High performance computing is to process data and do calculation on that data at high speed. Traditionally high performance computing uses dynamic random access memory in their computers. This thesis will explore an alternative form of memory called persistent memory that will occupy half the DIMM slots in the computer. The persistent memory will be tested for its performance and will be compared to traditional memory. The performance will also be tested in competition and cooperation with traditional memory and its performance will be evaluated. This thesis will also have a look at how to program with persistent memory, are there any programming choices that could be recommended
Many of the modern problems in computing are, due to their nature, memory-bound. This essentially me...
Persistent or Non Volatile Memory (PMEM) offers expanded memory capacity and faster access to persis...
The next-generation data center infrastructure must be equipped with more cost-competitive memory an...
Memory systems are evolving in a multitude of ways in state-of-the-art computer systems and in compu...
Abstract—Byte-addressable nonvolatile memories promise a new tech-nology, persistent memory, which i...
Scalable persistent memory (PM) has opened up new opportunities for building indexes that operate an...
Persistent programming languages combine the features of database systems and programming languages ...
Performance-hungry data center applications demand increasingly higher performance from their storag...
Persistence of in-memory data is necessary for many classes of application and systems software. We ...
Department of Computer Science and EngineeringThe emergence of persistent memory (PM), which has cha...
Persistent memory (PM) technologies offer performance close to DRAM with persistence. Persistent mem...
Emerging byte-addressable nonvolatile memories (NVMs) promise persistent memory, which allows proces...
Persistent programming languages combine the features of database systems and programming languages ...
With the advent of persistent memory (PM), how to make use of systems that deploy PM is catching int...
Advances in memory technology are promising the availability of byte-addressable persistent memory a...
Many of the modern problems in computing are, due to their nature, memory-bound. This essentially me...
Persistent or Non Volatile Memory (PMEM) offers expanded memory capacity and faster access to persis...
The next-generation data center infrastructure must be equipped with more cost-competitive memory an...
Memory systems are evolving in a multitude of ways in state-of-the-art computer systems and in compu...
Abstract—Byte-addressable nonvolatile memories promise a new tech-nology, persistent memory, which i...
Scalable persistent memory (PM) has opened up new opportunities for building indexes that operate an...
Persistent programming languages combine the features of database systems and programming languages ...
Performance-hungry data center applications demand increasingly higher performance from their storag...
Persistence of in-memory data is necessary for many classes of application and systems software. We ...
Department of Computer Science and EngineeringThe emergence of persistent memory (PM), which has cha...
Persistent memory (PM) technologies offer performance close to DRAM with persistence. Persistent mem...
Emerging byte-addressable nonvolatile memories (NVMs) promise persistent memory, which allows proces...
Persistent programming languages combine the features of database systems and programming languages ...
With the advent of persistent memory (PM), how to make use of systems that deploy PM is catching int...
Advances in memory technology are promising the availability of byte-addressable persistent memory a...
Many of the modern problems in computing are, due to their nature, memory-bound. This essentially me...
Persistent or Non Volatile Memory (PMEM) offers expanded memory capacity and faster access to persis...
The next-generation data center infrastructure must be equipped with more cost-competitive memory an...