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System and Circuit Level Power Modeling of Energy-Efficient 3D-Stacked Wide I/O DRAMs
Ref: CISTER-TR-130106       Publication Date: 18 to 22, Mar, 2013

System and Circuit Level Power Modeling of Energy-Efficient 3D-Stacked Wide I/O DRAMs

Ref: CISTER-TR-130106       Publication Date: 18 to 22, Mar, 2013

Abstract:
JEDEC recently introduced its new standard for 3D-stacked Wide I/O DRAM memories, which defines their architecture, design, features and timing behavior. With improved performance/power trade-offs over previous generation DRAMs, Wide I/O DRAMs provide an extremely energy-efficient green memory solution required for next-generation embedded and high-performance computing systems. With both industry and academia pushing to evaluate and employ these highly anticipated memories, there is an urgent need for an accurate power model targeting Wide I/O DRAMs that enables their efficient integration and energy management in DRAM stacked SoC architectures.
In this paper, we present the first system-level power model of 3D-stacked Wide I/O DRAM memories that is almost as accurate as detailed circuit-level power models of 3D-DRAMs. To verify its accuracy, we experimentally compare its power and energy estimates for different memory workloads and operations against those of a circuit-level 3D-DRAM power model and show less than 2% difference between the two sets of estimates.

Authors:
Karthik Chandrasekar
,
Christian Weis
,
Benny Ã…kesson
,
Norbert Wehn
,
Kees Goossens


Design, Automation & Test in Europe Conference & Exhibition (DATE 2013), IEEE, pp 236-241.
Grenoble, France.

DOI:10.7873/DATE.2013.061.



Record Date: 15, Jan, 2013