The expected halt of traditional technology scaling is motivating increased heterogeneity in high-performance computing (HPC) systems with the emergence of numerous specialized accelerators. As heterogeneity increases, so does the risk of underutilizing expensive hardware resources if we preserve today's rigid node configuration and reservation strategies. This has sparked interest in resource disaggregation to enable finer-grain allocation of hardware resources to applications. However, there is currently no data-driven study of what range of disaggregation is appropriate in HPC. To that end, we perform a detailed analysis of key metrics sampled in NERSC's Cori, a production HPC system that executes a diverse open-science HPC workload. In ...
Compute clusters, consisting of many, uniformly built nodes, are used to run a large spectrum of dif...
Disaggregated memory has recently been proposed as a way to allow flexible and fine-grained allocati...
This study analyzes the memory capacity requirements of important HPC benchmarks and applications. W...
The expected halt of traditional technology scaling is motivating increased heterogeneity in high-pe...
Tightly-coupled HPC systems have rigid memory allocation and can result in expensive memory resource...
Memory disaggregation has recently been adopted in data centers to improve resource utilization, mot...
International audience<p>Traditionally, HPC workloads are characterized by different requirements in...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Abstract: Over the last few years, many physics experiments migrated their computations from custom...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
International audienceDisaggregation has been proposed by both the industry and academia as an appro...
In their march towards exascale performance, HPC systems are becoming increasingly more heterogeneou...
To sustain performance while facing always tighter power and energy envelopes, High Performance Comp...
Large high-performance computers (HPC) are expensive tools responsible for supporting thousands of s...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
Compute clusters, consisting of many, uniformly built nodes, are used to run a large spectrum of dif...
Disaggregated memory has recently been proposed as a way to allow flexible and fine-grained allocati...
This study analyzes the memory capacity requirements of important HPC benchmarks and applications. W...
The expected halt of traditional technology scaling is motivating increased heterogeneity in high-pe...
Tightly-coupled HPC systems have rigid memory allocation and can result in expensive memory resource...
Memory disaggregation has recently been adopted in data centers to improve resource utilization, mot...
International audience<p>Traditionally, HPC workloads are characterized by different requirements in...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Abstract: Over the last few years, many physics experiments migrated their computations from custom...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
International audienceDisaggregation has been proposed by both the industry and academia as an appro...
In their march towards exascale performance, HPC systems are becoming increasingly more heterogeneou...
To sustain performance while facing always tighter power and energy envelopes, High Performance Comp...
Large high-performance computers (HPC) are expensive tools responsible for supporting thousands of s...
Power and energy efficiency are important challenges for the High Performance Computing (HPC) commun...
Compute clusters, consisting of many, uniformly built nodes, are used to run a large spectrum of dif...
Disaggregated memory has recently been proposed as a way to allow flexible and fine-grained allocati...
This study analyzes the memory capacity requirements of important HPC benchmarks and applications. W...