Title :
Endurance-Aware Allocation of Data Variables on NVM-Based Scratchpad Memory in Real-Time Embedded Systems
Author :
Zhu Wang ; Zonghua Gu ; Min Yao ; Zili Shao
Author_Institution :
Coll. of Comput. Sci., Zhejiang Univ., Hangzhou, China
Abstract :
Nonvolatile memory (NVM) has many benefits compared to the traditional static RAM, such as improved reliability and reduced power consumption, but it has long write latency and limited write endurance. Scratchpad memory (SPM) is software-managed small on-chip memory for improving system performance and predicability. We consider SPM based on spin-transfer torque RAM, a type of NVM with high performance and good endurance. We present algorithms for allocating data variables to SPM and distribute write activity evenly in the SPM address space, in order to achieve wear-leveling and prolong the lifetime of NVM. We present two optimization algorithms for minimizing system CPU utilization subject to NVM lifetime constraints: 1) an optimal algorithm based on ILP and 2) an efficient heuristic algorithm that can obtain close-to-optimal solutions.
Keywords :
embedded systems; superconducting memory circuits; CPU utilization subject; NVM; NVM-based scratchpad memory; SPM; data variables; endurance-aware allocation; nonvolatile memory; optimization algorithms; real-time embedded systems; spin-transfer torque; static RAM; write activity; Embedded systems; Heuristic algorithms; Nonvolatile memory; Optimization; Random access memory; Resource management; Runtime; Nonvolatile memory (NVM); Scratchpad memory; non-volatile memory; real-time embedded; scratchpad memory (SPM);
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2015.2422846
