When i try to create good object hierarchy which will help to write less code and avoid to use unnecessary fields ,i feel myself free to create many base classes for good grouping which is usually abstract. What can be disadvantage of doing it like that ? Many times inherited class can be slower ? To see many unnecessary abstract classes which hasn't enough good naming can cause confusing when encounter it in intelli-sense(auto-complete) ? What can be other else ?
There's only one way to answer performance questions: try it both ways, and measure the results. Then you'll know.
The disadvantage of overly complex object hierarchies are:
1) they are confusing because they represent concepts that are not in the business domain
For example, you might want to have a storage system that can store information about employees, computers and conference rooms. So you have classes StorableObject, Employee, Room, Computer, where Employee, Room and Computer inherit from StorableObject. You mean "StorableObject" to represent something about your implementation of your database. Someone naively reading your code would ask "Why is a person a "storable object?" Surely a Computer is a storable object, and a Room is where it is stored. When you mix up the mechanisms of the shared code with the meaning of the "is a kind of" relationship in the business domain, things get confusing.
2) you only get one "inheritance pivot" in C#; it's a single inheritance language. When you make a choice to use inheritance for one thing, that means you've chosen to NOT use inheritance for something else. If you make a base class Vehicle, and derived classes MilitaryVehicle and CivilianVehicle, then you have just chosen to not have a base class Aircraft, because an aircraft can be either civilian or military.
You've got to choose your inheritance pivot very carefully; you only have one chance to get it right. The more complicated your code sharing mechanism is, the more likely you are to paint yourself into a corner where you're stuck with a bunch of code shared, but cannot use inheritance to represent concepts that you want to model.
There are lots of ways to share code without inheritance. Try to save the inheritance mechanism for things that really need it.
Consider composition over inheritance, but I don't think you'll experience performance issues with this.
Unless you're doing reflection, or something like that where your code has to walk the inheritance tree at runtime, you shouldn't see any speed differences, no matter how many levels of inheritance a class has, or no matter how many classes implement your particular class.
The biggest drawback is going to be making your code unnecessarily brittle.
If class B is implementing/inheriting A just because B is going to need similar fields, you will find yourself in a world of hurt six months later when you decide that they need to behave differently from A to B. To that regard, I'll echo k_b in suggesting you'll want to look at the Composition pattern.
I have just made a very simple practical test (unscientific though) where I created empty classes named A, B, C ... Q, where B inherited from A, C from B and so on to Q inheriting from P.
When attempting to retrieve some metrics on this I created some loops in which I simply created x number of A object, x number of B objects and so on.
These classes where empty and contained only the default constructor.
Based on this I could see that if it took 1 second (scaled) to create an object of type A then it took 7-8 seconds to create an object of type Q.
So the answer must be YES a too deep hierarchy will impact performance. If it is noticable depends on many things though, and how many objects you are creating.