Add to ORKGThe MonALISA (Monitoring Agents in A Large Integrated Services Architecture) framework provides a set of distributed services for monitoring, control, management and global optimization for large scale distributed systems. It is based on an ensemble of autonomous, multi-threaded, agent-based subsystems which are registered as dynamic services. They can be automatically discovered and used by other services or clients. The distributed agents can collaborate and cooperate in performing a wide range of management, control and global optimization tasks using real time monitoring information
Grid monitoring is an active research area, targeting both grid resources monitoring and application...
One way to reduce the computational load of the agents is the distribution of their services. To ach...
The SAMGrid team is in the process of implementing a monitoring and information service, which fulfi...
The MonALISA (Monitoring Agents in A Large Integrated Services Architecture) framework provides a se...
The MonALISA (Monitoring Agents in A Large Integrated Services Architecture) system provides a distr...
The MonALISA (Monitoring Agents in A Large Integrated Services Architecture) system provides a distr...
The MonALISA (Monitoring Agents using a Large Integrated Services Architecture) framework provides a...
MonALISA developers describe how it works, the key design principles behind it, and the biggest tech...
MonALISA developers describe how it works, the key design principles behind it, and the biggest tech...
Abstract. A complex software environment such as the ALICE Computing Grid infrastruc ture requires p...
We are developing a general purpose monitoring system for the ALICE experiment, based on the MonALIS...
Network monitoring is vital to ensure proper network operation over time, and is tightly integrated ...
An important part of managing large-scale, distributed computing systems is a monitoring service tha...
This report introduces a monitoring service specially designed for BlobSeer, a large-scale distribut...
High-Energy Physics experiments like ALICE at LHC require petabytes of storage and thousand of CP...
Grid monitoring is an active research area, targeting both grid resources monitoring and application...
One way to reduce the computational load of the agents is the distribution of their services. To ach...
The SAMGrid team is in the process of implementing a monitoring and information service, which fulfi...
The MonALISA (Monitoring Agents in A Large Integrated Services Architecture) framework provides a se...
The MonALISA (Monitoring Agents in A Large Integrated Services Architecture) system provides a distr...
The MonALISA (Monitoring Agents in A Large Integrated Services Architecture) system provides a distr...
The MonALISA (Monitoring Agents using a Large Integrated Services Architecture) framework provides a...
MonALISA developers describe how it works, the key design principles behind it, and the biggest tech...
MonALISA developers describe how it works, the key design principles behind it, and the biggest tech...
Abstract. A complex software environment such as the ALICE Computing Grid infrastruc ture requires p...
We are developing a general purpose monitoring system for the ALICE experiment, based on the MonALIS...
Network monitoring is vital to ensure proper network operation over time, and is tightly integrated ...
An important part of managing large-scale, distributed computing systems is a monitoring service tha...
This report introduces a monitoring service specially designed for BlobSeer, a large-scale distribut...
High-Energy Physics experiments like ALICE at LHC require petabytes of storage and thousand of CP...
Grid monitoring is an active research area, targeting both grid resources monitoring and application...
One way to reduce the computational load of the agents is the distribution of their services. To ach...
The SAMGrid team is in the process of implementing a monitoring and information service, which fulfi...