New developments in hardware storage technology introduce fundamentally different performance characteristics and device properties. Storage technologies such as Flash and Non Volatile Memories (NVMs) are asymmetric in terms of their read and write performance, they read much faster than they write. Modern DBMSs are not aware of the underlying asymmetric storage technologies. They are well-developed systems and in principle capable of working with asymmetric storage technologies as a mere replacement, yet they fail to exploit their key properties. Huge performance potential is lying idle and durability of the storage media is shortened which ultimately leads to higher costs. This work is a remedy for those shortcomings, making the DBMS awa...
The last decade has been characterized by radical changes in the computing landscape. We have witnes...
Traditional Database Management System (DBMS) software relies on hard disks for storing relational d...
Due to its superiority such as low access latency, low en-ergy consumption, light weight, and shock ...
In the present tutorial we perform a cross-cut analysis of database systems from the perspective of ...
The design of a database management system’s (DBMS) architec-ture is predicated on the target storag...
Recently, flash memory(in particular, NAND) is being rapidly deployed as data storage for mobile pla...
Flash memory is being rapidly deployed as data storage for mobile devices. Flash memory offers many ...
The database storage hierarchy has been heavily optimized for the performance characteristics of dis...
New storage technologies, such as Flash and Non- Volatile Memories, with fundamentally different pro...
International audienceSolid State Drives (SSDs) are replacing magnetic disks assecondary storage for...
The past few decades have witnessed a chronic and widening imbalance among processor bandwidth, disk...
The next generation memory storage revolution is triggered with the advent of the Non-Volatile Memor...
Abstract—New storage technologies, such as Flash and Non-Volatile Memories, with fundamentally diffe...
The popularity of high-density flash memory as data storage media has increased steadily for a wide ...
Non-volatile memory technologies (NVM) introduce a novel class of devices that combine characteristi...
The last decade has been characterized by radical changes in the computing landscape. We have witnes...
Traditional Database Management System (DBMS) software relies on hard disks for storing relational d...
Due to its superiority such as low access latency, low en-ergy consumption, light weight, and shock ...
In the present tutorial we perform a cross-cut analysis of database systems from the perspective of ...
The design of a database management system’s (DBMS) architec-ture is predicated on the target storag...
Recently, flash memory(in particular, NAND) is being rapidly deployed as data storage for mobile pla...
Flash memory is being rapidly deployed as data storage for mobile devices. Flash memory offers many ...
The database storage hierarchy has been heavily optimized for the performance characteristics of dis...
New storage technologies, such as Flash and Non- Volatile Memories, with fundamentally different pro...
International audienceSolid State Drives (SSDs) are replacing magnetic disks assecondary storage for...
The past few decades have witnessed a chronic and widening imbalance among processor bandwidth, disk...
The next generation memory storage revolution is triggered with the advent of the Non-Volatile Memor...
Abstract—New storage technologies, such as Flash and Non-Volatile Memories, with fundamentally diffe...
The popularity of high-density flash memory as data storage media has increased steadily for a wide ...
Non-volatile memory technologies (NVM) introduce a novel class of devices that combine characteristi...
The last decade has been characterized by radical changes in the computing landscape. We have witnes...
Traditional Database Management System (DBMS) software relies on hard disks for storing relational d...
Due to its superiority such as low access latency, low en-ergy consumption, light weight, and shock ...