Every conflict serializable schedule is also view serializable , but every view serializale schedule is not conflict serializable .
That means conflict serializable is subset of view serializable. More number of vew serial schedule is possible.
Also in this question , number of view-equivalent schedules of given schedule is asked .
There is a difference between view equal and view equal to a serial schedule.
View equal schedule = (concurrent + serial ) schedule
View view-equivalent schedules to a serial schedule = only serial schedule is consider
If a schedule S is view-equivalent to a serial schedule, we say S is view-serializable , Clearly view equal and view serializable are different from this line .
If it is given view equal only then it can include concurrent schedules also .That is the reason we can't draw polygraph here..as in polygraph we draw it for serial schedules only .
We assume either one transaction executes before or after another in serial schedule but the operations of two can be interleaved in between in concurrent schedule.
Here blind write perform by w1(B) and w2(B) , blind write means write before read.
now, w3(B) is fixed due to the rule "last operation on some item should be same in view equivalence schedule."
so leaving w3(B) we have 5 schedule, we can arrange them in 5! = 120 way .
r3(A) can be arranging 2! way
r2(A) can be arranging 2! way
so total number of view equal schedule possible (120 / 2! 2! ) = 30
in all these 30 schedules w3(B) is last transaction , it is fixed.