Persistent Memory (PMEM), also known as Non-Volatile Memory (NVM), can deliver higher density and lower cost per bit when compared with DRAM. Its main drawback is that it is typically slower than DRAM. On the other hand, DRAM has scalability problems due to its cost and energy consumption. Soon, PMEM will likely coexist with DRAM in computer systems but the biggest challenge is to know which data to allocate on each type of memory. This paper describes a methodology for identifying and characterizing application objects that have the most influence on the application's performance using Intel Optane DC Persistent Memory. In the first part of our work, we built a tool that automates the profiling and analysis of application objects. In the s...
During the recent decades, non-volatile memory (NVM) has been anticipated to scale up the main memor...
The memory system has been evolving at a fast pace recently, driven by the emergence of large-scale ...
A number of promising new memory technologies, such as non-volatile, storage-class memories and high...
The memory requirements of emerging applications, especially in the domain of machine learn- ing wor...
Non-Volatile Memory (NVM) can deliver higher density and lower cost per bit when compared with DRAM....
Recent byte-addressable persistent memory (PMEM) technology offers capacities comparable to storage ...
International audienceOver the past decades, the performance gap between the memory subsystem and co...
Performance-hungry data center applications demand increasingly higher performance from their storag...
Non-volatile memories (NVM) offer greater capacity than DRAM but suffer from high latency and low wr...
Market forces and technological constraints have led to a gap between CPU and memory performance tha...
Many promising memory technologies, such as non-volatile, storage-class memories and high-bandwidth,...
Multi-tiered memory systems, such as those based on Intel® Xeon Phi™processors, are equipped with se...
The next-generation data center infrastructure must be equipped with more cost-competitive memory an...
As we reach the end of DRAM technology scaling, the prevalence of new memory technology in computer...
Achieving high application performance depends on the combination of memory footprint, instruction m...
During the recent decades, non-volatile memory (NVM) has been anticipated to scale up the main memor...
The memory system has been evolving at a fast pace recently, driven by the emergence of large-scale ...
A number of promising new memory technologies, such as non-volatile, storage-class memories and high...
The memory requirements of emerging applications, especially in the domain of machine learn- ing wor...
Non-Volatile Memory (NVM) can deliver higher density and lower cost per bit when compared with DRAM....
Recent byte-addressable persistent memory (PMEM) technology offers capacities comparable to storage ...
International audienceOver the past decades, the performance gap between the memory subsystem and co...
Performance-hungry data center applications demand increasingly higher performance from their storag...
Non-volatile memories (NVM) offer greater capacity than DRAM but suffer from high latency and low wr...
Market forces and technological constraints have led to a gap between CPU and memory performance tha...
Many promising memory technologies, such as non-volatile, storage-class memories and high-bandwidth,...
Multi-tiered memory systems, such as those based on Intel® Xeon Phi™processors, are equipped with se...
The next-generation data center infrastructure must be equipped with more cost-competitive memory an...
As we reach the end of DRAM technology scaling, the prevalence of new memory technology in computer...
Achieving high application performance depends on the combination of memory footprint, instruction m...
During the recent decades, non-volatile memory (NVM) has been anticipated to scale up the main memor...
The memory system has been evolving at a fast pace recently, driven by the emergence of large-scale ...
A number of promising new memory technologies, such as non-volatile, storage-class memories and high...