Paper Info
Title
Energy-Efficient Heterogeneous Memory System For Mobile Platforms
Abstract
The bandwidth demands from mobile application processors (APs) have been consistently growing to run multiple compute- and memory-intensive workloads concurrently. The Low-Power Double-Data Rate (LPDDR) DRAM family has been the de-facto standard for main memory, whose operating frequency has been scaled up to meet these demands. However, frequency scaling poses many design challenges due to limited power budget, timing, and power/signal integrity issues. JEDEC has recently released the WideIO2 DRAM standard to provide high bandwidth at a low frequency. However, WideIO2 DRAM cannot completely replace LPDDR devices because it cannot provide enough capacity and bandwidth by itself. Thus, this paper proposes a heterogeneous mobile memory system (HMMS) using both types of DRAM devices. HMMS employs an efficient page migration scheme to serve more requests from energy-efficient WideIO2 DRAM devices. HMMS uses a small on-chip page location table at each DRAM controller to track page remappings without requiring a master table in off-chip DRAM. To minimize bandwidth and energy wastes from excessive page migrations, HMMS selects strong hot pages for migration, adjusts the page migration threshold dynamically and employs a migration stop mechanism. Our evaluation using 10 multi-programmed workloads demonstrates that HMMS improves the performance and energy-delay product (EDP) by 13% and 21%, respectively, over the baseline heterogeneous memory system with no migrations.
Year
DOI
Venue
2017
10.1587/elex.14.20171002
IEICE ELECTRONICS EXPRESS
Keywords
Field
DocType
mobile DRAM, heterogeneous memory, LPDDR4, WideIO2
Computer architecture,Efficient energy use,Computer science,Electronic engineering
Journal
Volume
Issue
ISSN
14
24
1349-2543
Citations 
PageRank 
References 
0
0.34
6
Authors
3
Name
Order
Citations
PageRank
Dongsuk Shin16610.08
Hakbeom Jang2103.56
Jae W. Lee360752.37