Operating System (OS)
1. What is an operating system?
An
operating system is a program that acts as an intermediary between the user and
the computer hardware. The purpose of an OS is to provide a convenient
environment in which user can execute programs in a convenient and efficient
manner.
2.
What are the different operating systems?
1.
Batched operating systems
2.
Multi-programmed operating systems
3.
timesharing operating systems
4.
Distributed operating systems
5.
Real-time operating systems
3.
What are the basic functions of an operating system?
Operating
system controls and coordinates the use of the hardware among the various
applications programs for various uses. Operating system acts as resource
allocator and manager. Also operating system is control program which controls
the user programs to prevent errors and improper use of the computer. It is
especially concerned with the operation and control of I/O devices.
4.
What is kernel?
Kernel
is the core and essential part of computer operating system that provides basic
services for all parts of OS.
5.
What is difference between micro kernel and macro kernel?
Micro
kernel is a kernel which run services those are minimal for operating system
performance. In this kernel all other operations are performed by processor.
Macro
Kernel is a combination of micro and monolithic kernel. In monolithic kernel
all operating system code is in single executable image.
6.
What is dead lock?
Deadlock
is a situation or condition where the two processes are waiting for each other
to complete so that they can start. This result both the processes to hang.
7.
What is a process?
A
program in execution is called a process.
Processes
are of two types:
1. Operating system processes
2. User processes
8.
What are the states of a process?
1.
New
2. Running
3. Waiting
4. Ready
5. Terminated
9.
What is starvation and aging?
Starvation
is Resource management problem where a process does not get the resources it
needs for a long time because the resources are being allocated to other
processes.
Aging
is a technique to avoid starvation in a scheduling system.
10.
What is semaphore?
Semaphore
is a variable, whose status reports common resource, Semaphore is of two types
one is Binary semaphore and other is Counting semaphore.
11.
What is context switching?
Transferring
the control from one process to other process requires saving the state of the
old process and loading the saved state for new process. This task is known as
context switching.
12.
What is a thread?
A
thread is a program line under execution. Thread sometimes called a
light-weight process, is a basic unit of CPU utilization; it comprises a thread
id, a program counter, a register set, and a stack
13.
What is process synchronization?
A
situation, where several processes access and manipulate the same data
concurrently and the outcome of the execution depends on the particular order
in which the access takes place, is called race condition. To guard against the
race condition we need to ensure that only one process at a time can be
manipulating the same data. The technique we use for this is called process
synchronization.
14.
What is virtual memory?
Virtual
memory is hardware technique where the system appears to have more memory that
it actually does. This is done by time-sharing, the physical memory and storage
parts of the memory one disk when they are not actively being used.
15.
What is thrashing?
It
is a phenomenon in virtual memory schemes when the processor spends most of its
time swapping pages, rather than executing instructions. This is due to an
inordinate number of page faults.
16.
What is fragmentation? Tell about different types of fragmentation?
When
many of free blocks are too small to satisfy any request then fragmentation
occurs. External fragmentation and internal fragmentation are two types of
fragmentation. External Fragmentation happens when a dynamic memory allocation
algorithm allocates some memory and a small piece is left over that cannot be
effectively used. Internal fragmentation is the space wasted inside of
allocated memory blocks because of restriction on the allowed sizes of
allocated blocks.
17.
What are necessary conditions for dead lock?
1.
Mutual exclusion (where at least one resource is non-sharable)
2.
Hold and wait (where a process holds one resource and waits for other resource)
3.
No preemption (where the resources can’t be preempted)
4.
Circular wait (where p[i] is waiting for p[j] to release a resource. i= 1,2,…n
j=if
(i!=n) then i+1
else
1 )
18.
What is cache memory?
Cache
memory is random access memory (RAM) that a computer microprocessor can access
more quickly than it can access regular RAM. As the microprocessor processes
data, it looks first in the cache memory and if it finds the data there (from a
previous reading of data), it does not have to do the more time-consuming
reading of data from larger memory.
