1.1 Aims and objectives The aim of this project is to identify the current QoS provisioning for various Computational Grid (wired) sensitive applications. The subsequent course of action that are prerequisite and might help in achieving the goal as identified by myself are: 1. Understanding the basic concept of Grid computing. 2. Understanding the organisation and Worl<ing of a service on a grid by setting up a functional Grid. 3. Identifying the potential candidate applications for Grids and their QoS requirements. 4. Identifying the current QoS provisioning Models. 5. Identifying network Measuring tools and architectures. 1.2 Research Issues (Quality of Service (QoS)) The issue of QoS needs to be addressed at different levels of organisat...
Abstract — Grids rely on a complex interconnection of IP domains that may exhibit changing performan...
Complex computational tasks are combinations of multiple independent computational subtasks related ...
Grid computing is a key enabling technology for the field of e-Science. As scientists rely increasin...
Grid computing offers a model for solving massive computational problems using large numbers of comp...
In ten years of evolution Grid Computing has changed quickly, and the development of new middleware ...
Rapid advancement of communication technology has changed the landscape of computing. New models of ...
Grid computing promises to become the future computing paradigm for enterprise application after ha...
∗Contact authors Abstract Computing Grids are hardware and software infrastructures that sup-port se...
Distinguished from conventional parallel and distributed computing, the innovative field of grid com...
Grid computing provides a global-scale distributed computing infrastructure for executing scientific...
Grid computing provides the infrastructure necessary to access and use distributed resources as part...
Grid computing provides a robust paradigm for aggregating disparate resources in a secure and contro...
Grid users may wish to have fine-grained control of quality of service (QoS) guarantees in a network...
QoS (Quality of Service) parameters play a key role in selecting Grid resources and optimizing resou...
Complex computational tasks are combinations of multiple independent computational subtasks related ...
Abstract — Grids rely on a complex interconnection of IP domains that may exhibit changing performan...
Complex computational tasks are combinations of multiple independent computational subtasks related ...
Grid computing is a key enabling technology for the field of e-Science. As scientists rely increasin...
Grid computing offers a model for solving massive computational problems using large numbers of comp...
In ten years of evolution Grid Computing has changed quickly, and the development of new middleware ...
Rapid advancement of communication technology has changed the landscape of computing. New models of ...
Grid computing promises to become the future computing paradigm for enterprise application after ha...
∗Contact authors Abstract Computing Grids are hardware and software infrastructures that sup-port se...
Distinguished from conventional parallel and distributed computing, the innovative field of grid com...
Grid computing provides a global-scale distributed computing infrastructure for executing scientific...
Grid computing provides the infrastructure necessary to access and use distributed resources as part...
Grid computing provides a robust paradigm for aggregating disparate resources in a secure and contro...
Grid users may wish to have fine-grained control of quality of service (QoS) guarantees in a network...
QoS (Quality of Service) parameters play a key role in selecting Grid resources and optimizing resou...
Complex computational tasks are combinations of multiple independent computational subtasks related ...
Abstract — Grids rely on a complex interconnection of IP domains that may exhibit changing performan...
Complex computational tasks are combinations of multiple independent computational subtasks related ...
Grid computing is a key enabling technology for the field of e-Science. As scientists rely increasin...