Wednesday, October 27, 2010

Definition of Process



'Definition of Process





SUCCESS FOR CAREER


Definition of Process

The notion of process is central to the understanding of operating systems. There are quite a few definitions presented in the literature, but no "perfect" definition has yet appeared.

Definition
The term "process" was first used by the designers of the MULTICS in 1960's. Since then, the term process, used somewhat interchangeably with 'task' or 'job'. The process has been given many definitions for instance
• A program in Execution.
• An asynchronous activity.
• The 'animated sprit' of a procedure in execution.
• The entity to which processors are assigned.
• The 'dispatchable' unit.
and many more definitions have given. As we can see from above that there is no universally agreed upon definition, but the definition "Program in Execution" seem to be most frequently used. And this is a concept are will use in the present study of operating systems.
Now that we agreed upon the definition of process, the question is what is the relation between process and program. It is same beast with different name or when this beast is sleeping (not executing) it is called program and when it is executing becomes process. Well, to be very precise. Process is not the same as program. In the following discussion we point out some of the difference between process and program. As we have mentioned earlier.
Process is not the same as program. A process is more than a program code. A process is an 'active' entity as oppose to program which consider to be a 'passive' entity. As we all know that a program is an algorithm expressed in some suitable notation, (e.g., programming language). Being a passive, a program is only a part of process. Process, on the other hand, includes:
• Current value of Program Counter (PC)
• Contents of the processors registers
• Value of the variables
• The process stack (SP) which typically contains temporary data such as subroutine parameter, return address, and temporary variables.
• A data section that contains global variables.
A process is the unit of work in a system.
In Process model, all software on the computer is organized into a number of sequential processes. A process includes PC, registers, and variables. Conceptually, each process has its own virtual CPU. In reality, the CPU switches back and forth among processes. (The rapid switching back and forth is called multiprogramming).




Process State


The process state consist of everything necessary to resume the process execution if it is somehow put aside temporarily. The process state consists of at least following:
• Code for the program.
• Program's static data.
• Program's dynamic data.
• Program's procedure call stack.
• Contents of general purpose registers.
• Contents of program counter (PC)
• Contents of program status word (PSW).
• Operating Systems resource in use.

A process goes through a series of discrete process states.
• New State: The process being created.
• Running State: A process is said to be running if it has the CPU, that is, process actually using the CPU at that particular instant.
• Blocked (or waiting) State: A process is said to be blocked if it is waiting for some event to happen such that as an I/O completion before it can proceed. Note that a process is unable to run until some external event happens.
• Ready State: A process is said to be ready if it use a CPU if one were available. A ready state process is runable but temporarily stopped running to let another process run.
• Terminated state: The process has finished execution.






Process State


The process state consist of everything necessary to resume the process execution if it is somehow put aside temporarily. The process state consists of at least following:
• Code for the program.
• Program's static data.
• Program's dynamic data.
• Program's procedure call stack.
• Contents of general purpose registers.
• Contents of program counter (PC)
• Contents of program status word (PSW).
• Operating Systems resource in use.

A process goes through a series of discrete process states.
• New State: The process being created.
• Running State: A process is said to be running if it has the CPU, that is, process actually using the CPU at that particular instant.
• Blocked (or waiting) State: A process is said to be blocked if it is waiting for some event to happen such that as an I/O completion before it can proceed. Note that a process is unable to run until some external event happens.
• Ready State: A process is said to be ready if it use a CPU if one were available. A ready state process is runable but temporarily stopped running to let another process run.
• Terminated state: The process has finished execution.







Process Control Block


A process in an operating system is represented by a data structure known as a process control block (PCB) or process descriptor. The PCB contains important information about the specific process including
• The current state of the process i.e., whether it is ready, running, waiting, or whatever.
• Unique identification of the process in order to track "which is which" information.
• A pointer to parent process.
• Similarly, a pointer to child process (if it exists).
• The priority of process (a part of CPU scheduling information).
• Pointers to locate memory of processes.
• A register save area.
• The processor it is running on.
The PCB is a certain store that allows the operating systems to locate key information about a process. Thus, the PCB is the data structure that defines a process to the operating systems.





