What's the difference between "Layers" and "Tiers"?
Source: Rockford Lhotka, Should all apps be n-tier?
Read Scott Hanselman's post on the issue: http://www.hanselman.com/blog/AReminderOnThreeMultiTierLayerArchitectureDesignBroughtToYouByMyLateNightFrustrations.aspx
Layers refer to logical seperation of code. Logical layers help you organise your code better. For example an application can have the following layers.
1)Presentation Layer or UI Layer 2)Business Layer or Business Logic Layer 3)Data Access Layer or Data Layer
The aboove three layers reside in their own projects, may be 3 projects or even more. When we compile the projects we get the respective layer DLL. So we have 3 DLL's now.
Depending upon how we deploy our application, we may have 1 to 3 tiers. As we now have 3 DLL's, if we deploy all the DLL's on the same machine, then we have only 1 physical tier but 3 logical layers.
If we choose to deploy each DLL on a seperate machine, then we have 3 tiers and 3 layers.
So, Layers are a logical separation and Tiers are a physical separation. We can also say that, tiers are the physical deployment of layers.
I've found a definition that says that Layers are a logical separation and tiers are a physical separation.
I use layers to describe the architect or technology stack within a component of my solutions. I use tiers to logically group those components typically when network or interprocess communication is involved.
Yes my dear friends said correctly.
Layer is a logical partition of application whereas tier is physical partition of system
tier partition is depends on layer partition. Just like an application execute on single machine but it follows 3 layered architecture, so we can say that layer architecture could be exist in a tier architecture.
In simple term 3 layer architecture can implement in single machine then we can say that its is 1 tier architecture. If we implement each layer on separate machine then its called
3 tier architecture. A layer may also able to run several tier.
In layer architecture related component to communicate to each other easily.
A client could interact to "presentation layer", but they access public component of below layer's (like business logic layer's public component) to "business logic layer" due to security reason.
other need like after developing application we need to change dbms or modify business logic etc. then it is necessary to all.
Q * why we use tier architecture?
because physically implementation of each layer gives a better efficiency ,without layer architecture we can not implement tier architecture. separate machine to implement separate
tier and separate tier is implement one or more layer that's why we use it.
Just like a bank open in a chamber, in which categories the employee:
they all are the related components of system.
If we going to bank for loan purpose then first a gate keeper open the door with smile after that we goes to near a person that introduce to all scheme of loan after that we goes to manager cabin and pass the loan. After that finally we goes to cashier's counter take loan. These are layer architecture of bank.
What about tier? A bank's branch open in a town, after that in another town, after that in another but what is the basic requirement of each branch
exactly the same concept of layer and tier.
In plain english, the
Tier is a physical unit, where the code / process runs. E.g.: client, application server, database server; Layer is a logical unit, how to organize the code. E.g.: presentation (view), controller, models, repository, data access.
Layers are the logical groupings of the software components that make up the application or service. They help to differentiate between the different kinds of tasks performed by the components, making it easier to create a design that supports reusability of components. Each logical layer contains a number of discrete component types grouped into sublayers, with each sublayer performing a specific type of task.
Tiers represent the physical separation of the presentation, business, services, and data functionality of your design across separate computers and systems
The two-tier pattern represents a client and a server. In this scenario, the client and server may exist on the same machine, or may be located on two different machines. Figure below, illustrates a common Web application scenario where the client interacts with a Web server located in the client tier. This tier contains the presentation layer logic and any required business layer logic. The Web application communicates with a separate machine that hosts the database tier, which contains the data layer logic.
Advantages of Layers and Tiers:
A 1-Tier application could be a 3-Layer application.
Why always trying to use complex words?
A layer = a part of your code, if your application is a cake, this is a slice.
A tier = a physical machine, a server.
A tier hosts one or more layers.
Example of layers:
Your code is hosted on a server = Your code is hosted on a tier.
Your code is hosted on 2 servers = Your code is hosted on 2 tiers.
For example, one machine hosting the Web Site itself (the Presentation layer), another machine more secured hosting all the more security sensitive code (real business code - business layer, database access layer, etc.).
There are so many benefits to implement a layered architecture. This is tricky and properly implementing a layered application takes time. If you have some, have a look at this post of Microsoft: http://msdn.microsoft.com/en-gb/library/ee658109.aspx
Layers are conceptual entities, and are used to separate the functionality of software system from a logical point of view; when you implement the system you organize these layers using different methods; in this condition we refer to them not as layers but as tiers.