Emerging Non-Volatile Memory (NVM) technologies offer high capacity and energy efficiency compared to DRAM, but suffer from limited write endurance and longer latencies. Prior work seeks the best of both technologies by combining DRAM and NVM in hybrid memories to attain low latency, high capacity, energy efficiency, and durability. Coarse-grained hardware and OS optimizations then spread writes out (wear-leveling) and place highly mutated pages in DRAM to extend NVM lifetimes. Unfortunately even with these coarse-grained methods, popular Java applications exact impractical NVM lifetimes of 4 years or less. This paper shows how to make hybrid memories practical, without changing the programming model, by enhancing garbage collection in man...
Energy consumption becomes the most critical limitation on the performance of nowadays embedded syst...
Byte-addressable, non-volatile memory (NVM) is emerging as a revolutionary memory technology that pr...
In this dissertation, we present novel approaches for integrating non-volatile memory devices into s...
Emerging Non-Volatile Memory (NVM) technologies offer high capacity and energy efficiency compared t...
Non-volatile memories (NVM) offer greater capacity than DRAM but suffer from high latency and low wr...
Non-volatile memory (NVM) has the potential to become a mainstream memory technology and challenge D...
Emerging workloads in cloud and data center infrastructures demand high main memory bandwidth and ca...
The number of concurrently executing processes and their memory demandin multicore systems continue ...
With the rise of big data and cloud computing, there is increasing demand on memory capacity to solv...
Non-volatile memories (NVMs) have aroused vast interest in hybrid memory systems due to their promis...
The Memory Wall, or the gap between CPU speed and main memory latency, is ever increasing. The laten...
Recent byte-addressable Non-Volatile Memory (NVM) technologies enable hybrid memory systems comprisi...
This dissertation mainly addresses two problems that emerge along with the 'big data' trend: the inc...
DRAM has long been the preferred technology choice for main memory. With new challenges of high ene...
With the imminent slowing down of DRAM scaling, Phase Change Memory (PCM) is emerging as a lead alte...
Energy consumption becomes the most critical limitation on the performance of nowadays embedded syst...
Byte-addressable, non-volatile memory (NVM) is emerging as a revolutionary memory technology that pr...
In this dissertation, we present novel approaches for integrating non-volatile memory devices into s...
Emerging Non-Volatile Memory (NVM) technologies offer high capacity and energy efficiency compared t...
Non-volatile memories (NVM) offer greater capacity than DRAM but suffer from high latency and low wr...
Non-volatile memory (NVM) has the potential to become a mainstream memory technology and challenge D...
Emerging workloads in cloud and data center infrastructures demand high main memory bandwidth and ca...
The number of concurrently executing processes and their memory demandin multicore systems continue ...
With the rise of big data and cloud computing, there is increasing demand on memory capacity to solv...
Non-volatile memories (NVMs) have aroused vast interest in hybrid memory systems due to their promis...
The Memory Wall, or the gap between CPU speed and main memory latency, is ever increasing. The laten...
Recent byte-addressable Non-Volatile Memory (NVM) technologies enable hybrid memory systems comprisi...
This dissertation mainly addresses two problems that emerge along with the 'big data' trend: the inc...
DRAM has long been the preferred technology choice for main memory. With new challenges of high ene...
With the imminent slowing down of DRAM scaling, Phase Change Memory (PCM) is emerging as a lead alte...
Energy consumption becomes the most critical limitation on the performance of nowadays embedded syst...
Byte-addressable, non-volatile memory (NVM) is emerging as a revolutionary memory technology that pr...
In this dissertation, we present novel approaches for integrating non-volatile memory devices into s...