Complex Event Processing often comes with an enormous amount of event data that needs to be processed. Hence, parallelization plays a significant role in handling high workload situations. The cost of an application however is often defined by the amount of used resources, like in Cloud computing, where the pay-as-you-go model applies. Still, one wants to have a working system that can handle traffic peaks within a given latency bound, so the resources-to-latency-proportion needs to be optimized. Previous work mostly focused on studying complex operator types in specific environments. In this thesis however, we want to get a general view, how parallelization degrees and types influence our CEP system, to be able to estimate what costs could...
Multithreaded multiprocessor systems (MMS) have been proposed to tolerate long latencies for communi...
Internet of Things (IoT) has posed new requirements to the underlying processing architecture, speci...
In this paper we propose a formal model for characterizing latencies affecting the computation of a ...
Most complex information systems are event-driven: each part of the system reacts to the events happ...
Complex Event Processing (CEP) is a widely used paradigm to detect and react to events of interest f...
A major theme of IT in the past decade has been the shift from on-premise hardware to cloud computin...
Importance of low-latency heterogeneous systems in today’s world is immeasurable, which was proven i...
This paper describes a benchmark for stream processing frameworks allowing accurate latency benchmar...
Complex Event Processing (CEP) is a powerful paradigm that can derive correlations from different da...
Complex Event Processing (CEP) is a powerful paradigm for scalable data management that is employed ...
Nowadays, the world is producing a tremendous amount of data every second. To consume data effective...
Complex Event Processing (CEP) is a well-known technology in real-time Big Data processing systems. ...
The great advance and affordability of technologies, communications and sensor technology has led to...
Multithreaded multiprocessor systems (MMS) have been proposed to tolerate long latencies for communi...
Internet of Things (IoT) has posed new requirements to the underlying processing architecture, speci...
In this paper we propose a formal model for characterizing latencies affecting the computation of a ...
Most complex information systems are event-driven: each part of the system reacts to the events happ...
Complex Event Processing (CEP) is a widely used paradigm to detect and react to events of interest f...
A major theme of IT in the past decade has been the shift from on-premise hardware to cloud computin...
Importance of low-latency heterogeneous systems in today’s world is immeasurable, which was proven i...
This paper describes a benchmark for stream processing frameworks allowing accurate latency benchmar...
Complex Event Processing (CEP) is a powerful paradigm that can derive correlations from different da...
Complex Event Processing (CEP) is a powerful paradigm for scalable data management that is employed ...
Nowadays, the world is producing a tremendous amount of data every second. To consume data effective...
Complex Event Processing (CEP) is a well-known technology in real-time Big Data processing systems. ...
The great advance and affordability of technologies, communications and sensor technology has led to...
Multithreaded multiprocessor systems (MMS) have been proposed to tolerate long latencies for communi...
Internet of Things (IoT) has posed new requirements to the underlying processing architecture, speci...
In this paper we propose a formal model for characterizing latencies affecting the computation of a ...