Lightweight integer compression algorithms play an important role in in-memory database systems to tackle the growing gap between processor speed and main memory bandwidth. Thus, there is a large number of algorithms to choose from, while different algorithms are tailored to different data characteristics. As we show in this paper, with the availability of byte-addressable non-volatile random-access memory (NVRAM), a novel type of main memory with specific characteristics increases the overall complexity in this domain. In particular, we provide a detailed evaluation of state-of-the-art lightweight integer compression schemes and database operations on NVRAM and compare it with DRAM. Furthermore, we reason about possible deployments of midd...
The next generation memory storage revolution is triggered with the advent of the Non-Volatile Memor...
Nonvolatile memory technology is evolving continuously and commercial products such as FeRAM and PRA...
Non-volatile memories (NVM) offer greater capacity than DRAM but suffer from high latency and low wr...
Lightweight integer compression algorithms play an important role in in-memory database systems to t...
Lightweight integer compression algorithms are frequently applied in in-memory database systems to t...
File systems combining disk storage with non-volatile RAM (NVRAM) promise large improvements in file...
The rise of NVRAM technologies promises to change the way we think about system architectures. In or...
Traditional Database Management System (DBMS) software relies on hard disks for storing relational d...
For decades, there has been a distinction between fast, volatile and slow, non-volatile memory techn...
The recent advances in hardware technologies - i.e. highly scalable multi-core NUMA architectures an...
File systems using non-volatile RAM (NVRAM) promise great improvements in file system performance ov...
In this thesis we explore a novel method for improving the performance and lifetime of non-volatile ...
The predicted shift to low cost, non-volatile, byte-addressable memory (e.g., Phase Change Memory an...
Non-volatile memory technologies (NVM) introduce a novel class of devices that combine characteristi...
The onset of the mobile age and the rapid growth of the mobile technology have initiated a tremendou...
The next generation memory storage revolution is triggered with the advent of the Non-Volatile Memor...
Nonvolatile memory technology is evolving continuously and commercial products such as FeRAM and PRA...
Non-volatile memories (NVM) offer greater capacity than DRAM but suffer from high latency and low wr...
Lightweight integer compression algorithms play an important role in in-memory database systems to t...
Lightweight integer compression algorithms are frequently applied in in-memory database systems to t...
File systems combining disk storage with non-volatile RAM (NVRAM) promise large improvements in file...
The rise of NVRAM technologies promises to change the way we think about system architectures. In or...
Traditional Database Management System (DBMS) software relies on hard disks for storing relational d...
For decades, there has been a distinction between fast, volatile and slow, non-volatile memory techn...
The recent advances in hardware technologies - i.e. highly scalable multi-core NUMA architectures an...
File systems using non-volatile RAM (NVRAM) promise great improvements in file system performance ov...
In this thesis we explore a novel method for improving the performance and lifetime of non-volatile ...
The predicted shift to low cost, non-volatile, byte-addressable memory (e.g., Phase Change Memory an...
Non-volatile memory technologies (NVM) introduce a novel class of devices that combine characteristi...
The onset of the mobile age and the rapid growth of the mobile technology have initiated a tremendou...
The next generation memory storage revolution is triggered with the advent of the Non-Volatile Memor...
Nonvolatile memory technology is evolving continuously and commercial products such as FeRAM and PRA...
Non-volatile memories (NVM) offer greater capacity than DRAM but suffer from high latency and low wr...