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memory is referred to, using logical address in assembly langugage programming in 8086. is this feature common to all x86 chips including modern pentium microprocessors?

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All of the 16- and 32-bit x86 line (8086,8088, 80186, 80286, 80386, i486, Pentium, etc.) use some form of segment/offset addressing. Exactly what the segment refers to, however, changed dramatically from the 8086/88/186 lines to the 80286 onwards lines.

In the earlier chips, without virtual addressing, the segments referred to the upper 16 bits of a 20-bit memory address while the offset was a 16-bit offset from that. This meant that you had 1MB of directly addressable memory accessed through a set of very heavily-overlapping set of 64KB blocks.

The later "protected mode" chips switched this around greatly. Instead of a segment being merely the upper 16 bits of a physical address it is instead now an index into one of two lookup tables (the GDT or the LDT) which contain memory structures pointing to the base address, size limits, protection permissions, etc. of the segment. The offset works from that stored base address and is checked against the size limiters to ensure that you don't access memory outside of it, thus ensuring that overlapping addresses, if any, must be explicitly set up to be so instead of the implicit overlapping of the earlier chip sets. The 80286 still had segments limited to 64KB in size, but the 80386 and later got rid of that completely.

Segments are still used implicitly by the chip. Code is fetched from the CS segment (unless specifically indicated otherwise). Data is fetched from the DS segment (again unless specifically indicated otherwise). The ES is used for the destination in many operations (again unless... you know the drill). The stack is accessed via SS and so on. Many operating systems (perhaps even all?) on the 32-bit processors (post-80286), however, just have all the segments mapping to the same memory space, thus mimicking a flat address space layout. You could likely get away with never thinking about segments at all if you program for Windows NT or later, or if you program for Linux systems or the like.

The AMD64 instructions are different yet again and are basically a step toward the elimination of segments entirely. It's typically the paging system that's used for protection in that environment.

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It's too bad the lack of segment registers in the 8086 caused people to dislike scaled-segment addressing, since it was and remains a good idea; object-oriented applications needing between 4GB and 64GB of storage could be handled more efficiently using a combination of 32-bit scaled segment plus 32-bit offset, than using 64-bit linear pointers (if all objects are aligned to 16-byte boundaries, object references would only have to be 4 bytes rather than 8). With a little extra hardware, the "efficient addressing" range could be extended to a terabyte or more. –  supercat Jul 1 '13 at 18:49
From a pragmatic standpoint, aside from the lack of segment registers, the only problems were that (1) to achieve maximum advantage of a segmented architecture, objects begin on segment boundaries; when the 8086 came out, the space wasted by such rounding was considered objectionable; (2) it was hard to use individual logical objects over 64K. In today's world, rounding objects to 16 bytes wouldn't be a big loss, and having to subdivide things bigger than 4GB wouldn't be as much of a problem as was having to subdivide things bigger than 64K. –  supercat Jul 1 '13 at 18:52

Up through 32-bit protected mode, all addressing still uses the segment registers -- but in nearly every 32-bit OS, the four primary segment registers are set up with a base address of 0, and a limit of 4 gigabytes, so they're all basically a "pass-through". All address translation is done via the paging unit instead.

In 64-bit mode, most of the other options (that nobody uses anyway) are simply removed. Segments are still used to a limited degree (mostly to switch between 64-bit mode and compatibility mode) but that's about it.

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All 32-bit x86 machines support the full set of segment registers and accessing memory through them. amd64/Intel 64 chips still have limited support, but removed most of the segmentation functionality.

In protected mode, unlike in real mode, the segment registers are not simply scaled and added to the address, however; They are indexes into the GDT or LDT (Global or Local Descriptor table), which contain segment descriptors that describe both bases (start address) and size limits, as well as permission bits for segments. The address is checked to be less than the limit and added to the specified base, and the access is checked against the permission bits.

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