RAMBO-1

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Revision as of 20:54, 6 December 2019 by Ben Boldt (talk | contribs) (→‎PRG Banks: Clarify, not initialized registers.)
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RAMBO-1
Company Tengen
Games 5 in NesCartDB
Complexity ASIC
Boards 800032
Pinout Tengen RAMBO-1 pinout
PRG ROM capacity 256K
PRG ROM window 3×8K + 8K fixed
PRG RAM capacity None
CHR capacity 256K
CHR window 1Kx8 or 2Kx2 + 1Kx4
Nametable mirroring H or V, switchable
Bus conflicts No
IRQ Yes
Audio No
iNES mappers 064, 158
NESCartDB
iNES 064
800032
For the mapper used in the game "Rambo", see UxROM.

The Tengen RAMBO-1 is an ASIC mapper, canonically designated as mapper 64. This mapper is basically Tengen's version of the MMC3, but with some extra features. The RAMBO-1 came as a 40-pin PDIP. A variant with different mirroring control is mapper 158.

Example games:

  • Klax
  • Skull and Crossbones
  • Shinobi
  • Rolling Thunder
  • Hard Drivin' (prototype)

Banks

  • CPU $8000-$9FFF: 8 KiB switchable PRG ROM bank
  • CPU $A000-$BFFF: 8 KiB switchable PRG ROM bank
  • CPU $C000-$DFFF: 8 KiB switchable PRG ROM bank
  • CPU $E000-$FFFF: 8 KiB PRG ROM bank, fixed to the last bank
  • PPU -- Three selectable configurations:
    1. 1 KiB switchable CHR banks at $0000, $0400, $0800, $0C00, $1000, $1400, $1800, $1C00
    2. 2 KiB switchable CHR banks at $0000, $0800; 1 KiB switchable CHR banks at $1000, $1400, $1800, $1C00
    3. 2 KiB switchable CHR banks at $1000, $1800; 1 KiB switchable CHR banks at $0000, $0400, $0800, $0C00

Registers

The RAMBO-1 has four pairs of registers at $8000-$9FFF, $A000-$BFFF, $C000-$DFFF, and $E000-$FFFF - even addresses ($8000, $8002, etc.) select the low register and odd addresses ($8001, $8003, etc.) select the high register in each pair.

Bank select ($8000-$9FFE, even)

7  bit  0
---- ----
CPKx RRRR
|||  ||||
|||  ++++- Specify which bank register to update on next write to Bank Data register
|||          0000: R0: Select 2 (K=0) or 1 (K=1) KiB CHR bank at PPU $0000 (or $1000)
|||          0001: R1: Select 2 (K=0) or 1 (K=1) KiB CHR bank at PPU $0800 (or $1800)
|||          0010: R2: Select 1 KiB CHR bank at PPU $1000-$13FF (or $0000-$03FF)
|||          0011: R3: Select 1 KiB CHR bank at PPU $1400-$17FF (or $0400-$07FF)
|||          0100: R4: Select 1 KiB CHR bank at PPU $1800-$1BFF (or $0800-$0BFF)
|||          0101: R5: Select 1 KiB CHR bank at PPU $1C00-$1FFF (or $0C00-$0FFF)
|||          0110: R6: Select 8 KiB PRG ROM bank at $8000-$9FFF (or $A000-$BFFF)
|||          0111: R7: Select 8 KiB PRG ROM bank at $A000-$BFFF (or $C000-$DFFF)
|||          1000: R8: If K=1, Select 1 KiB CHR bank at PPU $0400 (or $1400)
|||          1001: R9: If K=1, Select 1 KiB CHR bank at PPU $0C00 (or $1C00)
|||          1111: RF: Select 8 KiB PRG ROM bank at $C000-$DFFF (or $8000-$9FFF)
||+------- Full 1 KiB CHR bank mode  0: two 2 KiB banks at $0000-$0FFF (or $1000-$1FFF)
||                                   1: four 1 KiB banks at $0000-$0FFF (or $1000-$1FFF)
|+-------- PRG ROM bank mode  0: $8000-$9FFF uses bank selected with R6
|                                $A000-$BFFF uses bank selected with R7
|                                $C000-$DFFF uses bank selected with RF
|                             1: $8000-$9FFF uses bank selected with RF
|                                $A000-$BFFF uses bank selected with R6, Note: NOT R7
|                                $C000-$DFFF uses bank selected with R7, Note: NOT R6
+--------- CHR A12 inversion  0: two 2 KiB banks (or four 1 KiB banks) at $0000-$0FFF
                                 four 1 KiB banks at $1000-$1FFF
                              1: two 2 KiB banks (or four 1 KiB banks) at $1000-$1FFF
                                 four 1 KiB banks at $0000-$0FFF

In PRG ROM bank mode 1, the functions of registers 6 and 7 are backward compared to the corresponding mode of MMC3.

