© 2021 by the Association for Computing Machinery, Inc. This is the accepted manuscript version of an article which has been published in final form at https://doi.org/10.1145/3457388.3458660The power that stems from modern DRAM devices represents a sig- nificant portion of the overall system power in modern computing systems. In multi-core systems, the competing cores share the same memory banks. The memory contention between these cores may lead to activate a large DRAM row only to access a small portion of data. This row over-fetching problem wastes a significant DRAM activation power with a slight performance gain. In this paper, we propose a dynamic row activation mechanism, in which the optimal size of DRAM rows is detected at run-tim...
DRAM-based main memories have read operations that destroy the read data, and as a result, must buff...
The main memory of modern IT devices mainly uses DRAM to store data. DRAM consists of a MOS transist...
For decades, main memory has enjoyed the continuous scaling of its physical substrate: DRAM (Dynamic...
Modern DRAM devices’ performance and energy efficiency are significantly improved when the ro...
Performance of dynamic random access memory (DRAM) has been steadily improved to overcome the concer...
The twin demands of energy-efficiency and higher performance on DRAM are highly emphasized in multic...
In this paper, based on the temporal and spatial locality characteristics of memory accesses in mult...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
PosterDRAM vendors have traditionally optimized for low cost and high performance, often making desi...
This article describes and evaluates a new approach to optimizing DRAM performance and energy consum...
In dynamic random access memory (DRAM)-based main memory, access latency is a key performance metric...
22nd IEEE International Symposium on High-Performance Computer Architecture (HPCA) (2016 : Barcelona...
<p>Over the past two decades, the storage capacity and access bandwidth of main memory have improved...
The performance gap between processors and memory has grown larger and larger in the last years. Wit...
DRAM memory is a major contributor for the total power consumption in modern computing systems. Cons...
DRAM-based main memories have read operations that destroy the read data, and as a result, must buff...
The main memory of modern IT devices mainly uses DRAM to store data. DRAM consists of a MOS transist...
For decades, main memory has enjoyed the continuous scaling of its physical substrate: DRAM (Dynamic...
Modern DRAM devices’ performance and energy efficiency are significantly improved when the ro...
Performance of dynamic random access memory (DRAM) has been steadily improved to overcome the concer...
The twin demands of energy-efficiency and higher performance on DRAM are highly emphasized in multic...
In this paper, based on the temporal and spatial locality characteristics of memory accesses in mult...
textContemporary DRAM systems have maintained impressive scaling by managing a careful balance betwe...
PosterDRAM vendors have traditionally optimized for low cost and high performance, often making desi...
This article describes and evaluates a new approach to optimizing DRAM performance and energy consum...
In dynamic random access memory (DRAM)-based main memory, access latency is a key performance metric...
22nd IEEE International Symposium on High-Performance Computer Architecture (HPCA) (2016 : Barcelona...
<p>Over the past two decades, the storage capacity and access bandwidth of main memory have improved...
The performance gap between processors and memory has grown larger and larger in the last years. Wit...
DRAM memory is a major contributor for the total power consumption in modern computing systems. Cons...
DRAM-based main memories have read operations that destroy the read data, and as a result, must buff...
The main memory of modern IT devices mainly uses DRAM to store data. DRAM consists of a MOS transist...
For decades, main memory has enjoyed the continuous scaling of its physical substrate: DRAM (Dynamic...