Communications of the Korean Institute of Information Scientists and Engineers (정보과학회지)

Korean Institute of Information Scientists and Engineers (한국정보과학회)
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고성능 메모리 시스템 연구 동향

  • Published : 2016.07.20
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Abstract

Keywords

References

  1. John L. Henning. "SPEC CPU2006 Benchmark Descriptions" ACM SIGARCH Computer Architecture News, vol.34, no.4, pp.1-17, September 2005.
  2. JEDEC, DDR4 SDRAM Specification, 2012.
  3. T. Vogelsang, "Understanding the Energy Consumption of Dynamic Random Access Memories," in MICRO, Dec 2010.
  4. M. Hashimoto et al., "An Embedded DRAM Module using a Dual Sense Amplifier Architecture in a Logic Process," in ISSCC, Feb 1997.
  5. Micron Technology Inc., RLDRAM3 Datasheet, 2011.
  6. P. N. Glaskowsky, "MoSys Explains 1T-SRAM Technology," Microprocessor Report, Sep. 1999.
  7. Y. Sato et al., "Fast Cycle RAM (FCRAM); a 20-ns Random Row Access, Pipelined Operating DRAM," in VLSI, Jun 1998
  8. Y. H. Son et al., "Reducing Memory Access Latency with Asymmetric DRAM Bank Organizations," ISCA, 2013.
  9. Y. H. Son et al., "SALAD: Achieving Symmetric Access Latency with Asymmetric DRAM Architecture," CAL, 2016.
  10. B. Keeth et al., DRAM Circuit Design, 2nd ed. IEEE, 2008.
  11. A. N. Udipi et al., "Rethinking DRAM Design and Organization for Energy-constrained Multi-cores," ISCA, Jun 2010.
  12. E. Cooper-Balis et al., "Fine-Grained Activation for Power Reduction in DRAM," IEEE Micro, vol. 30, no 3, 2010.
  13. Zhang, Tao, et al. "Half-DRAM: a High-bandwidth and Low-power DRAM Architecture from the Rethinking of Fine-grained Activation." ISCA, 2014.
  14. Y. Kim et al., "A Case for Exploiting Subarray-Level Parallelism (SALP) in DRAM," ISCA, Jun 2012.
  15. Y. H. Son et al. "Microbank: architecting through-silicon interposer-based main memory systems." SC, 2014.
  16. J. Ahn et al., "Improving System Energy Efficiency with Memory Rank Subsetting," ACM TACO, vol. 9, no. 1, 2012.
  17. H. Zheng et al., "Mini-Rank Adaptive DRAM Architecture for Improving Memory Power Efficiency," in MICRO, Nov 2008.
  18. D. H. Yoon et al., "BOOM: Enabling Mobile Memory Based Low-Power Server DIMMs," in ISCA, Jun 2012.
  19. D. H. Yoon et al., "Virtualized ECC: Flexible Reliability in Main Memory," IEEE Micro, vol. 31, no. 1, 2011.
  20. B. Ganesh et al., "Fully-Buffered DIMM Memory Architectures: Understanding Mechanisms, Overheads and Scaling," in HPCA, Feb 2007.
  21. Z. Zhang et al., "Cached DRAM for ILP Processor Memory Access Latency Reduction," IEEE Micro, vol. 21, no. 4, 2001.
  22. "Virtual Channel DRAM. Elpida Memory, Inc." http://www.elpida.com/en/products/eollvcdram.html.
  23. D. Lee et al., "Tiered-Latency DRAM: A Low Latency and Low Cost DRAM Architecture," in HPCA, Feb 2013.
  24. S. Rixner et al., "Memory Access Scheduling," in ISCA, Jun 2000.
  25. O. Mutlu et al., "Parallelism-Aware Batch Scheduling: Enhancing both Performance and Fairness of Shared DRAM Systems," in ISCA, Jun 2008.
  26. Y. Kim et al., "ATLAS: A Scalable and High-Performance Scheduling Algorithm for Multiple Memory Controllers." in HPCA, 2010.
  27. Y. Kim et al., "Thread Cluster Memory Scheduling: Exploiting Differences in Memory Access Behavior," in MICRO, Dec 2010.
  28. E. Ipek et al., "Self-Optimizing Memory Controllers: A Reinforcement Learning Approach," in ISCA, Jun 2008.
  29. D. Kaseridis et al., "Minimalist Open-page: a DRAM Page-mode Scheduling Policy for the Many-core Era," in MICRO, Dec 2011.
  30. J. L. Henning, "SPEC CPU2006 Memory Footprint," Computer Architecture News, vol. 35, no. 1, 2007.
  31. N. Madan et al., "Optimizing Communication and Capacity in a 3D Stacked Reconfigurable Cache Hierarchy," in HPCA, Feb 2009.
  32. G. H. Loh et al., "Efficiently Enabling Conventional Block Sizes for Very Large Die-stacked DRAM Caches," in MICRO, Dec 2011.
  33. J.-S. K.im et al., "A 1.2V 12.8GB/s 2Gb mobile Wide-I/O DRAM with 4x 128 I/Os using TSV-based stacking," in ISSCC, Feb 2011.
  34. J. T. Pawlowski, "Hybrid Memory Cube," in Hot Chips, Aug 2011.
  35. A. N. Udipi et al., "Combining Memory and a Controller with Photonics through 3D-stacking to Enable Scalable and Energy-efficient Systems," in ISCA, Jun 2011.
  36. G. H. Loh, "A Register-file Approach for Row Buffer Caches in Die-stacked DRAMs," in MICRO, Dec 2011.
  37. Young Hoon Son et al., "Row-buffer decoupling: a case for low-latency DRAM microarchitecture." ISCA, 2014.