EXAMAPERS123.BLOGSPOT.COM

C LANGUAGE PROGRAMS BITS

C LANGUAGE PROGRAMS BITS
1. The recurrence relation that arises in relation with the complexity of binary search is
a. T(n)=T(n/2)+k, where k is constant
b. T(n)=2T(n/2)+k, where k is constant
c. T(n)=T(n/2)+log(n)
d. T(n)=T(n/2)+n
2. The running time T(n), where `n' is the input size of a recursive algorithm is given as followsT(n)=c+T(n-1),if n>1
d, if n≤ 1
The order of this algorithm is
a. n2
b. n
c. n3
d. nn
3. The concept of order(Big O) is important because
a. it can be used to decide the best algorithm that solves a given problem
b. It determines the minimum size of a problem that can be solved in a given system, in a given amount of time
c. It is the lower bound of the growth rate of the algorithm
d. It is the average bound of the growth rate of the algorithm
4. The concept of order(Big O) is important because
a. it can not be used to decide the best algorithm that solves a given problem
b. It determines the maximum size of a problem that can be solved in a given system, in a given amount of time
c. It is the lower bound of the growth rate of the algorithm
d. It is the average bound of the growth rate of the algorithm
5. The time complexity of an algorithm T(n), where n is the input size is given byT(n)=T(n-1)+/n, if n>1
=1 otherwise
The order of the algorithm is
a. log n
b. n
c. n2
d. nn
6. The running time of an algorithm is given byT(n)=T(n-1)+T(n-2)-T(n-3), if n>3
= n otherwise
The order of this algorithm is
a. n
b. log n
c. nn
d. n2
7. If n=4,then the value of O(log n) is
a. 1
b. 2
c. 4
d. 8
8. If n=4,then the value of O( n2) is
a. 4
b. 16
c. 64
d. 512
9. The average time complexity of insertion sort is
a. O(n2)
b. O(n)
c. O(1)
d. O(log n)
10. The running time of an algorithm is given byT(n)=T(n-1)+T(n-2)-T(n-3), if n>3
= n otherwise
What should be the relation between T(1),T(2) and T(3) so that its order is constant.
a. T(1)=T(2)=T(3)
b. T(1)+T(3)=2T(2)
c. T(1)-T(3)=T(2)
d. T(1)+T(2)=T(3)
11. The order of the algorithm that finds a given Boolean function of `n' variables , produces a is
a. constant
b. linear
c. non-linear
d. exponential
12. If n=16, then the value of O(n log n) is
a. 16
b. 32
c. 64
d. 128


