MMIO registers

This page covers 5A22, APU, and WRAM memory-mapped registers.

For PPU-related MMIO registers, see PPU registers.
For DMA-related MMIO registers, see DMA registers.

5A22, APU, and WRAM register summary
Name	Address	Bits	Type	Notes
APUIO0 APUIO1 APUIO2 APUIO3	$2140 $2141 $2142 $2143	`DDDD DDDD`	RW8	Data to/from APU.
WMDATA	$2180	`DDDD DDDD`	RW8	Data to/from S-WRAM. Increments WMADD.
WMADDL WMADDM WMADDH	$2181 $2182 $2183	`LLLL LLLL MMMM MMMM .... ...H`	W24	S-WRAM address for WMDATA access.
JOYOUT	$4016	`.... ...D`	W8	Output to joypads. Latches standard controllers.
JOYSER0	$4016	`.... ..DD`	R8	Input from joypad 1.
JOYSER1	$4017	`...1 11DD`	R8	Always 1 (1), Input from joypad 2 (D).
NMITIMEN	$4200	`N.VH ...J`	W8	Vblank NMI enable (N), Timer IRQ mode (VH), Joypad auto-read enable (J).
WRIO	$4201	`21DD DDDD`	W8	Joypad port 2 I/O (2), Joypad port 1 I/O (1), Unused I/O (D).
WRMPYA	$4202	`DDDD DDDD`	W8	Unsigned multiplication factor A.
WRMPYB	$4203	`DDDD DDDD`	W8	Unsigned multiplication factor B. Starts 8-cycle multiplication.
WRDIVL WRDIVH	$4204 $4205	`LLLL LLLL HHHH HHHH`	W16	Unsigned dividend.
WRDIVB	$4206	`DDDD DDDD`	W8	Unsigned divisor. Starts 16-cycle division.
HTIMEL HTIMEH	$4207 $4208	`.... ...H LLLL LLLL`	W16	H counter target for timer IRQ.
VTIMEL VTIMEH	$4209 $420A	`.... ...H LLLL LLLL`	W16	V counter target for timer IRQ.
MEMSEL	$420D	`F... ....`	W8	FastROM enable (F).
RDNMI	$4210	`N... VVVV`	R8	Vblank NMI flag (N), CPU version (V).
TIMEUP	$4211	`T... ....`	R8	Timer IRQ flag (T).
HVBJOY	$4212	`VH.. ...J`	R8	Vblank flag (V), Hblank flag (H), Joypad auto-read in-progress flag (J).
RDIO	$4213	`21DD DDDD`	R8	Joypad port 2 I/O (2), Joypad port 1 I/O (1), Unused I/O (D).
RDDIVL RDDIVH	$4214 $4215	`LLLL LLLL HHHH HHHH`	R16	Unsigned quotient.
RDMPYL RDMPYH	$4216 $4217	`LLLL LLLL HHHH HHHH`	R16	Unsigned product or unsigned remainder.
JOY1L JOY1H JOY2L JOY2H JOY3L JOY3H JOY4L JOY4H	$4218 $4219 $421A $421B $421C $421D $421E $421F	`LLLL LLLL HHHH HHHH`	R16	16-bit joypad auto-read result (first read high to last read low).

Register types:

R - Readable
W - Writeable
8 - 8-bit access only
16 - 8-bit access to either address, or 16-bit access to the lower address.
24 - 8-bit or 16-bit access to 3 registers.

Interrupts

NMITIMEN - Interrupts and Joypad reading ($4200 write)

7  bit  0
---- ----
N.VH ...J
| ||    |
| ||    +- Joypad auto-read enable
| ++------ H/V timer IRQ:
|           00 = Disable timer
|           01 = IRQ when H counter == HTIME
|           10 = IRQ when V counter == VTIME and H counter == 0
|           11 = IRQ when V counter == VTIME and H counter == HTIME
+--------- Vblank NMI enable

On power-on: NMITIMEN = $00
On reset:    NMITIMEN = $00

TODO: Details on the exact conditions for an NMI or IRQ.
Auto-read runs at the beginning of vblank and is equivalent to writing 1 and then 0 to JOYOUT (to latch a standard controller) and then reading JOYSER0 and JOYSER1 16 times each. The controllers are then left in this state so that additional reads can be done manually from JOYSER0 and JOYSER1 to get any additional data, though this is unnecessary for standard controllers. Auto-read takes approximately 3 scanlines, during which the JOYOUT, JOYSER0, and JOYSER1 registers should not be manually accessed. The resulting data can be read from the JOY1-4 registers.

