Internal Port Decoding b0-7 Register: Difference between revisions
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|Readable=Yes | |Readable=Yes | ||
|Writable=Yes | |Writable=Yes | ||
|ShortDesc=Enabling internal ports | |ShortDesc=Enabling internal ports decoding | ||
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All bits are set to 1 upon soft reset. | since core3.1.1: all bits are set to 1 when: soft reset and bit 31 is set OR hard reset and bit 31 is clear (otherwise content is kept intact). <del>All bits are set to 1 upon soft reset.</del> | ||
The internal port decoding enables always apply. | |||
When the expansion bus is on, the expansion port decoding (Next Registers $86-$89) enables are logically ANDed with the internal enables (Next Registers $82-$85). A zero bit indicates the internal device is disabled. | |||
If the expansion bus is on, this allows I/O cycles for disabled internal ports to propagate to the expansion bus, otherwise corresponding I/O cycles to the expansion bus are filtered. | |||
(note: Next registers with number higher than $7F are inaccessible from Copper code) | (note: Next registers with number higher than $7F are inaccessible from Copper code) | ||
Latest revision as of 18:38, 13 April 2020
| Next Register Number | $82 |
|---|---|
| Readable | Yes |
| Writable | Yes |
| Short Description | Enabling internal ports decoding |
| Bit | Description |
|---|---|
| 7 | Enabling IO:$xx37 (also MD2 controller) |
| 6 | Enabling IO:$xx1F (also MD1 controller) |
| 5 | Enabling IO:$xx6B |
| 4 | Enabling +3 floating bus |
| 3 | Enabling IO:$1FFD |
| 2 | Enabling IO:$DFFD |
| 1 | Enabling IO:$7FFD |
| 0 | Enabling IO:$xxFF |
since core3.1.1: all bits are set to 1 when: soft reset and bit 31 is set OR hard reset and bit 31 is clear (otherwise content is kept intact). All bits are set to 1 upon soft reset.
The internal port decoding enables always apply.
When the expansion bus is on, the expansion port decoding (Next Registers $86-$89) enables are logically ANDed with the internal enables (Next Registers $82-$85). A zero bit indicates the internal device is disabled.
If the expansion bus is on, this allows I/O cycles for disabled internal ports to propagate to the expansion bus, otherwise corresponding I/O cycles to the expansion bus are filtered.
(note: Next registers with number higher than $7F are inaccessible from Copper code)