19.
What is logical and physical addresses space?
Logical
address space is virtual address space. Both these address space will be same
at compile time but differ at execution time.
20.
Differentiate between Complier and Interpreter?
An
interpreter reads one instruction at a time and carries out the actions implied
by that instruction. It does not perform any translation. But a compiler
translates the entire instructions
21.
What is Throughput, Turnaround time, waiting time and Response time?
Throughput
– number of processes that complete their execution per time unit
Turnaround
time – amount of time to execute a particular process
Waiting
time – amount of time a process has been waiting in the ready queue
Response
time – amount of time it takes from when a request was submitted until the
first response is produced, not output (for time-sharing environment)
22.
What is Memory-Management Unit (MMU)?
Hardware
device that maps virtual to physical address. In MMU scheme, the value in the
relocation register is added to every address generated by a user process at
the time it is sent to memory.
->The
user program deals with logical addresses; it never sees the real physical
addresses
23.
What is a Real-Time System?
A
real time process is a process that must respond to the events within a certain
time period. A real time operating system is an operating system that can run
real time processes successfully
24.
What is a trap and trapdoor?
Trapdoor
is a secret undocumented entry point into a program used to grant access
without normal methods of access authentication. A trap is a software
interrupt, usually the result of an error condition.
25.
When is a system in safe state?
The
set of dispatchable processes is in a safe state if there exists at least one
temporal order in which all processes can be run to completion without
resulting in a deadlock.
26.
Explain the concept of the Distributed systems?
Distributed
systems work in a network. They can share the network resources, communicate
with each other.
27.
What is cache-coherency?
In
a multiprocessor system there exist several caches each may containing a copy
of same variable A. Then a change in one cache should immediately be reflected
in all other caches this process of maintaining the same value of a data in all
the caches s called cache-coherency.
28.
What is a long term scheduler & short term schedulers?
Long
term schedulers are the job schedulers that select processes from the job queue
and load them into memory for execution. The short term schedulers are the CPU
schedulers that select a process from the ready queue and allocate the CPU to
one of them.
29.
Explain the meaning of mutex.
Mutex
is the short form for ‘Mutual Exclusion object’. A mutex allows multiple
threads for sharing the same resource. The resource can be file. A mutex with a
unique name is created at the time of starting a program. A mutex must be
locked from other threads, when any thread that needs the resource. When the
data is no longer used / needed, the mutex is set to unlock.
30.
What is cycle stealing?
We
encounter cycle stealing in the context of Direct Memory Access (DMA). Either
the DMA controller can use the data bus when the CPU does not need it, or it
may force the CPU to temporarily suspend operation. The latter technique is
called cycle stealing. Note that cycle stealing can be done only at specific
break points in an instruction cycle.
31.
What is Marshalling?
The
process of packaging and sending interface method parameters across thread or
process boundaries.
32.
What is a daemon?
Daemon
is a program that runs in the background without user’s interaction. A daemon
runs in a multitasking operating system like UNIX. A daemon is initiated and
controlled by special programs known as ‘processes’.
33.
What is pre-emptive and non-preemptive scheduling?
Preemptive
scheduling: The preemptive scheduling is prioritized. The highest priority
process should always be the process that is currently utilized.
Non-Preemptive
scheduling: When a process enters the state of running, the state of that
process is not deleted from the scheduler until it finishes its service time.
34.
What is busy waiting?
The
repeated execution of a loop of code while waiting for an event to occur is
called busy-waiting. The CPU is not engaged in any real productive activity
during this period, and the process does not progress toward completion.
35.
What is page cannibalizing?
Page
swapping or page replacements are called page cannibalizing.
36.
What is SMP?
To
achieve maximum efficiency and reliability a mode of operation known as
symmetric multiprocessing is used. In essence, with SMP any process or threads
can be assigned to any processor.
