Hardware transactional memory (HTM) is widely supported by commodity processors. While the effectiveness of HTM has been evaluated based on small-scale multi-core systems, it still remains unexplored to quantify the performance and energy efficiency of HTM for scientific workloads on large-scale NUMA systems, which have been increasingly adopted to high-performance computing. To bridge this gap, this work investigates the performance and energy-efficiency impact of HTM on scientific applications on large-scale NUMA systems. Specifically, we quantify the performance and energy efficiency of HTM for scientific workloads based on the widely-used CLOMP-TM benchmark. We then discuss a set of generic software optimizations, which effectively impr...
As the adoption of Big Data technologies becomes the norm in an increasing number of scenarios, ther...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
With the breakdown of Dennard Scaling and Moore's law, power consumption appears to be a primary cha...
Hardware transactional memory (HTM) is supported by widely-used commodity processors. While the effe...
As the adoption of Big Data technologies becomes the norm in an increasing number of scenarios, ther...
In terms of power and energy consumption, DRAMs play a key role in a modern server system as well as...
Transactional memory (TM) is a new synchronization mechanism devised to simplify parallel programmin...
Abstract—The well-known drawbacks imposed by lock-based synchronization have forced researchers to d...
Hardware vendors make an important effort creating low-power CPUs that keep battery duration and dur...
Hardware transactional memory implementations are becoming increasingly available. For instance, the...
Achieving efficient and correct synchronization of multiple threads is a difficult and error-prone t...
International audienceIn this paper, we analyse performance and energy consumption of five OpenMP ru...
Traditional software transactional memory designs are targeted towards performance and therefore lit...
Transactional Memory (TM) is an emerging programming paradigm that drastically simplifies the develo...
Abstract—We have investigated the performance characteristics of hardware transactional memory (HTM)...
As the adoption of Big Data technologies becomes the norm in an increasing number of scenarios, ther...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
With the breakdown of Dennard Scaling and Moore's law, power consumption appears to be a primary cha...
Hardware transactional memory (HTM) is supported by widely-used commodity processors. While the effe...
As the adoption of Big Data technologies becomes the norm in an increasing number of scenarios, ther...
In terms of power and energy consumption, DRAMs play a key role in a modern server system as well as...
Transactional memory (TM) is a new synchronization mechanism devised to simplify parallel programmin...
Abstract—The well-known drawbacks imposed by lock-based synchronization have forced researchers to d...
Hardware vendors make an important effort creating low-power CPUs that keep battery duration and dur...
Hardware transactional memory implementations are becoming increasingly available. For instance, the...
Achieving efficient and correct synchronization of multiple threads is a difficult and error-prone t...
International audienceIn this paper, we analyse performance and energy consumption of five OpenMP ru...
Traditional software transactional memory designs are targeted towards performance and therefore lit...
Transactional Memory (TM) is an emerging programming paradigm that drastically simplifies the develo...
Abstract—We have investigated the performance characteristics of hardware transactional memory (HTM)...
As the adoption of Big Data technologies becomes the norm in an increasing number of scenarios, ther...
In this paper, we present the Energy-Aware Modeling and Optimization Methodology (E-AMOM) framework,...
With the breakdown of Dennard Scaling and Moore's law, power consumption appears to be a primary cha...