13. How many memory management functions are there in C
a. 4
b. 3
c. 2
d. 1
14. Which of the following is not a C memory allocation function
a. alloc( )
b. calloc( )
c. free
d. malloc()
15. If n= 8, then the value of O(1) is
a. 1
b. 2
c. 4
d. 8
16. If n=4, then the value of O(n3) is
a. 4
b. 16
c. 64
d. 512
17. If n=2, then the value of O(n) is
a. 2
b. 3
c. 4
d. 5
18. All memory management functions are found in
a. stdlib.c
b. stdio.h
c. conio.h
d. math.h
19. The function that returns memory to the heap is
a. alloc( )
b. free( )
c. malloc( )
d. realloc( )
20. Which of the following statement about the releasing memory allocation is false?
a. It is an error to dereference a pointer to allocated memory after the memory has been released
b. It is an error to free memory with a pointer to other than the first element of an allocated array
c. Memory should be freed as soon as it is no longer needed
d. To ensure that it is released , allocated memory should be freed before the program
21. The syntax of free() function
a. void free(void* free)
b. int free(void* ptr)
c. float free(void* ptr)
d. void free(ptr)
22. Which of the memory function allocates a block of memory
a. malloc ( )
b. calloc( )
c. release( )
d. free( )
23. Return type of a calloc( ) function is
a. int
b. float
c. char
d. void
24. Return type of a realloc( ) function is
a. int
b. float
c. char
d. void
25. Which of the following memory management function used to release memory
a. malloc( )
b. calloc( )
c. release( )
d. free( )
26. Which of the following is considered auxiliary storage?
a. disk
b. random access memeory(RAM)
c. read only memory(ROM)
d. EEPROM
27. Which of the following is not a standard file stream?
a. stdin
b. stderr
c. stdfile
d. stdout
28. The C library that contains the prototype statements for the file operations is
a. file.h
b. proto.h
c. stdio.h
d. stdlib.h
29. In C, local variable are stored in
a. stack
b. heap
c. permanent storage
d. hard disk
30. The linked list field(s) are
a. data
b. pointer
c. pointer to next node
d. data and pointer to next node
31. The linked list structure is defined as
a. struct node
{
int item;
struct node *next;
};
b. node
{
int item;
struct node *next;
};
c. struct node
{
int item;
node *node;
};
d. node
{
Int item;
node next;
};
32. Dynamic memory area is
a. heap
b. stack
c. permanent storage
d. Hard disk
33. The contents of the storage space allocated dynamically, can be accessed through _ _ _ _ _ _ _
a. structure variables
b. pointers
c. unions
d. arrays
34. Each item in the list contains a �link� to structure containing the _ _ _ _ _ _ _ item
a. previous
b. next
c. present
d. last
35. In C, program instructions are stored in
a. stack
b. heap
c. permanent storage
d. Hard disk
36. In C, Global variables are stored in
a. permanent storage
b. stack
c. heap
d. Hard disk
37. In C, static variables are stored in
a. heap
b. permanent storage
c. Hard disk
d. Stack
38. A list refers to a set of items organized _ _ _ _ _
a. sequentially
b. exponentially
c. non-sequentially
d. factorially
39. Each structure of a linked list consists _ _ _ _ _ _ _ no. of fields
a. 2
b. 3
c. 4
d. 1
40. Linked lists are not suitable for data structures of which one of the following problem?
a. insertion sort
b. Binary search
c. radix sort
d. polynomial manipulation problem
41. An item that is read as input can be either pushed to a stack and latter popped and printed, or printed directly. Which of the following will be the output if the input is the sequence of items-1,2,3,4,5?
a. 3,4,5,1,2
b. 3,4,5,2,1
c. 1,5,2,3,4
d. 5,4,3,1,2
42. No.of pointers to be manipulated in a linked list to delete an item in the middle _ _ _ _ _ _ _
a. Zero
b. One
c. Two
d. Three
43. No.of pointers to be manipulated in a linked list to delete first item
a. Zero
b. One
c. Two
d. Three
44. Stack is useful for _ _ _ _ _ _ _
a. radix sort
b. breadth first search
c. recursion
d. quick sort
45. The end of the list is marked as
a. node.next=0
b. (node.last = 0)
c. node.next= &node;
d. node.previous=0;
46. No.of pointers to be manipulated in a linked list to insert an item in the middle _ _ _ _ _ _ _ _
a. Two
b. Three
c. One
d. Zero
47. No. of pointers to be manipulated in a linked list to delete last item
a. Zero
b. One
c. Two
d. Three
48. Single linked list uses _ _ _ _ _ _ no. of pointers
a. Zero
b. one
c. Two
d. Three
49. LIFO is
a. stack
b. queue
c. linked list
d. tree
50. A stack is has the entries a,b,c,(with a on top). Stack B is empty. An entry popped out of stack A can be printed immediately or pushed to stack B.An entry popped out of stack B can only be printed. In this arrangement, which of the following permutations a,b,c is not possible?
a. b a c
b. b c a
c. c a b
d. a b c
51. Which of the following programming languages features require a stack-base allocation
a. pointer
b. Block-structure
c. recursion
d. dynamic scoping
52. Push down stack or push down list is
a. stack
b. queue
c. linked list
d. dequeue
53. Stack is useful for
a. radix sort
b. breadth first search
c. recursion
d. Heap sort
54. Stacks can not be used to
a. evaluate an arithmetic expression in postfix form
b. implement recursion
