QoS Enabled Architecture for efficient web service (1)
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Transcript of QoS Enabled Architecture for efficient web service (1)
QoS Enabled Architecture For Efficient Web Service
Presented by:A.S.M.Mannaf Rahman.
Roll: 988185
Executive SummaryThis project is concerned with quality attributes for Web Services
Web Services are in great demand. They can be described, published and located over the World Wide Web.
In this project, We will try to present a QoS-capable Web service architecture, QCWS, by introducing a QoS broker module between service clients and providers.
ObjectiveThrough out the presented project, We have tried to accomplish the following objectives:
To Analyze QoS Evaluation of Web Service.
To Minimize the Resource Wastage of Web Service.
To Get the Better Idea about the Recent Development in the field of Web Base QoS.
Key Components
Web Server The term web server can refer to either
the hardware (the computer) or the software(the computer application) that helps to deliver web content that can be accessed through the Internet.
Key Components
Web Service Web Services can convert your applications into
Web-applications. It is published, found, and used through the Web.
Web services are application components.Web services communicate using open
protocols Web services can be discovered using UDDI
Key Components
QoS
• Availability– Ready for immediate consumption– Probability the system is up (related to reliability)– Time-to-Repair is associated with availability: the
time it takes to repair the WS
Key ComponentsQoS
• Accuracy– The error rate generated by the WS. The number of
errors that the service generates over a time interval should be minimized
• Reliability– The percentage of packets discarded by a router.
Key Components
QoS• Security• Latency
-The delay in data transmission from source to destination.• Jitter
-The variation in latency.
Related Works
• A lot of research activities have been done in the area of how to realize the QoS support in Web services.
• Focus on extending UDDI registry to support QoS information (Ran, S., 2009; Shaikhali, et al.,2009).
• UDDIe project (Shaikhali, et al., 2011)extends the current UDDI registry by adding“bluepages”.
QCWS
Three Entities of QCWS : Server QoS Broker Clients
QCWS Architecture
Server
• Provide Functionalities information to Broker.
• Provide QoS Information about its services
Server Contents
QoS Information.Qos Admission And Enforcement.Web Services.
Service oriented Server
The first class not build with QoS supports, referred as Legacy Server. Here Clients are treated equally and scheduled using native schedulers in the OS.
Other class of servers build with QoS support and called QoS server. They have the ability to assign different amount of system resources to different clients according to their QoS requirements.
QoS Broker
A QoS broker receives clients’ functional & QoS requirement requests and identifies qualified services for them.
QoS Broker Contents
QoS Information Manager.QoS Negotiation Manager.QoS Analyzer.
QoS Broker
Clients
As the end users of Web services, Clients send their service request and QoS requirements to a broker and ask the broker to select a server for them.
Clients also collect the QoS result information after each service call and send them to the broker.
Function of QCWS
The QoS broker module collects the QoS information about service providers (servers).
Makes service selection decisions for clients. and
Negotiates with some of the servers to meet the QoS requirements.
Resource Allocation(HQ)
Set the allocation policy: (K: current number of clients)
• · If K ≤ A1, the resources allocated to each client = R/ A1;
• · If Ai ≤ K ≤ Ai+1(1 ≤ i < m), the resources allocated to each client = R/Ai+1;
• · If K ≥ Am, allocated resource =R/K.
Homogeneous Resource Allocation Algorithm HQ
There are several terms we define in this project:
· Total System Utility (Ug(t)): Summation of all active (currently receiving services) clients’ utility at time t;
· Average System Utility (Uavg): The integral of the instantaneous total system utility with respect to time divided by the time period through which it is measured;
· Reconfiguration: Reconfiguration means resources are reallocated among existing clients and the incoming client;
· Reconfiguration Rate: The total number of reconfigurations divided by the time through which it is measured
Algorithm HQ
The system performance is measured byUavg and the QoS instability is measured by the reconfiguration rate. The goal of the resource allocation algorithm is to optimize the system performance while reducing the QoS instability.
Non-homogeneous ResourceAllocation RQ
The algorithm RQ has the following parameters:· W: weight of the virtual client;· Nr: number of clients to be reconfigured during
a reconfiguration;· Uc(r): client’s utility function;· Uvc(r): virtual client’s utility function;
Example for Resource allocation
Allocation RQ
The rules for selecting Nr clients for reconfiguration are:• a. Choose clients that are receiving resources more than
their minimum resource requirements;• b. Choose clients that have the biggest differences
between their minimum resource requirements and currently assigned resources;
• c. If the result of reconfiguration will cause a client to drop below the minimum service level it should receive, remove it from Nr list.
• b. Repeat this step until an available allocation is found.
Conclusion
• All of the approaches proposed in this project are aiming at improving QoS management of Web services.
• We discussed about QoS evaluation.• The remaining part introduces resource
allocation algorithm for better QoS capable web services.
Thank You