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標題: | 多核心堆疊記憶體架構中核心與記憶體電壓及頻率共同調控於熱效率表現之研究 Exploring Synergistic DVFS Control of Cores and DRAMs for Thermal Efficiency in CMPs with 3D-stacked DRAMs |
作者: | Ping-Hsien Line 林秉賢 |
指導教授: | 楊佳玲(Chia-Lin Yang) |
關鍵字: | 功耗效率,溫度控管,三維多核系統,微處理器設計, Energy Efficiency,Thermal Management,3D Multicore System,Microarchitecture Design, |
出版年 : | 2013 |
學位: | 碩士 |
摘要: | 三維多核心堆疊記憶體架構已經被證實是一個有效的方法來解決傳統二維架構記憶體牆(Memory Wall)的問題,記憶體牆是記憶體速度不及處理器而造成系統效能瓶頸。由於三維多核心堆疊架構是將DRAM晶片堆疊在處理器的正上方增加了晶片耗能密度使得系統溫度升高,因此在此架構上如何控管溫度的方法是很重要的課題。在此架構上,記憶體與處理器以垂直堆疊方式整合,處理器因耗電發熱較多,會離散熱片最近。因此,離散熱片最遠的記憶體會散熱不易,通常為系統最熱的點(Hotspot)。此外,處理器產生的熱,會因熱堆疊效應積存於記憶體層。因此,傳統利用降低系統熱點的功率耗能之降溫方式,已不能有效夠控制系統溫度。在多核心堆疊記憶體架構上現有的調控溫度的方法為處理器電壓及頻率調控(Voltage-Frequency Scaling),此方法不只減少處理器耗能,也間接降低存取記憶體的速度進而減少了記憶體的耗能。然而,為了支援記憶體高頻寬的需求而使用大量的直通矽晶穿孔(TSVs),導致記憶體耗能功率增高,而使處理器不再是主要耗電來源。我們發現單純只控制處理器速度的方法並不能有效的讓系統散熱,尤其是需要大量記憶體存取的應用程式上。因此在本論文,我們提出了調控記憶體頻率來降低單次存取記憶體需要的耗能。我們的結果顯示共同調控核心與記憶體電壓及頻率的方法比起傳統只調控處理器的方法,能夠得到更高的散熱效能。 Chip-Multiprocessors (CMPs) with 3D-stacked DRAMs have been demonstrated as a promising way to tackle the memory wall problem. Due to the increasing power density, 3D-stacked systems frequently operate at or near the thermal limit. Therefore, thermal management is critical to 3D ICs. For CMPs with 3D-stacked DRAMs, system hotspot is in DRAMs since DRAMs are in the layers farther from the heat sink than cores, and heat from the vertically aligned cores is also accumulated in DRAMs. Therefore, applying conventional thermal control methods that reduce power from the hotspot is not effective for CMPs with 3D-stacked DRAMs. Existing thermal management approaches for CMPs with 3D-stacked DRAM architecture perform DVFS (Dynamic Voltage/Freqnecy Scaling) on cores, which does not only reduce core power consumption but also DRAMs as well since it lowers DRAM access frequency. However, we find that core-side DVFS cannot effectively control temperature for memory-intensive workloads. That is because instantaneous memory burst due to high TSV density can easily overheat the system since DRAM layers have low efficiency in heat dissipation. Therefore, in this paper, we propose to apply DVFS on DRAMs to reduce DRAM access power. Our results show that synergistically controlling the voltage-frequency levels of cores and DRAMs achieves higher thermal efficiency than controlling cores only. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/60360 |
全文授權: | 有償授權 |
顯示於系所單位: | 資訊網路與多媒體研究所 |
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