c. convert a given arithmetic expression in infix form to is equivalent postfix form
d. allocates resources (like CPU) by the operating system
55. Stack is useful for implementing
a. radix sort
b. breadth first search
c. selection sort
d. depth first search
56. Which of the following is useful in implementing quick sort?
a. stack
b. set
c. list
d. queue
57. Which of the following is essential for converting an infix expression to postfix form efficiently?
a. An operator stack
b. An operand stack
c. An operator stack and an operand stack
d. A parse tree
58. A stack is most suitable to evaluate _ _ _ _ _ expression
a. postfix
b. prefix
c. infix
d. post & infix
59. Linear linked data structure is
a. tree
b. graph
c. stack
d. binary tree
60. A queue of characters currently contained a,b,c,d. What would be the contents of queue after the following operationDELETE, ADD W, ADD X, DELETE, ADD Y
a. A,B,C,W,Y
b. C,D,W,X,Y
c. W,Y,X,C,D
d. A,B,C,D,W
61. Which of the following data structure is suitable for priority queue?
a. Doubly linked list
b. Circular queues
c. Binary search
d. Heaps
62. For storing the sorted data on which often insert and deletion operations are performed, the following data structure is better
a. Array
b. queue
c. linked-list
d. doubly linked-list
63. A circular queue of size N will sign queue full when the number of elements in the queue is
a. N-1
b. N
c. N+1
d. N-2
64. The postfix equivalent of the prefix * + a b - c d is
a. ab + cd - *
b. ab cd + - *
c. ab + cd * -
d. ab + - cd *
65. The postfix expression for the infix expressionA + B* (C+D) / F + D*E is:
a. AB + CD + F / D + E*
b. ABCD + * F / + DE*
c. A*B + CD / F*DE ++
d. A+ BCD / F* DE ++
66. A telephone system which places cells to a particular number on hold can best represented by
a. queue
b. stack
c. linked-list
d. variable
67. The performance of an algorithm is specified by the following notation that represents the worst case
a. O-notation
b. Omega notation
c. Theta notation
d. alpha-notation
68. If front=rear ,then the queue is
a. full
b. empty
c. unknown value
d. 1/2 full
69. Reverse polish expression is
a. Infix
b. postfix
c. prefix
d. post & prefix
70. A list of integers is read in, one at a time, and a binary search tree is constructed. Next the tree is traversed and the integers are printed. Which traversed would result in a printout which duplicates the original order of the list of integers?
a. pre-order
b. post-order
c. in-order
d. in-fix order
71. The postfix expression for the infix expression A + B* (C+D) / F + D*E is
a. AB + CD + * F/D + E *
b. ABCD + *F / + DE* +
c. A*B + CD / F*DE ++
d. A + *BCD / F*DE ++
72. The equivalent of (a+b↑c↑d)*(e+f/d) in the post fix notation is
a. ab+c↑d↑e &fd/
b. abcd↑+↑efd/+*
c. abcdefd/+*↑↑+
d. abcd↑↑+efd/+*
73. The infix form of the postfix expression ABC-/D*E+ is
a. A/B-C*D+E
b. A-B/C*D+E
c. (A-B)/C*D+E
d. A/(B-C)*D+E
74. The postfix expression for the infix expression A/B*C+D*E is
a. AB/C*DE*+
b. ABC/*DE+*
c. ABCD/*E+*
d. ABC*/D*E+
75. The prefix expression for the infix expressionA/B*C+D*E is
a. AB/C*DE*+
b. +*/ABC*DE
c. +*AB/C*DE
d. /+ABCDE
76. Suffix expression is
a. Infix
b. postfix
c. prefix
d. post & prefix
77. polish expression is
a. infix
b. postfix
c. prefix
d. post & prefix
78. To convert an Infix expression into postfix we require
a. stack
b. queue
c. linked list
d. dequeue
79. A stack is most suitable to evaluate _ _ _ _ _ _ _ expression
a. postfix
b. prefix
c. infix
d. post & infix
80. The circular linked list have
a. no beginning
b. no ending
c. beginning but no ending
d. no beginning and no ending
81. To insert a node at the beginning of the doubly linked list _ _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
82. Doubly linked list uses _ _ _ _ _ _ _ _ no.of pointers
a. Zero
b. One
c. Two
d. Three
83. To insert a node at the beginning of the single linked list _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 0
84. To insert a node at middle of the single linked list _ _ _ _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
85. To insert a node at the end of the doubly linked list _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
86. To insert a node at the end of the single linked list _ _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
87. To delete the first node in single linked list _ _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
88. To delete the last node in single linked list _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 0
89. To delete the middle node in single linked list _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
90. To delete an item in the middle of a circular doubly linked list, _ _ _ _ _ _ _ _ no.of points to be manipulated
a. 2
b. 4
c. 6
d. 8
91. If storage class is missing in the array definition, by default it will be taken to be
a. automatic
b. external
c. static
d. either automatic or external depending on the place of occurrence
92. To delete the last node in doubly linked list _ _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
93. To delete the middle node in doubly linked list _ _ _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
94. To insert an item in a circular doubly linked list, _ _ _ _ _ _ _ no.of points to be manipulated
