Name
Abstract | ||
|---|---|---|
Energy efficiency and energy-proportional computing have become a central focus in enterprise server architecture. As thermal and electrical constraints limit system power, and datacenter operators become more conscious of energy costs, energy efficiency becomes important across the whole system. There are many proposals to scale energy at the datacenter and server level. However, one significant component of server power, the memory system, remains largely unaddressed. We propose memory dynamic volt age/frequency scaling (DVFS) to address this problem, and evaluate a simple algorithm in a real system. As we show, in a typical server platform, memory consumes 19% of system power on average while running SPEC CPU2006 workloads. While increasing core counts demand more bandwidth and drive the memory frequency upward, many workloads require much less than peak bandwidth. These workloads suffer minimal performance impact when memory frequency is reduced. When frequency reduces, voltage can be reduced as well. We demonstrate a large opportunity for memory power reduction with a simple control algorithm that adjusts memory voltage and frequency based on memory bandwidth utilization. We evaluate memory DVFS in a real system, emulating reduced memory frequency by altering timing registers and using an analytical model to compute power reduction. With an average of 0.17% slowdown, we show 10.4% average (20.5% max) memory power reduction, yielding 2.4% average (5.2% max) whole-system energy improvement. |
Year | DOI | Venue |
|---|---|---|
2011 | 10.1145/1998582.1998590 | ICAC |
Keywords | Field | DocType |
memory dynamic volt age,memory system,real system,memory bandwidth utilization,memory dvfs,reduced memory frequency,memory power reduction,frequency scaling,memory power management,memory frequency,memory voltage,dynamic voltage,memory consumes,dram,energy efficiency,memory bandwidth,memory,energy efficient | Dram,Power management,Interleaved memory,Memory bandwidth,Computer science,Efficient energy use,Computing with Memory,Real-time computing,Bandwidth (signal processing),Frequency scaling | Conference |
Citations | PageRank | References |
151 | 3.96 | 22 |
Authors | ||
5 | ||
Name | Order | Citations | PageRank |
|---|---|---|---|
| Howard David | 1 | 399 | 12.83 |
| Chris Fallin | 2 | 741 | 20.86 |
| Eugene Gorbatov | 3 | 750 | 25.99 |
| Ulf R. Hanebutte | 4 | 330 | 9.98 |
| Onur Mutlu | 5 | 9446 | 357.40 |