Reducing the energy consumption of parallel applications is becoming increasingly important. Current chip multiprocessors (CMPs) incorporate asymmetric cores (i.e. static asymmetry) and DVFS (i.e. dynamic asymmetry) to enable energy efficient execution. To reduce cost and complexity, designs typically organize asymmetric cores into core-clusters supporting the same DVFS setting across cores in a cluster. Recent approaches that focus on energy efficient scheduling of task-based parallel applications predominantly rely on dynamic asymmetry, particularly per-core DVFS, for reducing energy. More importantly, they do not consider the impact of task heterogeneity (i.e. varying task characteristics, intra-task parallelism and task granularity) in ...
Funding: Partially funded by the UK EPSRC grants Discovery: Pattern Discovery and Program Shaping fo...
Multiprocessor architecture is becoming popular in both desktop processors and mobile processors. Es...
Energy efficiency has become the main challenge for high performance computing (HPC). The use of mob...
Reducing the energy consumption of parallel applications is becoming increasingly important. Current...
Reducing energy consumption of parallel applications executing on chip multi- processors (CMPs) is i...
As performance and energy efficiency have become the main challenges for next-generation high-perfor...
Parallel applications often rely on work stealing schedulers in combination with fine-grained taskin...
Asymmetric multicore processors (AMP) offer multiple types of cores under the same programming inter...
Increasingly prevalent asymmetric multicore processors (AMP) are necessary for delivering performanc...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Abstract—Asymmetric Multi-Core (AMC) architectures have shown high performance as well as power effi...
Asymmetric multicore processors (AMP) are necessary for extracting performance in an era of limited ...
Asymmetric multicore processors (AMP) offer multiple types of cores under the same programming inter...
Most of chip multiprocessors (CMPs) are symmetric, i.e. they are composed of identical cores. These ...
Funding: Partially funded by the UK EPSRC grants Discovery: Pattern Discovery and Program Shaping fo...
Multiprocessor architecture is becoming popular in both desktop processors and mobile processors. Es...
Energy efficiency has become the main challenge for high performance computing (HPC). The use of mob...
Reducing the energy consumption of parallel applications is becoming increasingly important. Current...
Reducing energy consumption of parallel applications executing on chip multi- processors (CMPs) is i...
As performance and energy efficiency have become the main challenges for next-generation high-perfor...
Parallel applications often rely on work stealing schedulers in combination with fine-grained taskin...
Asymmetric multicore processors (AMP) offer multiple types of cores under the same programming inter...
Increasingly prevalent asymmetric multicore processors (AMP) are necessary for delivering performanc...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Asymmetric single-ISA multicore processors (AMPs), which integrate high-performance big cores and lo...
Abstract—Asymmetric Multi-Core (AMC) architectures have shown high performance as well as power effi...
Asymmetric multicore processors (AMP) are necessary for extracting performance in an era of limited ...
Asymmetric multicore processors (AMP) offer multiple types of cores under the same programming inter...
Most of chip multiprocessors (CMPs) are symmetric, i.e. they are composed of identical cores. These ...
Funding: Partially funded by the UK EPSRC grants Discovery: Pattern Discovery and Program Shaping fo...
Multiprocessor architecture is becoming popular in both desktop processors and mobile processors. Es...
Energy efficiency has become the main challenge for high performance computing (HPC). The use of mob...