Segment: Difference between revisions
Jump to navigation
Jump to search
Navigation:
Main Page with Articles and Tutorials
Keyword Reference - Alphabetical
Keyword Reference - By usage
Report a broken link
No edit summary |
No edit summary |
||
(One intermediate revision by the same user not shown) | |||
Line 11: | Line 11: | ||
''Example:'' | ''Example:'' | ||
{{FixedStart}} | {{FixedStart}} | ||
Segment Address = F000{{ | Segment Address = F000{{Text|0 ← shifted left|red}} | ||
Offset Address = + FACE | Offset Address = + FACE | ||
------ | ------ | ||
Line 20: | Line 20: | ||
{{PageSeeAlso}} | |||
* [[DEF SEG]], [[DEF SEG = 0]] | * [[DEF SEG]], [[DEF SEG = 0]] | ||
* [[PEEK]], [[POKE]] | * [[PEEK]], [[POKE]] |
Latest revision as of 22:53, 11 February 2023
The memory segment is the hexadecimal byte address in relation to a segment register.
The value in a Segment register is multiplied by 16 or shifted one hexadecimal byte to the left(this adds an extra 0 to the end of the hex number). The value in the Offset register is added to it. So, the Absolute address for any combination of Segment and Offset is found using the formula:
- AbsoluteMemoryAddress = (Segment value * 16) + Offset value
Example:
Segment Address = F0000 ← shifted left
Offset Address = + FACE
------
FFACE or 1,047,246
|
The Offset value is the position of a value after the segment address. Many pairs can be used to refer to the same memory position.
See also