37.
What is process migration?
It
is the transfer of sufficient amount of the state of process from one machine
to the target machine.
38.
Difference between Primary storage and secondary storage?
Primary
memory is the main memory (Hard disk, RAM) where the operating system resides.
Secondary
memory can be external devices like CD, floppy magnetic discs etc. secondary
storage cannot be directly accessed by the CPU and is also external memory
storage.
Compaction
is a process in which the free space is collected in a large memory chunk to
make some space available for processes.
40.
What are residence monitors?
Early
operating systems were called residence monitors.
41.
What is dual-mode operation?
In
order to protect the operating systems and the system programs from the
malfunctioning programs the two mode operations were evolved
System mode
User mode.
42.
What is a device queue?
A
list of processes waiting for a particular I/O device is called device queue.
43.
What are the different types of Real-Time Scheduling?
Hard
real-time systems required to complete a critical task within a guaranteed
amount of time.
Soft real-time computing requires that critical processes receive priority over
less fortunate ones.
44.
What is relative path and absolute path?
Absolute
path-- Exact path from root directory.
Relative path-- Relative to the current path.
45.
What are the disadvantages of context switching?
Time
taken for switching from one process to other is pure over head. Because the
system does no useful work while switching. So one of the solutions is to go
for threading when ever possible.
46.
What is a data register and address register?
Data
registers - can be assigned to a variety of functions by the programmer. They
can be used with any machine instruction that performs operations on data.
Address registers - contain main memory addresses of data and instructions or
they contain a portion of the address that is used in the calculation of the
complete addresses.
47.
What is DRAM?
Dynamic
Ram stores the data in the form of Capacitance, and Static RAM stores the data
in Voltages.
48.
What are local and global page replacements?
Local
replacement means that an incoming page is brought in only to the relevant
process' address space. Global replacement policy allows any page frame from
any process to be replaced. The latter is applicable to variable partitions
model only.
49.
Explain the concept of the batched operating systems?
In
batched operating system the users gives their jobs to the operator who sorts
the programs according to their requirements and executes them. This is time
consuming but makes the CPU busy all the time.
50.
What is SCSI?
SCSI
- Small computer systems interface is a type of interface used for computer
components such as hard drives, optical drives, scanners and tape drives. It is
a competing technology to standard IDE (Integrated Drive Electronics).
51.When
is a system in safe state?
The
set of dispatchable processes is in a safe state if there exists at least one
temporal order in which all processes can be run to completion without
resulting in a deadlock.
52.
What is cycle stealing?
We
encounter cycle stealing in the context of Direct Memory Access (DMA). Either
the DMA controller can use the data bus when the CPU does not need it, or it
may force the CPU to temporarily suspend operation. The latter technique is
called cycle stealing. Note that cycle stealing can be done only at specific
break points in an instruction cycle.
53.
What is an idle thread?
The
special thread a dispatcher will execute when no ready thread is found.
54.
What is FtDisk?
It
is a fault tolerance disk driver for Windows NT.
55.What
is Dispatcher?
Dispatcher
module gives control of the CPU to the process selected by the short-term
scheduler; this involves: Switching context, Switching to user mode, Jumping to
the proper location in the user program to restart that program, dispatch
latency – time it takes for the dispatcher to stop one process and start
another running.
56.
When does the condition 'rendezvous' arise?
In
message passing, it is the condition in which, both, the sender and receiver
are blocked until the message is delivered.
57.
What is process spawning?
When
the OS at the explicit request of another process creates a process, this
action is called process spawning
58.
What are the reasons for process suspension?
1) swapping
2) interactive user request
3) timing
4) parent process request
59.
What are the sub-components of I/O manager in Windows NT?
1)
Network redirector/ Server
2) Cache manager.
3) File systems
4) Network driver
5) Device driver
60.
What is a drawback of MVT?
1) ability to support multiple processors
2) virtual storage
3) source level debugging
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