Performance Potential of Mixed Data Management Modes for Heterogeneous Memory Systems

Effler, Chad; Jantz, Michael; Jones, Terry

Title: Performance Potential of Mixed Data Management Modes for Heterogeneous Memory Systems

Conference · Sun Nov 01 00:00:00 EDT 2020

OSTI ID:1817379

Effler, Chad ^[1]; Jantz, Michael ^[1];

^[1]

ORNL

Many high-performance systems now include different types of memory devices within the same compute platform to meet strict performance and cost constraints. Such heterogeneous memory systems often include an upper-level tier with better performance, but limited capacity, and lower-level tiers with higher capacity, but less bandwidth and longer latencies for reads and writes. To utilize the different memory layers efficiently, current systems rely on hardware-directed, memory -side caching or they provide facilities in the operating system (OS) that allow applications to make their own data-tier assignments. Since these data management options each come with their own set of trade-offs, many systems also include mixed data management configurations that allow applications to employ hardware- and software-directed management simultaneously, but for different portions of their address space. Despite the opportunity to address limitations of stand-alone data management options, such mixed management modes are under-utilized in practice, and have not been evaluated in prior studies of complex memory hardware. In this work, we develop custom program profiling, configurations, and policies to study the potential of mixed data management modes to outperform hardware- or software-based management schemes alone. Our experiments, conducted on an Intel ® Knights Landing platform with high-bandwidth memory, demonstrate that the mixed data management mode achieves the same or better performance than the best stand-alone option for five memory intensive benchmark applications (run separately and in isolation), resulting in an average speedup compared to the best stand-alone policy of over 10 %, on average.

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Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC05-00OR22725

OSTI ID:: 1817379

Resource Relation:: Conference: IEEE/ACM Workshop on Memory Centric High Performance Computing (MCHPC) - Atlanta, Georgia, United States of America - 11/11/2020 5:00:00 AM-

Country of Publication:: United States

Language:: English

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