© 2015 IFIP.The recent growth of interest for in-memory databases poses the question on whether established prediction methods such as response surfaces and simulation are effective to describe the performance of these systems. In particular, the limited dependence of in-memory technologies on the disk makes methods such as simulation more appealing than in the past, since disks are difficult to simulate. To answer this question, we study an in-memory commercial solution, SAP HANA, deployed on a high-end server with 120 physical cores. First, we apply experimental design methods to generate response surfaces that describe database performance as a function of workload and hardware parameters. Next, we develop a class-switching queueing netw...
This paper presents a systematic survey of the existing database system performance evaluation model...
Abstract We propose simple models to predict the perfor-mance degradation of disk requests due to st...
Virtual machine technology allow managing a many servers on the same physical hardware it means best...
Predicting memory occupancy during the execution of large-scale analytical workloads becomes critica...
In-memory database systems are among the technological drivers of big data processing. In this paper...
Database applications are an important type of workloads that is very different from other types of ...
AbstractIn this paper, we model database designs using queueing networks, giving visibility to the d...
The multi-computer design has been proposed as an approach to the management of very large databases...
The choice of the appropriate database type presents an important factor in any project development....
Big data processing is driven by new types of in-memory database systems. In this paper we apply per...
Databases form the common component of many software systems, including mission critical transactio...
This paper presents an experimental study for evaluating the decision support value of queueing netw...
Queueing network models are commonly used for performance modelling. However, through application de...
The introduction of parallelism has brought forth new and diverse approaches to architecture and alg...
Computer capacity planning is the process of monitoring and projecting computer workload and specify...
This paper presents a systematic survey of the existing database system performance evaluation model...
Abstract We propose simple models to predict the perfor-mance degradation of disk requests due to st...
Virtual machine technology allow managing a many servers on the same physical hardware it means best...
Predicting memory occupancy during the execution of large-scale analytical workloads becomes critica...
In-memory database systems are among the technological drivers of big data processing. In this paper...
Database applications are an important type of workloads that is very different from other types of ...
AbstractIn this paper, we model database designs using queueing networks, giving visibility to the d...
The multi-computer design has been proposed as an approach to the management of very large databases...
The choice of the appropriate database type presents an important factor in any project development....
Big data processing is driven by new types of in-memory database systems. In this paper we apply per...
Databases form the common component of many software systems, including mission critical transactio...
This paper presents an experimental study for evaluating the decision support value of queueing netw...
Queueing network models are commonly used for performance modelling. However, through application de...
The introduction of parallelism has brought forth new and diverse approaches to architecture and alg...
Computer capacity planning is the process of monitoring and projecting computer workload and specify...
This paper presents a systematic survey of the existing database system performance evaluation model...
Abstract We propose simple models to predict the perfor-mance degradation of disk requests due to st...
Virtual machine technology allow managing a many servers on the same physical hardware it means best...