This report presents our exploratory efforts for managing main memory power-aware chips. Current state-of-the-art power-aware DRAM chips offer various power modes (active, standby, nap, and powerdown) in order to provide a potential to limit power consumption in the face of increasing demand for performance. Our goal in this study is to utilize and exploit these various power modes for the most effective main memory power management under software control in response to workloads becoming increasingly memory-intensive and data-centric
Abstract − This paper presents an efficient system level power saving method for DRAM with multiple ...
Advances in DRAM technology have led many researchers to integrate computational logic on DRAM chips...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
This report presents our exploratory efforts for managing main memory power-aware chips. Current sta...
Despite constant improvements in fabrication technology, hardware components are consuming more powe...
International audienceRecent trends of CMOS technology scaling and wide-spread use of multicore proc...
Abstract- We present an effective power mode management scheme used in SDRAM memory controllers. The...
Existing techniques manage power for the main memory by passively monitoring the memory traffic, and...
The increasing importance of energy e ciency has produced amultitude of hardware devices with variou...
University of Minnesota M.S.E.E. thesis. June 2016. Major: Electrical/Computer Engineering. Advisor:...
With the developing variance between memory and processor speeds, it has become important to ensure ...
Energy consumption is a limiting constraint for both embedded and high performance systems. CPU-core...
Reducing power/energy consumption is an important goal for all computer systems, from servers to bat...
Energy is becoming a critical resource to not only small battery-powered devices but also large serv...
Main memory is responsible for a significant fraction of the energy consumed by servers. Prior work ...
Abstract − This paper presents an efficient system level power saving method for DRAM with multiple ...
Advances in DRAM technology have led many researchers to integrate computational logic on DRAM chips...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
This report presents our exploratory efforts for managing main memory power-aware chips. Current sta...
Despite constant improvements in fabrication technology, hardware components are consuming more powe...
International audienceRecent trends of CMOS technology scaling and wide-spread use of multicore proc...
Abstract- We present an effective power mode management scheme used in SDRAM memory controllers. The...
Existing techniques manage power for the main memory by passively monitoring the memory traffic, and...
The increasing importance of energy e ciency has produced amultitude of hardware devices with variou...
University of Minnesota M.S.E.E. thesis. June 2016. Major: Electrical/Computer Engineering. Advisor:...
With the developing variance between memory and processor speeds, it has become important to ensure ...
Energy consumption is a limiting constraint for both embedded and high performance systems. CPU-core...
Reducing power/energy consumption is an important goal for all computer systems, from servers to bat...
Energy is becoming a critical resource to not only small battery-powered devices but also large serv...
Main memory is responsible for a significant fraction of the energy consumed by servers. Prior work ...
Abstract − This paper presents an efficient system level power saving method for DRAM with multiple ...
Advances in DRAM technology have led many researchers to integrate computational logic on DRAM chips...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...