference in a COTS-based multi-core system. We explicitly model the major resources in the DRAM system, including banks, buses and the memory controller. By considering their timing characteristics, we analyze the worst-case memory interference delay imposed on a task by othe
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
Commercially available Off The Shelf (COTS) multicores have been assessed as the baseline computing ...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
<p>In commercial-off-the-shelf (COTS) multi-core systems, a task running on one core can be delayed ...
Dynamic RAM (DRAM) is a source of memory contention and interference problems on commercial of the s...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
The last decade has witnessed a major shift towards the deployment of embedded applications on multi...
Abstract—Contention on the memory bus in COTS based multicore systems is becoming a major determinin...
Multiple-Processors Systems-on-Chip (MPSoCs) provide an appealing platform to execute Mixed Critical...
The current industry trend is towards using Commercially available Off-The-Shelf (COTS) based multic...
International audienceMemory interferences may introduce important slowdowns in applications running...
Contention on the memory bus in COTS based multicore systems is becoming a major determining factor...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
When adopting multi-core systems for safety-critical applications, certification requirements mandat...
Commercially available Off The Shelf (COTS) multicores have been assessed as the baseline computing ...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
Commercially available Off The Shelf (COTS) multicores have been assessed as the baseline computing ...
Timing matters. This is especially true for safety-critical real-time applications, since human live...
<p>In commercial-off-the-shelf (COTS) multi-core systems, a task running on one core can be delayed ...
Dynamic RAM (DRAM) is a source of memory contention and interference problems on commercial of the s...
Deployment of multi-core platforms in safety-critical applications requires reliable estimation of w...
The last decade has witnessed a major shift towards the deployment of embedded applications on multi...
Abstract—Contention on the memory bus in COTS based multicore systems is becoming a major determinin...
Multiple-Processors Systems-on-Chip (MPSoCs) provide an appealing platform to execute Mixed Critical...
The current industry trend is towards using Commercially available Off-The-Shelf (COTS) based multic...
International audienceMemory interferences may introduce important slowdowns in applications running...
Contention on the memory bus in COTS based multicore systems is becoming a major determining factor...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
When adopting multi-core systems for safety-critical applications, certification requirements mandat...
Commercially available Off The Shelf (COTS) multicores have been assessed as the baseline computing ...
Commercial Off-The-Shelf (COTS) processors are now commonly used in real-time embedded systems. The ...
Commercially available Off The Shelf (COTS) multicores have been assessed as the baseline computing ...
Timing matters. This is especially true for safety-critical real-time applications, since human live...