8086 is a 16bit processor.
8085 is a 8 bit microprocessor .
i think 64 bit
lots o bits
As it is 16bit processor it can manupulate 16 bits in one operation
32 Bits 4 Octets with 1 Byte each(8 Bits)
5 bits
I assume your speaking of the Intel 80286 and the 80386 computer processors. This series of processors are the reason we call "32-bit processor architecture" x86. Anyway, the importance of moving from 80286 to 80386 lies in the fact that the former could only execute 16-bit code, and the the latter supported 32-bit code. In layman terms, the 80286 could only natively calculate numbers up to 65,536-1 (65.536) without implementing advanced software to allow caclulations of numbers greater than that. The 80386, however, was capable of mathematically manipulating numbers up to 4,294,967,296-1 (or 4,294,967,295). This innovation allowed many programmers to write programs more easily without the need for them to implement extra functions to allow them to process large numbers. For this same reason, we now use 64-bit processors, and will eventually move on to 128-bit and 256-bit in the future, however, when this will happen is a matter of when hardware designers create and software programmers decide to support such a system.
How many bits are there in a data link layer ethernet address?
Comparison between micro processor Intel and Motorola
A 386SX processor has 16-bits and 386DX has 32-bits
The i7 is a 64 bit processor.
16
The 386SX is a 32 bit processor running on a 16 bit bus.
The 386DX is a 32 bit processor running on a 32 bit bus.
Yes, a processor 80532 will handle and has the ability to run 64-bits. A processor 80532 is considered to be a Pentium 4 processor.
As it is 16bit processor it can manupulate 16 bits in one operation
The iMac uses an Intel Core 2 Duo processor which is a 64 bit processor.
The DS's ARM9 processor is 32 bits. This is not a direct indication of its processing power, which is why it can play '64-bit' games.
The Wii U uses a 64-bit PowerPC processor. I think that's the answer to the question you were trying to ask. I'm a bit curious why anyone who isn't a programmer or electrical engineer would care about how many bits a processor "has".
Real mode is a term that was introduced for the 80286 and higher processors. It represents the default (power on) mode of an 80286 or higher processor, as opposed to one of the various protected modes. Real mode does not apply specifically to the 8086/8088. In the 80286 and above, real mode operates very much like the 8086/8088.