In this paper we present our work in progress on revisiting traditional DBMS mechanisms to manage space on native Flash and how it is administered by the DBA. Our observations and initial results show that: the standard logical database structures can be used for physical organization of data on native Flash; at the same time higher DBMS performance is achieved without incurring extra DBA overhead. Initial experimental evaluation indicates a 20% increase in transactional throughput under TPC-C, by performing intelligent data placement on Flash, less erase operations and thus better Flash longevity
Flash solid state drives (SSDs), or flash disks, are a type of persistent storage deviceswith the po...
In the present paper we demonstrate the novel technique to apply the recently proposed approach of I...
Flash SSDs are omnipresent as database storage. HDD replacement is seamless since Flash SSDs impleme...
ABSTRACT In this paper we present our work in progress on revisiting traditional DBMS mechanisms to ...
In the present tutorial we perform a cross-cut analysis of database systems from the perspective of ...
Flash SSDs are becoming the primary storage technology for single servers and large data centers. In...
In the present paper we demonstrate a novel approach to handling small updates on Flash called In-Pl...
Recently, flash memory(in particular, NAND) is being rapidly deployed as data storage for mobile pla...
The popularity of high-density flash memory as data storage media has increased steadily for a wide ...
Flash memory is being rapidly deployed as data storage for mobile devices. Flash memory offers many ...
Classical buffer replacement policies, e. g., LRU, are suboptimal for database systems having flash ...
Abstract. Classical buffer replacement policies, e.g., LRU, are subop-timal for database systems hav...
New developments in hardware storage technology introduce fundamentally different performance charac...
Due to its superiority such as low access latency, low en-ergy consumption, light weight, and shock ...
The database storage hierarchy has been heavily optimized for the performance characteristics of dis...
Flash solid state drives (SSDs), or flash disks, are a type of persistent storage deviceswith the po...
In the present paper we demonstrate the novel technique to apply the recently proposed approach of I...
Flash SSDs are omnipresent as database storage. HDD replacement is seamless since Flash SSDs impleme...
ABSTRACT In this paper we present our work in progress on revisiting traditional DBMS mechanisms to ...
In the present tutorial we perform a cross-cut analysis of database systems from the perspective of ...
Flash SSDs are becoming the primary storage technology for single servers and large data centers. In...
In the present paper we demonstrate a novel approach to handling small updates on Flash called In-Pl...
Recently, flash memory(in particular, NAND) is being rapidly deployed as data storage for mobile pla...
The popularity of high-density flash memory as data storage media has increased steadily for a wide ...
Flash memory is being rapidly deployed as data storage for mobile devices. Flash memory offers many ...
Classical buffer replacement policies, e. g., LRU, are suboptimal for database systems having flash ...
Abstract. Classical buffer replacement policies, e.g., LRU, are subop-timal for database systems hav...
New developments in hardware storage technology introduce fundamentally different performance charac...
Due to its superiority such as low access latency, low en-ergy consumption, light weight, and shock ...
The database storage hierarchy has been heavily optimized for the performance characteristics of dis...
Flash solid state drives (SSDs), or flash disks, are a type of persistent storage deviceswith the po...
In the present paper we demonstrate the novel technique to apply the recently proposed approach of I...
Flash SSDs are omnipresent as database storage. HDD replacement is seamless since Flash SSDs impleme...