Title :
Lazy Precharge: An overhead-free method to reduce precharge overhead for memory parallelism improvement of DRAM system
Author :
Tao Zhang ; Cong Xu ; Yuan Xie ; Guangyu Sun
Author_Institution :
Dept. of Comput. Sci. & Eng., Pennsylvania State Univ., University Park, PA, USA
Abstract :
As we enter the multi-core era, the main memory becomes the bottleneck due to the exploded memory requests. In this work, we propose a novel memory architecture-Lazy Precharge (LaPRE) that enables aggressive activation schemes so that multiple rows in a bank can be activated successively without the interrupt from precharges. Therefore, LaPRE effectively reduces the precharge overhead and thus improves memory parallelism. In addition, three memory scheduling schemes are proposed correspondingly to fully make use of the improved memory parallelism. The experimental results show that LaPRE can achieve 14% performance improvement on average without hardware overhead.
Keywords :
DRAM chips; scheduling; storage management; DRAM system; LaPRE; hardware overhead; memory architecture lazy precharge; memory parallelism; memory requests; memory scheduling; multicore era; precharge overhead free method; Benchmark testing; Computer architecture; Parallel processing; Random access memory; Sensors; Timing; Transistors;
Conference_Titel :
Computer Design (ICCD), 2013 IEEE 31st International Conference on
Conference_Location :
Asheville, NC
DOI :
10.1109/ICCD.2013.6657036
