Title :
Optimizated Allocation of Data Variables to PCM/DRAM-based Hybrid Main Memory for Real-Time Embedded Systems
Author :
Zhu Wang ; Zonghua Gu ; Zili Shao
Author_Institution :
Coll. of Comput. Sci., Zhejiang Univ., Hangzhou, China
Abstract :
Phase-change memory (PCM) has many advantages compared to conventional DRAM, including nonvolatility, low static energy consumption, and high reliability. Its drawbacks include limited write-endurance and higher energy consumption for write operations. We consider a hybrid main memory consisting of PCM and DRAM at the same level of the memory hierarchy, and address the problem of partitioning and allocating data variables in a multitasking system to either memory type to minimize the energy consumption in the hyper-period while respecting the user-specified upper bounds on CPU utilization. We present an optimal integer linear programming (ILP) formulation and a heuristic algorithm with polynomial time complexity.
Keywords :
DRAM chips; computational complexity; embedded systems; integer programming; linear programming; low-power electronics; memory cards; reliability; CPU utilization; PCM/DRAM-based hybrid main memory; data variable allocation; data variable optimizated allocation; data variable partitioning; heuristic algorithm; high reliability; low static energy consumption; multitasking system; nonvolatility; optimal integer linear programming formulation; phase-change memory; polynomial time complexity; real-time embedded systems; user-specified upper bounds; Energy consumption; Memory management; Phase change materials; Power demand; Random access memory; Resource management; Upper bound; Dram; embedded systems; phase-change memory (PCM); real-time scheduling;
Journal_Title :
Embedded Systems Letters, IEEE
DOI :
10.1109/LES.2014.2325878