a. 1
b. 2
c. 3
d. 4
95. Which of the following features of C is meant to provide reliable access to special memory
a. static _ const
b. pragma
c. volatile
d. immutable
96. To insert a node at middle of the doubly linked list _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
97. To delete the first node in doubly linked list _ _ _ _ _ _ _ _ no. of pointers to be manipulated
a. 1
b. 2
c. 3
d. 4
98. To insert an item in a circular single linked list _ _ _ _ _ _ _ _ _ no.of points to be manipulated
a. 2
b. 3
c. 4
d. 1
99. To delete an item in a circular doubly linked list, _ _ _ _ _ _ _ _ no.of points to be manipulated
a. 1
b. 2
c. 3
d. 4
100. A sorting technique is called stable if:
a. it takes O ( n log n) time
b. It maintains the relative order of occurrence of non-distinct elements
c. It uses divide and conquer paradigm
d. The maximum number of nodes in a binary tree of height h is (2 -1)(The height of the root is reckoned as 0)
101. The maximum number of comparisons needed to sort 7 items using radix sort is (assume each item is a 4 digit decimal number)
a. 280
b. 40
c. 47
d. 38
102. If each node in a tree has a value greater than every value in its left sub tree and has value less than every value in its right sub tree, the binary tree is known as
a. Complete binary tree
b. Full binary tree
c. Binary search tree
d. Threaded binary tree
103. A binary tree in which if all its levels except possibly the last, have the maximum number of nodes and all the nodes at the last level appear as far as possible, is known as
a. full binary tree
b. 2-tree
c. threaded tree
d. Complete binary tree
104. You are asked 15 randomly generated numbers. You should prefer
a. bubble sort
b. quick sort
c. merge sort
d. heap sort
105. Which data structure is needed to convert infix notation to post fix notation
a. B-tee
b. Queue
c. Tree
d. Stack
106. The time required to search an element in a binary search tree having n elements is
a. O(1)
b. O(log2 n)
c. O(n)
d. O(n log2 n)
107. A binary tree T has n leaf nodes. The number of nodes of degree 2 in T is
a. log2 n
b. n-1
c. n
d. 2n
108. A tree, for which at every node the height of its left sub tree and right sub tree differ at most by one is a/an
a. Binary search tree
b. AVL tree
c. Complete binary tree
d. Threaded binary tree
109. Which of the following sorting algorithms does not have a worst case running time complexity of O(n2)?
a. Insertion sort
b. Merge sort
c. Quick sort
d. Bubble sort
110. Which of the following is not a correct statement
a. internal sorting is used if the number of items to be sorted is very large
b. External sorting is used if the number of items to be sorted is very large
c. External sorting needs auxiliary storage
d. Internal sorting needs auxiliary storage
111. There are 4 different algorithms A1,A2,A3,A4 to solve a given problem with the order log(n),log(log(n)),nlog(n),n/log(n) respectively. Which is the best algorithm?
a. A1
b. A2
c. A3
d. A4
112. Which of the following algorithms exhibits the unusual behavior that, minimum numbers of comparisons are needed if the list to be sorted is in the reverse order and maximum numbers of comparisons are needed if they are already in sorted order?
a. Heap tree
b. Radix sort
c. Binary insertion sort
d. Selection sort
113. You want to check whether a given set of items is sorted. Which of the following sorting methods will be the most efficient if it is already in sorted order?
a. bubble sort
b. selection sort
c. insertion sort
d. merge sort
114. The way a card game player arranges his cards as he picks them up one by one , is an example of
a. bubble sort
b. selection sort
c. insertion sort
d. merge sort
115. Which of the following sorting algorithm has the worst time complexity of nlog(n)?
a. Heap sort
b. Quick sort
c. Insertion sort
d. Selection sort
116. Which of the following sorting methods sorts a given set of items that is already in sorted order or in reverse sorted order with equal speed?
a. Heap sort
b. Quick sort
c. Insertion sort
d. Selection sort
117. Which of the following sorting methods will be the best if number of swapping done, is the only measure of efficiency?
a. bubble sort
b. insertion sort
c. selection sort
d. heap sort
118. As part of the maintenance work, you are entrusted with the work of rearranging the library books in a shelf in proper order, at the end of each day. The ideal choice will be
a. bubble sort
b. insertion sort
c. selection sort
d. heap sort
119. Sorting is not useful for
a. report generation
b. minimizing the storage needed
c. making searching easier and efficient
d. responding to queries easily
120. A machine took 200 sec to sort 200 names, using bubble sort. In 800 sec. it can approximately sort _ _ _ _ _ _ _ _ _ names
a. 400
b. 800
c. 750
d. 1600
121. A machine needs a minimum of 100 sec. to sort 1000 names by quick sort. The minimum time needed to sort 100 names will be approximately
a. 50.2 sec
b. 6.7 sec
c. 72.7 sec.
d. 11.2 sec.
122. A sorting method with _ _ _ _ _ _ _ _ is the most efficient method
a. O(log n)
b. O(n)
c. O(1)
d. O(n2)
123. Which of the following statement is false?
