1 / 26

Objectives In this session, you will learn to: Identify the types of application architectures

Objectives In this session, you will learn to: Identify the types of application architectures Identify the need for an n-tier architecture model Identify the features of the n-tier architecture model Identify the advantages of using n-tier architecture

laksha
Télécharger la présentation

Objectives In this session, you will learn to: Identify the types of application architectures

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Objectives In this session, you will learn to: • Identify the types of application architectures • Identify the need for an n-tier architecture model • Identify the features of the n-tier architecture model • Identify the advantages of using n-tier architecture • Identify the steps to develop an n-tier model

  2. Application Architectures • Applications are developed to support organizations in their business operations. The functions performed by an application can be divided into three categories: user services, business services, and data services. • Application architectures are of the following types: • Single-tier • Two-tier • Three-tier • N-tier

  3. User Services Business Services Data Services The Single-tier Architecture • In the case of a single-tier architecture, a single executable file handles all functions related to the user, business, and data service layers. Such an application is also called a monolithicapplication. • The following figure depicts the components of the single-tier architecture: Single-tier Architecture

  4. The Single-tier Architecture (Contd.) • Examples of single-tier architecture can be found in some of the very early COBOL programs performing extremely mission-critical operations.

  5. The Two-tier Architecture • The two-tier architecture divides an application into the following components: • Client • Server • The client implements the user interface. • The server stores the data.

  6. Two-tier Architecture Client The Two-tier Architecture (Contd.) • The following figure depicts the components of the two-tier architecture: • The communication between a Web browser and a Web server is an example of client server architecture. Server Business logic User tier Data tier

  7. The Three-tier Architecture • In the two-tier system, the actual processing of data takes place on the server. Therefore, the data has to be transported over the network. This leads to increased network stress. To overcome these problems, there was a shift from the two-tiered to the three-tiered systems. • In the three-tiered system, there is a clear separation of user-interface-control and data presentation from application-logic. Therefore, more clients are able to access a wide variety of server applications. This leads to quicker development through the reuse of pre-built business-logic components and a shorter test phase because the server-components have already been tested.

  8. The Three-tier Architecture (Contd.) • The three-tiered architecture is the most popular architecture on the Web. The three-tiered architecture comprises: • The user interface, mostly a Web browser, that processes client requests in the form of HTML/DHTML pages • The data tier that stores data in the database server • The business logic tier, implemented by the Web server that uses scripting languages, such as ASP to perform tasks like form validation • All the three service layers reside separately, either on the same machine or on different machines.

  9. Three-tier Architecture Business Logic Data Store Client User Services Business Services Data Services The Three-tier Architecture (Contd.) • The following figure depicts the components of the three-tier architecture:

  10. The N-tier Architecture • The n-tier architecture is an expanded model of the three-tier architecture. • A typical n-tier model consists of the following tiers: • Presentation logic tier- The presentation layer provides an interface for the end user. This layer generally consists of the windows forms and ASP pages. • Proxy tier and the distributed logic- The proxy layer provides access to distributed components in the n-tier architecture.

  11. The N-tier Architecture (Contd.) • Client interface- The client interface layer represents the end-user presentation, such as the windows forms. • Business tier- The business layer is the most important part of the n-tiered architecture. It contains the business rules and data manipulation/transformation logic. • Data access tier- The data access layer is a reusable interface to the database. It contains the generic methods used to interface with the data. • Data tier- The data layer deals with storage and retrieval of information. Basically, the data tier consists of the database management systems.

  12. Presentation Tier Proxy and Distributed Logic Tier Business Tier Data Access Data Tier The N-tier Architecture(Contd.) • The following figure depicts the components of the N-tier architecture:

  13. Presentation logic tier View Proxy tier and distributed logic Distributed Logic Connects to proxy layer to send and receive requests Client interface Business objects and rules Data access tier Interface with database, handles all input/output operations Data tier Query and data storage The N-tier Architecture(Contd.) • Each layer of the n-tier architecture performs specific functions. The following diagram depicts the functions performed by each layer: N-tier architecture Business tier

  14. Advantages of Using the N-tier Architecture • The n-tier application architecture helps you to create: • Robust and reliable applications for the Internet • Interoperable applications • Extensible, maintainable, and scalable applications

