adplus-dvertising
frame-decoration

Question

Banker's algorithm deals with

a.

deadlock prevention

b.

deadlock avoidance

c.

deadlock recovery

d.

mutual exclusion

Posted under Operating System

Answer: (b).deadlock avoidance

Engage with the Community - Add Your Comment

Confused About the Answer? Ask for Details Here.

Know the Explanation? Add it Here.

Q. Banker's algorithm deals with

Similar Questions

Discover Related MCQs

Q. Which of following is not a condition of Dead Lock ?

Q. A solution to the Dining Philosophers Problem which avoids deadlock is 

Q. Let m[0]…m[4] be mutexes (binary semaphores) and P[0] …. P[4] be processes. 
Suppose each process P[i] executes the following: 
  wait (m[i]);wait (m[(i+1) mode 4]); 
  .........
  release (m[i]); release (m[(i+1)mod 4]); 
This could cause 

Q. What are the necessary conditions to occur the deadlock?

Q. Deadlocks can be described by which graph?

Q. Choose the correct option regarding deadlock.

Q. Which of the following is deadlock avoidance algorithm?

Q.  In a graph the number of vertices of odd degree is always

Q. Consider a computer system with 6 tape drives and 'n' processes completing for them. What is the maximum value of 'n' for the system to be deadlock free? (Assuming that each processes may need 3 tape drives)

Q. A system has 'm' number of resources of same type and 3 processes A, B, C. Share these resources A, B, C which have the peak demand of 3, 4 and 6 respectively. Deadlock will not occur if the value of 'm' is __________.

Q. Which of the following statements is not valid for deadlock prevention scheme?

Q. Which of the following statements is not true for the deadlock prevention and deadlock avoidance schemes?

Q. In an undirected graph, the sum of degrees of all vertices is

Q. From the following statements which one is not a valid deadlock prevention scheme?

Q.  What is known as a race condition?

Q. Which of the following approaches do not require knowledge of the system state?

Q. An operating system contains 3 user processes each requiring 2 units of resource R .The minimum number of units of R such that no deadlocks will ever arise is

Q. Before proceeding with its execution, each process must acquire all the resources it needs is called

Q. To avoid race condition, the maximum number of processes that may be simultaneously inside the critical section is

Q. Which of the following is not the approach to dealing with deadlock ?