a. Optimal binary search construction can be performed efficiently using dynamic programming
b. Breadth-first search cannot be used to find connected components of a graph
c. Given the prefix and postfix walks of a binary tree, the binary cannot be uniquely reconstructed
d. Depth-first search can be used to find the connected components of a graph
124. The average successful search time for sequential search on 'n' items is
a. n/2
b. (n-1)/2
c. (n+1)/2
d. log(n)+1
125. A hash function f defined as f(key)=key mod 7, with linear probing, is used to insert the keys 37,38,72,48,98,1,56, into a table indexed from 0 to 6. What will be the location of key 11?
a. 3
b. 4
c. 5
d. 6
126. The order of the binary search algorithm is
a. n
b. n2
c. nlog(n)
d. log(n)
127. Linked lists are not suitable for implementing
a. insertion sort
b. binary search
c. radix sort
d. polynomial manipulation
128. Stack is useful for
a. radix sort
b. breadth first search
c. heap sort
d. depth first search
129. Which of the following algorithm design technique is used in the quick sort algorithm?
a. Dynamic programming
b. Backtracking
c. Divide and conquer
d. Greedy method
130. The average successful search time taken by binary search on a sorted order array of 10 items is
a. 2.6
b. 2.7
c. 2.8
d. 2.9
131. A 3-ary tree in which every internal node has exactly 3 children. The number of leaf nodes in such a tree with 6 internal nodes will be
a. 10
b. 17
c. 23
d. 13
132. Which of the following traversal techniques lists the nodes of a binary search tree in ascending order?
a. post-order
b. In-order
c. Pre-order
d. No-order
133. A general linear list is a list in which operations, such as retrievals, insertions, changes, and deletions can be done _ _ _ _ _ _ _ _ _
a. any where in the list
b. only at the beginning
c. only at the end
d. only at the middle
134. A(n) _ _ _ _ _ _ _ is a collection of elements and relationship Among them.
a. abstract data type
b. array
c. data structure
d. standard type
135. Data that consists of a single, non decomposable entity are known as _ _ _ _ _ _
a. atomic data
b. array
c. data structure
d. standard type
136. A binary tree has n leaf nodes. The number of nodes of degree 2 in this tree is
a. logn
b. n-1
c. n
d. 2n
137. A full binary tree with n leaf nodes contains
a. n nodes
b. log2 n nodes
c. 2n-1 nodes
d. 2n nodes
138. The number of binary trees with 3 nodes which when traversed in post-order gives the sequence A,B,C is
a. 3
b. 9
c. 7
d. 5
139. Which of the following need not be a binary tree?
a. Search tree
b. Heap
c. AVL-tree
d. B-tree
140. A binary tree in which every non-leaf node has non-empty left and right subtrees is called a strictly binary tree.Such a tree with 10 leaves
a. cannot be more than 19 nodes
b. has exactly 19 nodes
c. has exactly 17 nodes
d. can not have more than 17 nodes
141. Find the odd man out
a. binary tree
b. Avl tree
c. graph
d. queue
142. The depth of a complete binary tree with n nodes(log is to the base two)
a. log(n+1)-1
b. log(n)
c. log(n+1)+1
d. log(n)+1
143. The following is an example of a non-linear data structure
a. stack
b. queue
c. tree
d. linear list
144. If a graph is represented as a linked list, _ _ _ _ _ _ _ _ _ no.of list nodes are required
a. 1
b. 2
c. 3
d. 4
145. The number of possible binary trees with 4 nodes is
a. 12
b. 14
c. 13
d. 15
146. The number of possible binary trees with 3 nodes is
a. 12
b. 13
c. 5
d. 15
147. The number of possible ordered trees with 3 nodes A,B,C is
a. 16
b. 12
c. 6
d. 10
148. A tree is a _ _ _ _ _ data structure
a. non-recursive
b. recursive
c. linear
d. non-linear
149. A node that does not have any sub-tree is called a _ _ _ _ _ _ _
a. terminal node
b. root node
c. left node
d. right node
150. The number of edges in a regular graph of degree d and n vertices is
a. maximum of n, d
b. n+d
c. nd
d. nd/2
151. Which of the following algorithms solves the all pair shortest path problem?
a. Diskstra's algorithm
b. Floyd algorithm
c. Prim's algorithm
d. Warshall's algorithm
152. The minimum number of colors required to color a graph having n (n>3) vertices and 2 edges is
a. 4
b. 3
c. 2
d. 1
153. The maximum degree of any vertex in a simple graph with n vertices is
a. n
b. n-1
c. n+1
d. 2n-1
154. A graph G with n nodes is bipartite if it contains
a. n edges
b. a cycle of odd length
c. no cycle of odd length
d. n2 edges
155. A graph can be represented as an _ _ _ _ _ _
a. Linked list
b. Structure
c. Union
d. Queue
156. A graph can be represented as an _ _ _ _ _ _
a. Array
b. Structure
c. Union
d. Queue
157. The minimum number of edges in a connected cyclic on n vertices is
a. n-1
b. n
c. n+1
d. n+2
158. Which of he following is useful in traversing a given graph by breadth first search?
a. Stack
b. Set
c. List
d. Queue
159. Sparse matrices have
a. many zero entries
b. many non-zero entries
c. higher dimensions
d. lower dimensions
160. The maximum no.of edges in an undirected graph with out loops with n vertices is
a. n
b. n*(n-1)
c. n*(n-1)/2
d. n-1
161. Which of the following abstract data types can be used to represent a many to many relationship
a. tree
b. graph
c. queue
d. stack
162. In a directed graph without self loops with n verices , the maximum no.of edges is
