To really explain the concept, we have to back up to the basic idea of segments, and how the x86 uses them (in real mode).
The 8086 has 20-bit addressing, but only 16-bit registers. To generate 20-bit addresses, it combines a segment with an offset. The segment has to be in a segment register (CS, DS, ES, or SS). You then generate an offset (as an immediate value, or the contents of another register or two.
So, to generate an address, a 16-bit segment register is shifted left four bits, and then a 16-bit offset in some other register is added to that, and the combined total is actually used as the address. Most instructions have a default segment attached to them --
pop and anything relative to
bp will use
ss. Jumps and such use
cs. Some of the string instructions
scans) and some use use two segments -- for example,
movsd copies data from
[es:di]. Most other instructions use
ds. You can also use segment overrides to explicitly specify an address like
In any case, before you can make any meaningful use of a segment register, you first have to load it with the (top 16 bits of) the address of the data you care about. A typical "small model" program will start with something like:
mov ax, @Data
mov ds, ax
In tiny model, you use the same segment for the data and the code. To make sure it's referring to the correct segment, you want to get the 16 bits from CS and copy it to DS. As a number of others have mentioned, there's no instruction to move CS directly to DS. The question mentions one possibility; another common one is: