a b s t r a c t non-uniform memory access (NUMA) architectures, and communications/computations overlapping. From a performance 0167-8191/ $- see front matter Published by Elsevier B.V
In scalable multiprocessor architectures, the times required for a processor to access various porti...
This paper studies application performance on systems with strongly non-uniform remote memory access...
Nonuniform memory access time (referred to as NUMA) is an important feature in the design of large s...
Abstract To scale up to high end congurations shared memory multiprocessors are evolvin
Due to their excellent price-performance ratio, clusters built from commodity nodes have become broa...
The latency of memory access times is hence non-uniform, because it depends on where the request ori...
Abstract—An important aspect of workload characterization is understanding memory system performance...
The OpenMP programming model is based upon the assumption of uniform memory access. Virtually all cu...
Non-uniform memory access (NUMA) architectures are modern shared-memory, multi-core machines offerin...
Modern shared memory multiprocessor systems commonly have non-uniform memory access (NUMA) with asym...
This whitepaper studies the various aspects and challenges of performance scaling on large scale sha...
In this work, we extend and evaluate a simple performance model to account for NUMA and bandwidth ef...
Non-Uniform Memory Access (NUMA) architectures make it possible to build large-scale shared memory m...
Les machines multicœurs actuelles utilisent une architecture à Accès Mémoire Non-Uniforme (Non-Unifo...
Multi-core nodes with Non-Uniform Memory Access (NUMA) are now a common architecture for high perfor...
In scalable multiprocessor architectures, the times required for a processor to access various porti...
This paper studies application performance on systems with strongly non-uniform remote memory access...
Nonuniform memory access time (referred to as NUMA) is an important feature in the design of large s...
Abstract To scale up to high end congurations shared memory multiprocessors are evolvin
Due to their excellent price-performance ratio, clusters built from commodity nodes have become broa...
The latency of memory access times is hence non-uniform, because it depends on where the request ori...
Abstract—An important aspect of workload characterization is understanding memory system performance...
The OpenMP programming model is based upon the assumption of uniform memory access. Virtually all cu...
Non-uniform memory access (NUMA) architectures are modern shared-memory, multi-core machines offerin...
Modern shared memory multiprocessor systems commonly have non-uniform memory access (NUMA) with asym...
This whitepaper studies the various aspects and challenges of performance scaling on large scale sha...
In this work, we extend and evaluate a simple performance model to account for NUMA and bandwidth ef...
Non-Uniform Memory Access (NUMA) architectures make it possible to build large-scale shared memory m...
Les machines multicœurs actuelles utilisent une architecture à Accès Mémoire Non-Uniforme (Non-Unifo...
Multi-core nodes with Non-Uniform Memory Access (NUMA) are now a common architecture for high perfor...
In scalable multiprocessor architectures, the times required for a processor to access various porti...
This paper studies application performance on systems with strongly non-uniform remote memory access...
Nonuniform memory access time (referred to as NUMA) is an important feature in the design of large s...