Difference between revisions of "Memory map"

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(Z80 Visible Memory map)
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== Layer 2 Switching ==
 
== Layer 2 Switching ==
Layer 2 switching can allow any 16k-bank to be ''written to'' (but not read) in Slot 1, by writing the 16k-bank number to {{NextRegNo:$12}} and then enabling Layer 2 paging by writing a value with the LSB set to {{PortNo:$123B}}.
+
Layer 2 switching can allow any 16k-bank to be ''written to'' (but not read) in Slot 1, by writing the 16k-bank number to {{NextRegNo|$12}} and then enabling Layer 2 paging by writing a value with the LSB set to {{PortNo|$123B}}.
  
 
Writing to this area will then write the appropriate area of memory, whereas ''reading'' from it will give the area mapped by other memory management.
 
Writing to this area will then write the appropriate area of memory, whereas ''reading'' from it will give the area mapped by other memory management.
  
 
== Next Memory Management ==
 
== Next Memory Management ==
The 8k-bank accessed in a slot is selected by writing the 8k-bank number to the bottom 7 bits of the 8 Next registers from {{NextRegNo:$50}} upwards. $50 addresses 8k-slot 0, $51 addresses 8k-slot 1, and so on.
+
The 8k-bank accessed in a slot is selected by writing the 8k-bank number to the bottom 7 bits of the 8 Next registers from {{NextRegNo|$50}} upwards. $50 addresses 8k-slot 0, $51 addresses 8k-slot 1, and so on.
  
 
In addition, in Slots 1 and 2 only, the ROM can be paged in by writing $FF to the page.  
 
In addition, in Slots 1 and 2 only, the ROM can be paged in by writing $FF to the page.  

Revision as of 19:01, 24 September 2017

The Next supports two memory management models which operate in tandem. One is a unique memory management system for the Next. The other is an expanded version of the memory manager from the original Spectrum 128 and +2/+3 series.

Global Memory Map

The total available RAM space of the Next is 512k on an unexpanded Next, or 1536k - 1.5mb - on a Next expanded to 2Mb. (The base Next has 1mb of memory but 512k of it is reserved for the ROMs and firmware.)

The Z80 processor in the next can access only 16k of memory at a time, and so the memory is divided into banks which are used in determining which memory it sees. Spectrum 128k memory management uses 16k banks. Next memory management uses 8k banks.

16k-bank 8k-bank True Address Description
- - $000000-$00ffff ZX Spectrum ROM
- - $010000-$013fff EsxDOS ROM
- - $014000-$017fff Multiface ROM
- - $018000-$01bfff Multiface Extra ROM
- - $01c000-$01ffff Multiface RAM
- - $020000-$05ffff DivMMC RAM
0 0-1 $060000-$063fff Standard RAM, may be used by EsxDOS
1 2-3 $064000-$067fff Standard RAM, contended on 128, may be used by EsxDOS
2 4-5 $068000-$06afff Standard RAM
3 6-7 $06b000-$06ffff Standard RAM, contended on 128, may be used by EsxDOS
4 8-9 $070000-$073fff Standard RAM, contended on +2/+3
5 10-11 $074000-$077fff ULA Screen, contended except on Pentagon
6 12-13 $078000-$07afff Standard RAM, contended on +2/+3
7 14-15 $07b000-$07ffff ULA Shadow Screen, contended except on Pentagon
8 16-17 $080000-$083fff Next RAM, Default Layer 2
9-10 18-21 $084000-$08afff Next RAM
11 22-23 $08b000-$08ffff Next RAM, Default Layer 2 Shadow Screen
12-39 24-79 $090000-$0fffff Next RAM
40-63 80-127 $100000-$15ffff 2Mb Expanded Next RAM (accessible via 128 memory management)
-- 128-207 $160000-$1ffffff 2Mb Expanded Next RAM (accessible via Next management only)

Z80 Visible Memory map

At start up, the 16-bit address space of the Z80 is mapped to memory as follows:

Area 16k-slot 8k-slot Default 16k-bank Default 8k-bank Description
$0000-$1fff 1 1 ROM ROM (255) Normally ROM. Writes mappable by layer 2. IRQ and NMI routines here.
$2000-$3fff 2 ROM (255) Normally ROM. Writes mapped by Layer 2.
$4000-$5fff 2 3 5 10 Normally used for normal/shadow ULA screen.
$6000-$7fff 4 11 Normally used for normal/shadow ULA screen.
$8000-$9fff 3 5 2 4 Free RAM.
$a000-$bfff 6 5 Free RAM.
$c000-$dfff 4 7 0 0 Free RAM. Only this area is remappable by 128 memory management.
$e000-$ffff 8 1 Free RAM. Only this area is remappable by 128 memory management.