  15. Developing an N-tier Model • To develop and integrate an n-tier model, you need to perform the following steps: • Create the data tier • Create the database, create tables in the database, and define the primary and foreign keys • Create the data access tier • Create a set of useful and specific routines to interact with the database • Create the business tier • Write useful methods that will conform to the business rules • Write codes to perform server-side data validation

  16. Developing an N-tier Model (Contd.) • Set up the proxy and distributed logic tier • Add the class libraries and Web services to the project • Set up dependencies, protocols, and add references • Create the presentation tier • Create windows forms and add functionalities to the controls

  17. N-tier and Enterprise Applications • Application architecture that handles persistent data and has business logic is known as enterprise architecture. • The persistent data might outlive the hardware or software that was used to collect the data. • There might be changes to the structure of data, for instance, addition of new data or reorganization of data. • The persistent data is associated with specific business logic. • This brings out the need for an enterprise application to be built on an architecture, which allows one component to be modified independently without affecting the other components. Therefore, an enterprise architecture needs to be built on the n-tier architecture.

  18. N-tier and Enterprise Applications (Contd.) • The data of an enterprise application will map to the data tier of the n-tier architecture. For example, SQL can be used to store the data. • The logic to access the data can be implemented in the data access tier. For example, ADO.NET can be used to access the data. • The business logic can be implemented in the business logic tier. For example, Visual Basic .NET or C# can be used to implement the business rules. • The interpretation of the data can be implemented in the proxy and distributed logic tier. For example, C# or Visual Basic .NET can be used to implement the proxy tier.

  19. Presentation Tier (ASP.NET) Proxy and Distributed Logic Tier (VB.NET or C#) Business Tier (VB.NET or C#) Data Access (ADO.NET) Data Tier (MS-SQL) N-tier and Enterprise Applications (Contd.) • The view of the data can be implemented in the presentation tier. For example, ASP.NET can be used to implement the view. A representation of the enterprise architecture is given below:

  20. Summary In this lesson, you learned that: • Application architectures are of the following types: • Single-tier • Two-tier • Three-tier • N-tier • In single-tier architecture, a single executable file handles all functions related to the user, business, and data service layers.

  21. Summary (Contd.) • Two-tier architecture comprises the following components: • Client • Server • In the two-tier architecture, the actual processing of data takes place on the server. Therefore, the data has to be transported over the network. This leads to increased network stress. • The three-tiered architecture comprises: • The user interface, mostly a Web browser, that processes client requests in the form of HTML/DHTML pages • The data tier that stores data in the database server

  22. Summary (Contd.) • The business logic tier, implemented by the Web server that uses scripting languages, such as ASP to perform tasks like form validation • A typical n-tier model consists of the following tiers: • Presentation logic tier • Proxy tier and the distributed logic • Client interface • Business tier • Data access tier • Data tier

  23. Summary (Contd.) • The data layer deals with storage and retrieval of information. The data tier consists of the database management systems. • The presentation layer provides an interface for the end user into the application. This layer generally consists of the windows forms and ASP pages. • The proxy layer provides access to the next tier in the multi-tiered system. • The client interface layer represents the end-user presentation, such as the windows forms. • The business layer is the most important part of the n-tiered architecture. It contains the business rules and data manipulation/transformation logic.

  24. Summary (Contd.) • The data access layer is a reusable interface to the database. It contains the generic methods used to interface with the data. • Using n-tier application architecture, you can create: • Robust and reliable applications for the Internet • Extensible, maintainable, and scalable applications • Interoperable applications • Application architecture that handles persistent data and has business logic is known as enterprise architecture. • The persistent data might outlive the hardware or software that was used to collect the data.

  25. Summary (Contd.) • The persistent data is associated with specific business logic. • The data of an enterprise application will map to the data tier of the n-tier architecture. For example, SQL can be used to store the data. • The logic to access the data can be implemented in the data access tier. For example, ADO.NET can be used to access the data. • The business logic can be implemented in the business logic tier. For example, Visual Basic .NET or C# can be used to implement the business rules. • The interpretation of the data can be implemented in the proxy and distributed logic tier. For example, C# or Visual Basic .NET can be used to implement the proxy tier.

  26. Summary (Contd.) • The view of the data can be implemented in the presentation tier. For example, ASP.NET can be used to implement the view.

More Related