CHR Banks

When $8000 & $80 is $00 is $80
PPU Bank Value of RAMBO-1 register
$0000-$03FF R0 R2
$0400-$07FF K=0: R0
K=1: R8
R3
$0800-$0BFF R1 R4
$0C00-$0FFF K=0: R1
K=1: R9
R5
$1000-$13FF R2 R0
$1400-$17FF R3 K=0: R0
K=1: R8
$1800-$1BFF R4 R1
$1C00-$1FFF R5 K=0: R1
K=1: R9

With 2KiB banks (where K=0), only even-numbered CHR banks can be selected. The lowest bit in the register is ignored and instead passes PPU A10 directly through to CHR A10.

PRG Banks

Because the values in R6, R7, RF, and $8000 are unspecified at power on, the reset vector must point into $E000-$FFFF, and code must initialize these before jumping out of $E000-$FFFF.

When $8000 & $40 is $00 is $40
CPU Bank Value of RAMBO-1 register
$8000-$9FFF R6 RF
$A000-$BFFF R7 R6
$C000-$DFFF RF R7
$E000-$FFFF (-1) (-1)
  • (-1) : the last bank

Bank data ($8001-$9FFF, odd)

All eight bits are used for a new value for the bank based on last value written to Bank select register (as mentioned above)

Mirroring ($A000-$BFFE, even)

7  bit  0
---- ----
xxxx xxxM
        |
        +- Mirroring (0: vertical; 1: horizontal)

This applies to mapper 64 only (see Variants below).

Unknown ($A001-$BFFF, odd)

This register is either not implemented or has undiscovered functionality on RAMBO-1. The MMC3/MMC6 equivalent of this register controls external and internal PRG-RAM access. There is not presently any reason to believe that RAMBO-1 has any support for PRG-RAM.

IRQ registers

IRQ latch ($C000-$DFFE, even)

All eight bits of this register specifies the IRQ counter reload value. When the IRQ counter is zero (or a reload is requested through $C001), this value will be copied into the IRQ counter at the end of the current scanline.

IRQ mode select / reload ($C001-$DFFF, odd)

7  bit  0
---- ----
xxxx xxxM
        |
        +- IRQ mode select (0: Scanline Mode, 1: CPU Cycle Mode)

Writing to this register also clears the IRQ counter so that it will be reloaded at next clock, or the next scanline, depending on the selected mode. This also resets the prescaler in cycle mode, so the next clock will occur 4 cycles later.

IRQ acknowledge / disable ($E000-$FFFE, even)

Writing any value to this register will disable counter interrupts AND acknowledge any pending interrupts.

IRQ enable ($E001-$FFFF, odd)

Writing any value to this register will enable counter interrupts. Note that writing to this register does not acknowledge the IRQ if already set.

IRQ counter operation

There are two IRQ modes: PPU A12 mode (also known as scanline mode) and CPU cycle mode.

In scanline mode, the counter is clocked using a very similar method to that used by the MMC3 and follows the same restrictions. In comparison to the MMC3, the actual interrupt triggers slightly later. Specifically, it is delayed until M2 falls twice after the PPU A12 rise that would have triggered the MMC3 interrupt.

In CPU cycle mode, the counter is clocked every 4 CPU cycles. The actual interrupt triggers one M2 cycle later than one would naively expect.

Whichever IRQ mode is being used, the counter behaves the following way:

When the IRQ is clocked by scanline or CPU cycle modes:

  • IF $C001 was written to after previous clock:
    • reload IRQ counter with IRQ reload value; if non zero, this value is ORed with 1 (see notes).
  • ELSE IF IRQ counter is 0:
    • reload IRQ counter with IRQ reload value.
  • ELSE
    • Decrement IRQ counter by 1.
  • If IRQ counter is now 0 AND IRQs are enabled:
    • trigger IRQ after 4 CPU cycles.

Notes:

  • It's still unknown how the extra kick works. Klax still requires +1 to run perfectly.
  • Most emulators run Skull & Crossbones with a glitched scanline at the continue screen OR during the gameplay (scorebar).

Variants

Mapper 158, used for Alien Syndrome, has mirroring like mapper 118 (TLSROM), where CIRAM A10 is connected to CHR A17, and bit 7 of each CHR bank mapped into PPU $0000-$0FFF controls which page of CIRAM is used for the corresponding nametable in $2000-$2FFF.

See also