Could anyone please explain with examples difference between monolithic and micro kernel? Also other classifications of the kernel?

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Monolithic kernel is a single large process running entirely in a single address space. It is a single static binary file. All kernel services exist and execute in the kernel address space. The kernel can invoke functions directly. Examples of monolithic kernel based OSs: Unix, Linux.

In microkernels, the kernel is broken down into separate processes, known as servers. Some of the servers run in kernel space and some run in user-space. All servers are kept separate and run in different address spaces. Servers invoke "services" from each other by sending messages via IPC (Interprocess Communication). This separation has the advantage that if one server fails, other servers can still work efficiently. Examples of microkernel based OSs: Mac OS X and Windows NT.

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    both Mac OS X and Windows are hybrid kernel as in more closely related to a monolithic kernel. examples of micro kernels would be: Mach QNX AmigaOS Minix – zeitue Jun 16 '12 at 6:36
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    GNU Hurd is a great example of an OS running on a microkernel. It's still in active development and some popular Linux distros have a Hurd port (Debian/Hurd, Arch Hurd, etc). – beatgammit Feb 2 '13 at 3:18
  • Also, plan 9 – James M. Lay Aug 17 '16 at 20:48

1 ) Monolithic kernel is much older than Microkernel, the idea was conceived at the end of the 1980's.

2 ) Monolithic kernels are used in Unix and Linux. Microkernels are used in QNX, L4 and HURD. It was initially used in Mach (not Mac OS X) but later converted into a hybrid kernel. Even Minix is not a pure kernel because device drivers are compiled as part of the kernel .

3 ) Monolithic kernels are faster than microkernels. The first microkernel Mach was 50% slower than Monolithic kernel, while later version like L4 were only 2% or 4% slower than the Monolithic kernel .

4 ) Monolithic kernels generally are bulky. A pure Microkernel has to be small in size, to fit into the processor's L1 cache (first generation microkernel).

5) In Monolithic kernels, the device drivers reside in the kernel space while in the Microkernel the device drivers reside in the user space.

6 ) Since the device driver resides in the kernel space, it makes monolithic kernel less secure than microkernel, and failure in the driver may lead to crash. Microkernels are more secure than the monolithic kernel, hence used in some military devices.

7 ) Monolithic kernels use signals and sockets to ensure IPC, microkernel approach uses message queues. 1st gen microkernels poorly implemented IPC so were slow on context switches.

8 ) Adding a new feature to a monolithic system means recompiling the whole kernel, whereas with microkernels you can add new features or patches without recompiling.

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    by mentioning MINIX which version do you mean? 3rd version have separated device drivers and file system from the kernel. – orustammanapov Mar 4 '13 at 14:13
  • About 8. Does that mean that when you install a program in Linux the whole kernel binary is recompiled? Also where is this kernel binary? Thanks. – Nik-Lz Jun 22 '17 at 0:38

Monolithic kernel

All the parts of a kernel like the Scheduler, File System, Memory Management, Networking Stacks, Device Drivers, etc., are maintained in one unit within the kernel in Monolithic Kernel

Advantages

•Faster processing

Disadvantages

•Crash Insecure •Porting Inflexibility •Kernel Size explosion

Examples •MS-DOS, Unix, Linux

Micro kernel

Only the very important parts like IPC(Inter process Communication), basic scheduler, basic memory handling, basic I/O primitives etc., are put into the kernel. Communication happen via message passing. Others are maintained as server processes in User Space

Advantages

•Crash Resistant, Portable, Smaller Size

Disadvantages

•Slower Processing due to additional Message Passing

Examples •Windows NT

1.Monolithic Kernel (Pure Monolithic) :all

  • All Kernel Services From single component

    (-) addition/removal is not possible, less/Zero flexible

    (+) inter Component Communication is better

e.g. :- Traditional Unix

2.Micro Kernel :few

  • few services(Memory management ,CPU management,IPC etc) from core kernel, other services(File management,I/O management. etc.) from different layers/component

  • Split Approach [Some services is in privileged(kernel) mode and some are in Normal(user) mode]

    (+)flexible for changes/up-gradations

    (-)communication overhead

e.g.:- QNX etc.

3.Modular kernel(Modular Monolithic) :most

  • Combination of Micro and Monolithic kernel

  • Collection of Modules -- modules can be --> Static + Dynamic

  • Drivers come in the form of Modules

e.g. :- Linux Modern OS

Monolithic kernel has all kernel services along with kernel core part, thus are heavy and has negative impact on speed and performance. On the other hand micro kernel is lightweight causing increase in performance and speed.
I answered same question at wordpress site. For the difference between monolithic, microkernel and exokernel in tabular form, you can visit here

In the spectrum of kernel designs the two extreme points are monolithic kernels and microkernels.

The (classical) Linux kernel for instance is a monolithic kernel (and so is every commercial OS to date as well - though they might claim otherwise);

In that its code is a single C file giving rise to a single process that implements all of the above services.
To exemplify the encapsulation of the Linux kernel we remark that the Linux kernel does not even have access to any of the standard C libraries. Indeed the Linux kernel cannot use rudimentary C library functions such as printf. Instead it implements its own printing function (called prints).

This seclusion of the Linux kernel and self-containment provide Linux kernel with its main advantage: the kernel resides in a single address space1 enabling all features to communicate in the fastest way possible without resorting to any type of message passing. In particular, a monolithic kernel implements all of the device drivers of the system.

This however is the main drawback of a monolithic kernel: introduction of any new unsupported hardware requires a rewrite of the kernel (in the relevant parts), recompilation of it, and re-installing the entire OS.
More importantly, if any device driver crashes the entire kernel suffers as a result. This un-modular approach to hardware additions and hardware crashes is the main argument for supporting the other extreme design approach for kernels. A microkernel is in a sense a minimalistic kernel that houses only the very basic of OS services (like process management and file system management). In a microkernel the device drivers lie outside of the kernel allowing for addition and removal of device drivers while the OS is running and require no alternations of the kernel.

protected by Community Dec 9 '15 at 13:15

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