Abstract | ||
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DRAM cells must be refreshed (or rewritten) periodically to maintain data integrity, and as DRAM density grows, so does the refresh time and energy. Not all data need to be refreshed with the same frequency, though, and thus some refresh operations can safely be delayed. Tracking such information allows the memory controller to reduce refresh costs by judiciously choosing when to refresh different rows Solutions that store imprecise information miss opportunities to avoid unnecessary refresh operations, but the storage for tracking complete information scales with memory capacity. We therefore propose a flexible approach to refresh management that tracks complete refresh information within the DRAM itself, where it incurs negligible storage costs (0.006% of total capacity) and can be managed easily in hardware or software. Completely tracking multiple types of refresh information (e.g., row retention time and data validity) maximizes refresh reduction and lets us choose the most effective refresh schemes. Our evaluations show that our approach saves 25-82% of the total DRAM energy over prior refresh-reduction mechanisms. |
Year | DOI | Venue |
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2014 | 10.1145/2597652.2597663 | I4CS |
Keywords | Field | DocType |
hardware/software interfaces,dram refresh,refresh management,energy saving,general | Row,Dram,Data validation,Computer science,Real-time computing,Data integrity,Software,Computer hardware,Memory controller,Complete information,Memory refresh,Embedded system | Conference |
Citations | PageRank | References |
11 | 0.52 | 23 |
Authors | ||
5 |
Name | Order | Citations | PageRank |
---|---|---|---|
Zehan Cui | 1 | 197 | 10.00 |
Sally A. Mckee | 2 | 1928 | 152.59 |
Zhongbin Zha | 3 | 42 | 2.39 |
Yungang Bao | 4 | 361 | 31.11 |
Ming-yu Chen | 5 | 902 | 79.29 |