# What's the Difference between Conflict Serializable and Serializable?

My understanding is that conflict serializable implies serializable. I'm not sure how that makes them different. Does serializable mean conflict serializable?

Conflict serializable is a subset of serializable, so just because a schedule is conflict serializable does mean it is serializable.

See cow book Database Management System 2rd Ed Cha19.1.1 P541

Every conflict serializable schedule is serializable.

A serializable but not conflict serializable schedule is

``````T1 : R(A)       W(A) C
T2 :     W(A) C
T3 :                   W(A) C
``````

This is not conflict serializable (by precedence graph) but is equivalent to serializable schedule

``````T1 T2 T3
``````

because T3 blind writes the output in both schedule.

• I think you mean superset. Jun 19, 2018 at 16:48
• @YoGengoUnLCD subset is correct. There are view serializable schedules (see fois's example) that are not conflict serializable. Every conflict serializable schedule is also view serializable. Hence the set of conflict serializable schedules is a subset of the set of view serializable schedules.
– Evan
Apr 7, 2021 at 1:02

Conflict serializability is a subset of serializability. If a schedule is conflict serializable, it is implied that this schedules is serializable.

It is computationally easier to determine if something is conflict serializable as opposed to just serializable. Simply construct a precedence graph. If the graph is non-cyclic, then this schuedule is conflict-equivalent to some serial schedule described by the pathing of the graph.

Imagine transactions A B and C, all writing to the same page. A writes, then B, then C, then A again. There is no serializable schedule that is conflict-equivalent. A must go first, because B and C have a conflict after A. But A must also go last, since B and C have a conflict before A. Hence the cycle in the graph.

But just because it is not conflict serializable does not mean it is not serializable. For example, if the last write of A was exactly the same as C's write, then ABC would be a serial schedule equivalent to the original, because the last write didn't end up mattering.

• If Conf. serializable is subset of serializable then every conf. serializable is serializable (by definition of subset). E.g. apples is subset of fruits, so every apple is fruit not vice versa (as you claim in your first sentence). Can you fix/clarify it, please? Aug 30, 2017 at 9:51
• Subset or superset? This contradicts the answers below. Jun 19, 2018 at 16:46

Straight Definition with the understanding of conflicting actions:

A schedule is conflict serializable if it is conflict equivalent to some serial schedule. Every conflict serializable schedule is serializable.

The above example is serializable but not conflict serializable. There is no such serial that has the same conflicting actions. Serializable because it still achieves concurrency to serial T1->T2->T3, but does not share conflicting actions. The writes of T1 and T2 are in different order in the example opposed to the serial.

In simple Words, Suppose there is a schedule(S) with two transaction T1,T2. Let Result1, Result2 be two variables, where Result1 is produced after running T1 and then T2, i.e T1->T2;(serially) Result2 is produced after running T2 and then T1, i.e T2->T1;(serially)

Now suppose we interleave the actions of the two transaction, let us call it schedule S, now if the net result produced after running S is equivalent to Result1 or Result2 then we call it serializable.

But, if we can swap the non-conflicting actions and produce a serial schedule that is equal to a schedule in which T1 is run first and then T2(T1->T2), or T2 is run first and then T1(T2->T1) then we call it conflict-serializable.

Now if a schedule is conflict-serializable then it is bound to be serializable as it can be changed to some serial order by swapping the non-conflicting actions.

Hence we can conclude, every conflict-serializable schedule is serializable but not all serializable schedule are conflict-serializable.

Serializability has two types: Conflict and View. Conflict serializable determines if a schedule is equivalent to some serial schedule keeping the conflicting operations(R-W or W-R or W-W) in the same sequence as in the original schedule.

Conflict serializable is a subset of view serializable. "A schedule can be conflict serializable but not view serializable(as in case of blind writes)

• I think you mean superset. Jun 19, 2018 at 16:48
• I get what you mean. By subset I meant that the required conditions for conflict serializability are less. Jul 4, 2018 at 20:08
• It's true that conflict serializable schedules are a subset of view serializable schedules, but your second sentence is incorrect. A schedule can be VIEW serializable but also not be CONFLICT serializable (not the other way around).
– Evan
Apr 7, 2021 at 1:01