<p>Future many-core processors are likely to concurrently execute a large number of diverse applications. How these applications are mapped to cores largely determines the interference between these applications in critical shared hardware resources. This paper proposes new application-to-coremapping policies to improve system performance by reducing inter-application interference in the on-chip network and memory controllers. The major new ideas of our policies are to: 1) map network-latency-sensitive applications to separate parts of the network from network-bandwidth-intensive applications such that the former can make fast progress without heavy interference from the latter, 2)map those applications that benefit more from being closer t...
Grunewald M, Niemann J-C, Porrmann M, Rückert U. A mapping strategy for resource-efficient network p...
Given the emerging dominance of chip-multiprocessor (CMP) systems, an important research problem con...
The increasing demand for low-power and high-performance multimedia embedded systems has motivated t...
Future many-core processors are likely to concurrently execute a large number of diverse application...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
Abstract—Increasing the number of processors in a single chip toward network-based many-core systems...
Abstract—Contiguous processor allocation improves both the network and the application performance, ...
In multicore systems tasks running on one core may experience inter-task interference from tasks run...
Main memory is a major shared resource among cores in a multicore system. If the interference betwee...
The multicore era has initiated a move to ubiquitous parallelization of software. In the process, co...
With increasing power and application demands, heterogeneous multi-core processors are becoming more...
Multiprocessor application performance can be limited by the operating system when the application u...
Multicore processors are ubiquitous in servers and have started dominating other domains, such as em...
As commodity components continue to dominate the realm of high-end computing, two hardware trends ha...
Abstract — In this study, we analyze interference trends when co-running multiple applications posse...
Grunewald M, Niemann J-C, Porrmann M, Rückert U. A mapping strategy for resource-efficient network p...
Given the emerging dominance of chip-multiprocessor (CMP) systems, an important research problem con...
The increasing demand for low-power and high-performance multimedia embedded systems has motivated t...
Future many-core processors are likely to concurrently execute a large number of diverse application...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
Abstract—Increasing the number of processors in a single chip toward network-based many-core systems...
Abstract—Contiguous processor allocation improves both the network and the application performance, ...
In multicore systems tasks running on one core may experience inter-task interference from tasks run...
Main memory is a major shared resource among cores in a multicore system. If the interference betwee...
The multicore era has initiated a move to ubiquitous parallelization of software. In the process, co...
With increasing power and application demands, heterogeneous multi-core processors are becoming more...
Multiprocessor application performance can be limited by the operating system when the application u...
Multicore processors are ubiquitous in servers and have started dominating other domains, such as em...
As commodity components continue to dominate the realm of high-end computing, two hardware trends ha...
Abstract — In this study, we analyze interference trends when co-running multiple applications posse...
Grunewald M, Niemann J-C, Porrmann M, Rückert U. A mapping strategy for resource-efficient network p...
Given the emerging dominance of chip-multiprocessor (CMP) systems, an important research problem con...
The increasing demand for low-power and high-performance multimedia embedded systems has motivated t...