128-style memory management

128-style memory management can only alter the bank addressed at $c000 (slot 4 in 128 terms, slot 7-8 in Next terms). The active bank at $c000 is selected by writing the 3 LSBs of the 16k-bank number to the bottom 3 bits of Memory Paging Control ($7FFD / 32765), and the 3 MSBs to the bottom 3 bits of Next Memory Bank Select ($DFFD / 57341). (The reason for the division is that the original Spectrum 128, having only 128k of memory, only needed 3 bits.)

On an unexpanded Next, this allows any 16k-bank to be paged in at $c000. On an expanded next, there are not enough bits available to access the banks at the bottom of the expanded memory, so Next memory management must be used to access these.

If you are using the standard interrupt handler or OS routines, then any time you write to Memory Paging Control ($7FFD / 32765) you should also store the value at $5B5C. Any time you write to Plus 3 Memory Paging Control ($1FFD / 8189) you should also store the value at $5B67. There is no corresponding system variable for the Next-only Next Memory Bank Select ($DFFD / 57341) and standard OS routines may not support the extended banks properly.

128 Special Paging Mode

"Special paging mode" (also called "AllRam mode" or "CP/M mode") is enabled by writing a value with the LSB set to Plus 3 Memory Paging Control ($1FFD / 8189). Depending on the 3 low bits of this value a memory configuration is selected as follows:

Bits Slot 1 Slot 2 Slot 3 Slot 4
%001 0 1 2 3
%011 4 5 6 7
%101 4 5 6 3
%111 4 7 6 3

Layer 2 Switching

Layer 2 switching can allow any 16k-bank to be written to (but not read) in Slot 1, by writing the 16k-bank number to Layer 2 RAM Page Register ($12) and then enabling Layer 2 paging by writing a value with the LSB set to Layer 2 Access Port ($123B / 4667).

Writing to this area will then write the appropriate area of memory, whereas reading from it will give the area mapped by other memory management.

Next Memory Management

The 8k-bank accessed in a slot is selected by writing the 8k-bank number to the bottom 7 bits of the 8 Next registers from Memory management slot 0 bank ($50) upwards. $50 addresses 8k-slot 0, $51 addresses 8k-slot 1, and so on.

In addition, in Slots 1 and 2 only, the ROM can be paged in by writing $FF to the page.

ROM paging and selection

$0000-$3fff is usually mapped to ROM. This area can only be fully remapped using Next memory management. ROM is not considered one of the numbered banks; it is mapped to the two 8k-banks by default, or by setting their 8k-bank numbers to 255.

The 128k Spectrum has 2 ROM pages. Which of these is mapped is selected by altering Bit 4 of Memory Paging Control ($7FFD / 32765). The +2a/+3 has 4 ROM pages; the extra bit needed to select between these is bit 2 of Plus 3 Memory Paging Control ($1FFD / 8189). This maintains compatibility with the original machines' ROM paging as long as the ROM is not paged out.

Paging out ROM

ROM can be paged out by enabling AllRam mode, or by using Next memory management. Beware that some programs may assume that they can find ROM service routines at fixed addresses between $0000-$3fff. More importantly, if the default interrupt mode (IM 1) is set, the Z80 will jump the program counter to $0038 every frame expecting to find an interrupt handler there. If it does not, pain and suffering will likely result. DI is your friend. On the plus side, this does allow you to write your own interrupt handler without the nuisance of using IM 2.

Activating Layer 2's paging will not affect ROM operation, because it only remaps writes, not reads.

Screen

16k-Bank 5 is the bank read by the ULA to determine what to show on screen. The ULA connects directly to the larger memory space ignoring mapping; the screen is always 16k-Bank 5, no matter where in memory it is (or if it is switched in at all). Setting bit 3 of Memory Paging Control ($7FFD / 32765) will have the ULA read from 16k-bank 7 (the "shadow screen") instead, which can be used as an alternate screen. Beware that this does not map 16k-bank 7 into RAM; to alter 16k-bank 7 it must be mapped by other means.