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Conference Paper
Beyond Page Migration: Enhancing Tiered Memory Performance via Integrated Last-Level Cache Management and Page Migration
- Authors
- Hwanjun Lee, Minho Kim, Yeji Jung, Seonmu Oh, Ki-Dong Kang, Seunghak Lee, Daehoon Kim
- Issue Date
- 2025-10
- Citation
- International Symposium on Microarchitecture (MICRO) 2025, pp.1763-1776
- Publisher
- ACM
- Language
- English
- Type
- Conference Paper
- Abstract
- Emerging memory interconnect technologies, such as Compute Express Link (CXL), enable scalable memory expansion by integrating heterogeneous memory components like local DRAM and CXL-attached DRAM. These tiered memory systems offer potential benefits in bandwidth and capacity, but their heterogeneous performance characteristics pose significant challenges for efficient memory management. Traditional approaches, including hotness-based page placement, prioritize latency reduction by retaining frequently accessed data in near memory. However, these methods often fail to utilize aggregate memory bandwidth effectively, leading to imbalanced traffic and performance degradation under memory-heavy workloads. Additionally, the reliance on costly page migrations introduces overheads that impede responsiveness to workload variations. To address these challenges, we propose TierTune, a dynamic memory management framework integrating Last-Level Cache (LLC) partitioning and page migration. TierTune dynamically partitions the LLC between near and far memory nodes, rapidly mitigating latency imbalances and balancing memory traffic more effectively than software-based page migration. We extend this approach with a migration policy that dynamically redistributes pages to address persistent imbalances, incorporating cache hierarchy effects and bandwidth pressure into placement decisions. Experimental evaluations demonstrate that TierTune improves performance by 19.6% on average compared to state-of-the-art page migration policies across diverse workloads by balancing memory traffic more effectively and reducing migration overheads.
- Keyword
- Cache management, Memory management, Page migration, Tiered memory systems
- KSP Keywords
- Cache hierarchy, Cache management, Dynamic memory management, Emerging Memory, Interconnect technologies, Last-level Cache, Latency reduction, Management framework, Memory System, Memory bandwidth, Memory performance
This work is distributed under the term of Creative Commons License (CCL)
(CC BY)
(CC BY)
