Add to ORKGA major problem in todays Internet servers is that they suffer from extreme peak loads. Traditional (operating) systems are designed to perform extremely well under heavy load conditions. However, it is not feasible to over-provision resources only to support peak loads. A key factor to deal with such peak loads is internal concurrency control. We have developed a component based architecture (DMonA), which allows to adapt internal concurrency according to measured throughput. Performance tests show that DMonA outperforms traditional approaches, while it is still very manageable thanks to the underlying DiPS component architecture
Distributed systems of multiple machines have been on the way to become the defactor architecture in...
Faced with increasing network services and number of users, requests to the servers at those sites ...
The explosive growth of the Internet, the widespread use of WWW-related applications, and the increa...
A major problem in todays Internet servers is that they suffer from extreme peak loads. Traditional ...
Modern computer systems for distributed service computing become highly complex and difficult to man...
Distributed and concurrent systems have become common in enterprises, and the complexity of these sy...
Increasing demands for interconnectivity, adaptivity and flexibility are leading to distributed comp...
This chapter describes an approach for increasing the scalability of applications by exploiting inh...
Internet services continue to incorporate increasingly bandwidth-intensive applications, including a...
In decentralized computing environments, systems are built mainly from components that are developed...
In decentralized computing environments, systems are built mainly from components that are developed...
Abstract. Increasing demands for interconnectivity, adaptivity and flexibility are leading to distri...
Abstract—For many years, multiserver1 operating systems have been demonstrating, by their design, hi...
In decentralized computing environments, systems are built mainly from components that are developed...
Sophisticated middlebox services–such as network monitoring and intrusion detection, DDoS mitigation...
Distributed systems of multiple machines have been on the way to become the defactor architecture in...
Faced with increasing network services and number of users, requests to the servers at those sites ...
The explosive growth of the Internet, the widespread use of WWW-related applications, and the increa...
A major problem in todays Internet servers is that they suffer from extreme peak loads. Traditional ...
Modern computer systems for distributed service computing become highly complex and difficult to man...
Distributed and concurrent systems have become common in enterprises, and the complexity of these sy...
Increasing demands for interconnectivity, adaptivity and flexibility are leading to distributed comp...
This chapter describes an approach for increasing the scalability of applications by exploiting inh...
Internet services continue to incorporate increasingly bandwidth-intensive applications, including a...
In decentralized computing environments, systems are built mainly from components that are developed...
In decentralized computing environments, systems are built mainly from components that are developed...
Abstract. Increasing demands for interconnectivity, adaptivity and flexibility are leading to distri...
Abstract—For many years, multiserver1 operating systems have been demonstrating, by their design, hi...
In decentralized computing environments, systems are built mainly from components that are developed...
Sophisticated middlebox services–such as network monitoring and intrusion detection, DDoS mitigation...
Distributed systems of multiple machines have been on the way to become the defactor architecture in...
Faced with increasing network services and number of users, requests to the servers at those sites ...
The explosive growth of the Internet, the widespread use of WWW-related applications, and the increa...