a. n
b. n*(n-1)
c. n*(n-1)/2
d. n-1
163. An n vertex undirected graph with exactly n*(n-1)/2 edges is said to be
a. Complete graph
b. Un complete graph
c. Directed graph
d. Un directed graph
164. To create a node dynamically in a singly linked list _ _ function in C is used
a. malloc()
b. calloc()
c. alloc()
d. dealloc()
165. In an undirected graph, the sum of degrees of all the nodes
a. must be even
b. is thrice the number of edges
c. must be odd
d. need not be even
166. In an undirected graph, the sum of degrees of all the nodes
a. is thrice the number of edges
b. is twice the number of edges
c. must be odd
d. need not be even
167. _ _ _ function is used to in C to dynamically allocate space for more than one object
a. malloc()
b. calloc()
c. alloc()
d. dealloc()
168. _ _ _ function is used to in C to dynamically allocate space for one object
a. malloc()
b. calloc()
c. alloc()
d. dealloc()
169. If n=2, then the value of O(n log n) is
a. 2
b. 4
c. 8
d. 16
170. Calloc(m,n); is equivalent to
a. malloc(m*n,0);
b. memset(0,m*n);
c. ptr=malloc(m*n);memset(p,0,m*n)
d. ptr=malloc(m*n);strcpy(p,0)
171. If the sequence of operations push(1),push(2) ,pop, push(1),push(2),pop, pop, pop, push(2),pop, are performed on a stack, the sequence of popped out values are
a. 2,2,1,1,2
b. 2,2,1,2,2
c. 2,1,2,2,1
d. 2,1,2,2,2
172. return type of a realloc( ) function is
a. int
b. float
c. char
d. void
173. To delete an element from a queue we use the _ _ _ _ _ operation
a. pop
b. push
c. enqueue
d. dequeue
174. To add an element to a queue we use the _ _ _ _ _ operation
a. pop
b. push
c. enqueue
d. dequeue
175. Which of the memory function allocates a contiguous memory
a. malloc( )
b. calloc( )
c. release( )
d. free( )
176. Return type of a malloc( ) function is
a. int
b. float
c. char
d. void
177. A queue is a _ _ _ _ _ _ structure
a. first in-last out
b. lasting-first-out
c. first in-first out
d. last in-last out
178. A queue is a list in which insertion can be done _ _ _ _
a. any where in the list
b. only at the beginning
c. only at the end
d. only at the middle
179. A _ _ _ _ _ _ is a first in - last out(FIFO) data structure in which insertions are restricted to one end, called the rear, and deletions are restricted to another end ,called the front
a. Stack
b. queue
c. tree
d. binary tree
180. The pointer(s) in a queue points to
a. start of the queue
b. end of the queue
c. middle of the queue
d. both start and end of the queue
181. The disadvantage of the queue is
a. when the item is deleted, the space for that item is not claimed
b. when the item is deleted, the space for that item is claimed
c. a non destructive
d. increases the memory space
182. A queue is a list in which deletion can be done _ _ _ _
a. any where in the list
b. only at the beginning
c. only at the end
d. only at the middle
183. Read() operation in queue is
a. non-destructive
b. additive
c. push()
d. destructive
184. In which of the data structure, space for the item is not claimed ,when an item is deleted
a. queue
b. circular queue
c. stack
d. linked list
185. As the items from a queue get deleted, the space for item is not reclaimed in queue. This problem is solved by
a. circular queue
b. stack
c. linked list
d. doubly linked list
186. Which of the following operation is used to add an item in a queue
a. write()
b. read()
c. pop()
d. push()
187. _ _ _ _ no.of pointers are required to implement read and write operations in a queue
a. two
b. three
c. four
d. five
188. FIFO is
a. stack
b. queue
c. linked list
d. tree
189. Which of the following operation is used to an item in a queue
a. write()
b. read()
c. pop()
d. push()
190. The number of swapping needed to sort the numbers 8,22,7,9,31,19,5,13 in an ascending order, using bubble sort is
a. 11
b. 12
c. 13
d. 14
191. Given two sorted list of size 'm' and 'n' respectively. The number of comparisons needed by the merge sort algorithm will be
a. m x n
b. maximum of m,n
c. minimum of m,n
d. m+n-1
192. For merging two sorted lists of sizes m and n into a sorted list of size m+n, requires _ _ _ _ _ _ _ _ no.of comparisons
a. O(m)
b. O(n)
c. O(m+n)
d. O(log(m)+log(n))
193. The principle of locality justifies the use of
a. interrupts
b. DMA
c. polling
d. cache memory
194. The concatenation of two lists is to be performed in O(1) time. Which of the following implementations of a list could be used?
a. Singly linked list
b. Doubly linked list
c. Circularly doubly linked list
d. Array implementation of list
195. The initial condition of a queue is
a. front=rear=-1
b. front=rear
c. front=rear=n
d. front=rear=1
196. A sorting technique that guarantees , that records with the same primary key occurs in the same order in the sorted list as in the original unsorted list is said to be
a. stable
b. consistent
c. external
d. linear
197. The average number of comparisons performed by the merge sort algorithm , in merging two sorted lists of length 2 is
a. 8/3
b. 8/5
c. 11/7
d. 1/16
198. Merge sort uses
a. divide and conquer strategy
b. backtracking approach
c. heuristic approach
d. greedy approach
199. Queue can be used to implement
a. radix sort
b. quick sort
c. recursion
d. depth first search





