User:Lidnariq/Mapper thoughts: Difference between revisions
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* WRITES to $7xxx - latching CPU D0..D3: CHR bank '161 | * WRITES to $7xxx - latching CPU D0..D3: CHR bank '161 | ||
* $8000-$FFFF: PRG ROM or RAM, according to value at $7xxx. | * $8000-$FFFF: PRG ROM or RAM, according to value at $7xxx. | ||
== Easier nametables, finer palette zones == | |||
Replace standard PPU nametable/attribute table with just one nametable, 32x30 tiles in size, each tile is 16x16 and uses 8x1 palette zones. | |||
* using 32×30 allows us to reuse the scroll registers, rather than having fine X be magically somewhere else | |||
* Each pattern table is thus 72 bytes (256 pixels × (18 bits/8 pixels)). | |||
* Total memory for tiles in this manner: 18 KiB. | |||
== Pixel-perfect IRQs with clockslides == | |||
An interface to fire an IRQ at a specific X/Y coordinate that works by | |||
* firing the IRQ approximately 14cy too early | |||
* uses an injected clockslide to fix up any slop in initial IRQ firing time | |||
Since there's already 3 pixels of intrinsic slop, the two axes can be X/2 and Y. Y is ever-so-slightly larger than a byte, so setting (255=scanline before NMI) and not allowing interrupts during the first 6 scanlines of vblank is an ok compromise. | |||
== Fake sprite 0 IRQs == | |||
# IRQ when PPU address reads from a specific address, or | |||
# Snoop on CPU reads, monitoring for reads from $2002, and fire an IRQ | |||
Revision as of 04:33, 13 March 2015
EtherNES 1
A cartridge designed to provide ethernet in as simple a manner as practical, for use with Contiki. The design is intentionally similar to the 64NIC+ ethernet cartridge for the Commodore 64, even though the CS8900A is comparatively expensive.
Parts
- 1 × SST39SF010A, 128 KiB FLASH EEPROM, for booting
- 2 × AS6C1008, 128 KiB static RAM, one each for PRG RAM and CHR RAM
- 2 × 74'161, both set up to clear on reset.
- One selects a 32 KiB slice of PRG
- The other selects an 8 KiB slice of CHR RAM.
- 1 × 74'139
- 1 × 74'20
- One NAND4 produces /INTSEL=NAND3(M2,/ROMSEL,A14,A13) and one decoder produces /RD6xxx, /WR6xxx, /RD7xxx, and /WR7xxx.
- Other NAND4 produces /RD.
- 2nd decoder selects RAM or ROM as appropriate.
- CS8900A or LAN91C96 (or possibly RTL8029, but only the first two have already-in-tree ethernet drivers)
- Ethernet transformer
Memory map
- $6xxx - CS8900A
- http://www.cirrus.com/en/products/cs8900a.html
- As with the C64 NIC, it does not present the memory-mappable portion of the CS8900A
- CS8900A does not have a separate I/O enable, just /IOR and /IOW; address bus must be stable before these signals fall: Thus, /RD6xxx and /WR6xxx are connected to the CS8900A
- Why does the 64NIC+ not connect /IRQ ?
- Obviously no DMA support either. (Do we want to support OAM DMA from ethernet?)
- READS from $7xxx - latching CPU A0..A3: PRG bank '161 (0,1,2,3 = ROM; C,D,E,F=RAM). Q3 determines which IC. Cleared on hardware reset.
- WRITES to $7xxx - latching CPU D0..D3: CHR bank '161
- $8000-$FFFF: PRG ROM or RAM, according to value at $7xxx.
Easier nametables, finer palette zones
Replace standard PPU nametable/attribute table with just one nametable, 32x30 tiles in size, each tile is 16x16 and uses 8x1 palette zones.
- using 32×30 allows us to reuse the scroll registers, rather than having fine X be magically somewhere else
- Each pattern table is thus 72 bytes (256 pixels × (18 bits/8 pixels)).
- Total memory for tiles in this manner: 18 KiB.
Pixel-perfect IRQs with clockslides
An interface to fire an IRQ at a specific X/Y coordinate that works by
- firing the IRQ approximately 14cy too early
- uses an injected clockslide to fix up any slop in initial IRQ firing time
Since there's already 3 pixels of intrinsic slop, the two axes can be X/2 and Y. Y is ever-so-slightly larger than a byte, so setting (255=scanline before NMI) and not allowing interrupts during the first 6 scanlines of vblank is an ok compromise.
Fake sprite 0 IRQs
- IRQ when PPU address reads from a specific address, or
- Snoop on CPU reads, monitoring for reads from $2002, and fire an IRQ
