Difference between revisions of "Expansion Bus Decoding b8-15 Register"

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(core 3.0 changes/refresh)
 
(core 3.1.3 changes/refresh)
 
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All bits are set to 1 upon hard reset.
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since core3.1.1: all bits are set to 1 when: soft reset and bit 31 is clear OR hard reset and bit 31 is set (otherwise content is kept intact). <del>All bits are set to 1 upon hard reset.</del>
  
 
When the expansion bus is on, the expansion port decoding mask (Next Registers $86-$89) is logically ANDed with the internal enables (Next Registers $82-$85). A zero bit indicates the internal device is disabled.
 
When the expansion bus is on, the expansion port decoding mask (Next Registers $86-$89) is logically ANDed with the internal enables (Next Registers $82-$85). A zero bit indicates the internal device is disabled.

Latest revision as of 19:03, 13 April 2020

Number $87
Readable Yes
Writable Yes
Short Description When expansion bus is enabled: Internal ports decoding mask
Bit Description
7 (bit 15) Masking decoding: Layer 2 Access Port ($123B / 4667)
6 (bit 14) Masking decoding: Sprite Attribute Upload ($xx57 / 87), Sprite Pattern Upload ($xx5B / 91) and Sprite Status/Slot Select ($303B / 12347)
5 (bit 13) Masking decoding: Kempston Mouse Buttons ($FADF / 64223), Kempston Mouse X ($FBDF / 64479) and Kempston Mouse Y ($FFDF / 65503)
4 (bit 12) Masking decoding: UART TX ($133B / 4923), UART RX ($143B / 5179) and UART Control ($153B / 5435) (UART)
3 (bit 11) Masking decoding: ($xxE7) and ($xxEB) (SPI)
2 (bit 10) Masking decoding: I2C clock ($103B / 4155) and I2C data ($113B / 4411)
1 (bit 9) Masking decoding: Multiface (two variable ports)
0 (bit 8) Masking decoding: ($xxE3) (DivMMC control)

since core3.1.1: all bits are set to 1 when: soft reset and bit 31 is clear OR hard reset and bit 31 is set (otherwise content is kept intact). All bits are set to 1 upon hard reset.

When the expansion bus is on, the expansion port decoding mask (Next Registers $86-$89) is 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)