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Charles Babbage 1791-1871

Charles Babbage  1791-1871

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Charles Babbage 1791-1871




Introduction
The calculating engines of English mathematician Charles Babbage (1791-1871) are among the most celebrated icons in the prehistory of computing. Babbage’s Difference Engine No.1 was the first successful automatic calculator and remains one of the finest examples of precision engineering of the time. Babbage is sometimes referred to as "father of computing." The Charles Babbage Foundation took his name to honor his intellectual contributions and their relation to modern computers


1. Born December 26, 1791 in Teignmouth, Devonshire UK, Died 1871, London; known to some as the “Father of Computing” for his contributions to the basic design of the computer through his Analytical machine. His previous Difference Engine was a special purpose device intended for the production of tables.
2. Charles Babbage developed the Analytical Engine project after an earlier computing project the difference engine that Babbage started in 1822.
3. The Difference Engine could solve polynomial equations using a numerical method called the “Method of Differences”. However the analytical engine was the first general computational device, with the ability to solve different types of equations.
4. In 1823, He was started work on the Difference Engine through finding from the British Government. It was the significant event in his life.
5. The parts of the Difference Engine that had seemed possible of completion in 1830 gathered dust in the Museum of King’s College. He was an amazing intelligence.
6. The inventions of Charles Babbage were the cowcatcher, dynamometer, standard railroad gauge, uniform postal rates, occulting lights for lighthouses, Greenwich time signals, heliograph ophthalmoscope. He also had an interest in cyphers and lock-picking, but abhorred street musicians.
7. Babbage investigated biblical miracles. ”In the course of his analysis”, wrote B.V.Bowden in Faster than Thought , “he made the assumption that the chance of a man rising from the dead is one in 10^12”. Miracles are not, as he wrote in Passages From the Life of a philosopher, “the breach of established laws, but…. Indicate the existence of far higher laws”.



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