DocumentCode
2175057
Title
System-level power/performance evaluation of 3D stacked DRAMs for mobile applications
Author
Facchini, Marco ; Carlson, Trevor ; Vignon, Anselme ; Palkovic, Martin ; Catthoor, Francky ; Dehaene, Wim ; Benini, Luca ; Marchal, Paul
Author_Institution
IMEC - Interuniversity Microelectron. Center, Heverlee
fYear
2009
fDate
20-24 April 2009
Firstpage
923
Lastpage
928
Abstract
Convergence of communication, consumer applications and computing within mobile systems pushes memory requirements both in terms of size, bandwidth and power consumption. The existing solution for the memory bottle-neck is to increase the amount of on-chip memory. However, this solution is becoming prohibitively expensive, allowing 3D stacked DRAM to become an interesting alternative for mobile applications. In this paper, we examine the power/performance benefits for three different 3D stacked DRAM scenarios. Our high-level memory and Through Silicon Via (TSV) models have been calibrated on state-of-the-art industrial processes. We model the integration of a logic die with TSVs on top of both an existing DRAM and a DRAM with redesigned transceivers for 3D. Finally, we take advantage of the interconnect density enabled by 3D technology to analyze an ultra-wide memory interface. Experimental results confirm that TSV-based 3D integration is a promising technology option for future mobile applications, and that its full potential can be unleashed by jointly optimizing memory architecture and interface logic.
Keywords
DRAM chips; mobile communication; 3D stacked DRAM; high-level memory; on-chip memory; through silicon via; Bandwidth; Computer applications; Energy consumption; Logic; Mobile communication; Mobile computing; Random access memory; Silicon; Through-silicon vias; Transceivers;
fLanguage
English
Publisher
ieee
Conference_Titel
Design, Automation & Test in Europe Conference & Exhibition, 2009. DATE '09.
Conference_Location
Nice
ISSN
1530-1591
Print_ISBN
978-1-4244-3781-8
Type
conf
DOI
10.1109/DATE.2009.5090797
Filename
5090797
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