In a main memory database (MMDB), the primary copy of the database may reside permanently in a volatile memory. When a system failure occurs, the database must be reloaded efficiently from archive memory into main memory. This paper presents four different reload schemes and the simulation models constructed to compare the algorithms. Simulation results indicate that the reload scheme based on freguency of data access gives the best overall performance in terms of transaction response time and system throughput.Yeshttps://us.sagepub.com/en-us/nam/manuscript-submission-guideline
Recent non-volatile memory (NVM) technologies, such as PCM, STT-MRAM and ReRAM, can act as both main...
Abstract—This paper presents a recovery architecture for in-memory data management systems. Recovery...
The recent advances in hardware technologies - i.e. highly scalable multi-core NUMA architectures an...
With Main Memory DataBases (MMDB) the primary copy of the data resides in volatile main memory. Thus...
Wrth memory prrces droppmg and memory slaes m-creasmg accordrngly, a number of researchers are ad-dr...
This paper presents a recovery mechanism for memoryresident databases. It uses some stable memory an...
Abstract-Memory resident database systems (MMDB’s) store their data in main physical memory and prov...
In this paper we present recovery techniques for distributed main-memory databases, specifically for...
In this paper we present recovery techniques for distributed main-memory databases, specically for c...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
Memory system design is important for providing high reliability and availability. This dissertation...
The idea of using Main Memory Database (MMDB) as physical memory is not new but is in existence quit...
Memory systems today possess more complexity than ever. On one hand, main memory technology has a mu...
Database systems have long been optimized to hide the higher latency of storage media, yielding comp...
The paper presents a primary-backup protocol to manage replicated in-memory database systems (IMDBs)...
Recent non-volatile memory (NVM) technologies, such as PCM, STT-MRAM and ReRAM, can act as both main...
Abstract—This paper presents a recovery architecture for in-memory data management systems. Recovery...
The recent advances in hardware technologies - i.e. highly scalable multi-core NUMA architectures an...
With Main Memory DataBases (MMDB) the primary copy of the data resides in volatile main memory. Thus...
Wrth memory prrces droppmg and memory slaes m-creasmg accordrngly, a number of researchers are ad-dr...
This paper presents a recovery mechanism for memoryresident databases. It uses some stable memory an...
Abstract-Memory resident database systems (MMDB’s) store their data in main physical memory and prov...
In this paper we present recovery techniques for distributed main-memory databases, specifically for...
In this paper we present recovery techniques for distributed main-memory databases, specically for c...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
Memory system design is important for providing high reliability and availability. This dissertation...
The idea of using Main Memory Database (MMDB) as physical memory is not new but is in existence quit...
Memory systems today possess more complexity than ever. On one hand, main memory technology has a mu...
Database systems have long been optimized to hide the higher latency of storage media, yielding comp...
The paper presents a primary-backup protocol to manage replicated in-memory database systems (IMDBs)...
Recent non-volatile memory (NVM) technologies, such as PCM, STT-MRAM and ReRAM, can act as both main...
Abstract—This paper presents a recovery architecture for in-memory data management systems. Recovery...
The recent advances in hardware technologies - i.e. highly scalable multi-core NUMA architectures an...