;ACME 0.94.4 !ifdef lib_cbm_c64_georam_a !eof lib_cbm_c64_georam_a = 1 ; This file contains definitions for accessing the "GeoRAM" RAM expansion and ; its clones (BBG, BBU, NeoRAM, ...) ; These units allow access to a single page of memory (256 bytes) visible at ; address $de00 in i/o space. Writing to registers allows to change which ; memory page is visible at that location. ; memory page georam_page = $de00 ; control registers (write-only, these registers can not be read) georam_track = $dffe ; 0..63, i.e. the lower six bits are significant georam_sector = $dfff ; 0..31, i.e. the lower five bits are significant ; these are the official addresses - actually the registers are accessible ; *everywhere* at $dfxx, but using these locations does not clash with the ; registers of a Commodore REU. ; Upgraded units and clones may have more memory, in those cases the registers ; will have more significant bits. ; I could have called the registers "row" and "column" instead of track and ; sector, but the fact that this device was designed with one six-bit register ; and one five-bit register (instead of one eight-bit register and one ; three-bit register) tells me that this was meant as an easily programmable ; RAM disk: A 1541 disk has 35 tracks with (at most) 21 sectors. Numbers in ; these ranges can be written to the GeoRAM registers without the need to ; shift bits around. ; Knowing this is a handy way of remembering the number of significant bits of ; GeoRAM registers.