International audience—Estimating the potential performance of parallel applications on the yet-to-be-designed future many cores is very speculative. The traditional laws used to predict performance of an application do not reflect on the various scaling behaviour of a multi-threaded (MT) application leading to optimistic estimation of performance in manycore era. In this paper, we study the scaling behavior of MT applications as a function of input workload size and the number of cores. For some MT applications in the benchmark suites we analysed, our study shows that the serial fraction in the program increases with input workload size and can be a scalability-limiting factor. Similar to previous studies [5] , we find that using a powerfu...
This thesis work is done in the general context of the ERC funded Defying Amdahl's Law (DAL) project...
URL to paper from conference siteThis paper analyzes the scalability of seven system applications (...
AbstractA number of highly-threaded, many-core architectures hide memory-access latency by low-overh...
International audience—Estimating the potential performance of parallel applications on the yet-to-b...
Multi-core have become ubiquitous and industry is already moving towards the many-core era. Many ope...
International audienceEstimating the potential performance of parallel applicationson the yet-to-be-...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
This paper reviews some important issues for scalability\ud in programming and future trend with man...
Amdahl's Law dictates that in parallel applications serial sections establish an upper limit on the ...
Multi-threaded workloads typically show sublinear speedup on multi-core hardware, i.e., the achieved...
Abstract. Multicore architecture has become the trend of high perfor-mance processors. While it is g...
Ensuring the continuous scaling of parallel applications is challenging on many-core processors, due...
International audienceAmdhal's law says that, we cannot go faster than the serial 1 section of the ...
International audienceSince several years, classical multiprocessor systems have evolved to multicor...
Amdahl\u27s Law dictates that in parallel applications serial sections establish an upper limit on t...
This thesis work is done in the general context of the ERC funded Defying Amdahl's Law (DAL) project...
URL to paper from conference siteThis paper analyzes the scalability of seven system applications (...
AbstractA number of highly-threaded, many-core architectures hide memory-access latency by low-overh...
International audience—Estimating the potential performance of parallel applications on the yet-to-b...
Multi-core have become ubiquitous and industry is already moving towards the many-core era. Many ope...
International audienceEstimating the potential performance of parallel applicationson the yet-to-be-...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
This paper reviews some important issues for scalability\ud in programming and future trend with man...
Amdahl's Law dictates that in parallel applications serial sections establish an upper limit on the ...
Multi-threaded workloads typically show sublinear speedup on multi-core hardware, i.e., the achieved...
Abstract. Multicore architecture has become the trend of high perfor-mance processors. While it is g...
Ensuring the continuous scaling of parallel applications is challenging on many-core processors, due...
International audienceAmdhal's law says that, we cannot go faster than the serial 1 section of the ...
International audienceSince several years, classical multiprocessor systems have evolved to multicor...
Amdahl\u27s Law dictates that in parallel applications serial sections establish an upper limit on t...
This thesis work is done in the general context of the ERC funded Defying Amdahl's Law (DAL) project...
URL to paper from conference siteThis paper analyzes the scalability of seven system applications (...
AbstractA number of highly-threaded, many-core architectures hide memory-access latency by low-overh...