Screen timer values

HTIMEL, HTIMEH - H timer target ($4207, $4208 write)

  HTIMEH      HTIMEL
  $4208       $4207
7  bit  0   7  bit  0
---- ----   ---- ----
.... ...H   LLLL LLLL
        |   |||| ||||
        +---++++-++++- H counter target for timer IRQ

On power-on: HTIME = $1FF

Note that setting a value larger than the maximum H counter value of 339 will prevent the timer's H condition from being met.

VTIMEL, VTIMEH - V timer target ($4209, $420A write)

  VTIMEH      VTIMEL
  $420A       $4209
7  bit  0   7  bit  0
---- ----   ---- ----
.... ...H   LLLL LLLL
        |   |||| ||||
        +---++++-++++- V counter target for timer IRQ

On power-on: VTIME = $1FF

Note that setting a value larger than the maximum V counter value will prevent the timer's V condition from being met. The maximum depends on the region (261 for NTSC, 311 for PAL) and interlacing (1 additional scanline every other frame).

Status

RDNMI - Vblank flag and CPU version ($4210 read)

7  bit  0
---- ----
Nxxx VVVV
|||| ||||
|||| ++++- CPU version
|+++------ (Open bus)
+--------- Vblank flag

On power-on: RDNMI = RDNMI & $7F
On reset:    RDNMI = RDNMI & $7F
On read:     RDNMI = RDNMI & $7F

The vblank flag is set at the start of vblank and cleared at the end of vblank or on read.

TIMEUP - Timer flag ($4211 read)

7  bit  0
---- ----
Txxx xxxx
|||| ||||
|+++-++++- (Open bus)
+--------- Timer flag

On power-on: TIMEUP = TIMEUP & $7F
On reset:    TIMEUP = TIMEUP & $7F
On read:     TIMEUP = TIMEUP & $7F

The timer flag is set when the timer condition specified in NMITIMEN becomes true and is cleared on read.

HVBJOY - Screen and Joypad status ($4212 read)

7  bit  0
---- ----
VHxx xxxJ
|||| ||||
|||| |||+- Joypad auto-read in-progress flag
||++-+++-- (Open bus)
|+-------- Hblank flag
+--------- Vblank flag

APU

APUIOn - Data-to-APU register n ($214n write) (n = 0..3)

7  bit  0
---- ----
DDDD DDDD
|||| ||||
++++-++++- Data to APU

APUIOn - Data-from-APU register n ($214n read) (n = 0..3)

7  bit  0
---- ----
DDDD DDDD
|||| ||||
++++-++++- Data from APU

When the SPC700 reads from $F4+n in its address space, it receives the last value written to APUIOn. When APUIOn is read, the value received is the last one written by the SPC700 to $F4+n. If APUIOn is read while its corresponding $F4+n register is being written, the value read will be the bitwise OR of the old and new values.

These registers are mirrored across $2140-217F.

WRAM

WMDATA - S-WRAM data access ($2180 read/write)

7  bit  0
---- ----
DDDD DDDD
|||| ||||
++++-++++- S-WRAM data

On write: [WMADD] = value
          WMADD = WMADD + 1

This register's presence on the peripheral bus allows DMA between S-WRAM and another, different source. Because DMA simultaneously accesses the source and destination, S-WRAM cannot succesfully be both because it cannot simultaneously read from and write to itself. DMA from S-WRAM to this register has no effect, and DMA from this register to S-WRAM writes open bus. In both cases, the address is not incremented.

WMADDL, WMADDM, WMADDH - S-WRAM address ($2181, $2182, $2183 write)

  WMADDH      WMADDM      WMADDL
  $2183       $2182       $2181
7  bit  0   7  bit  0   7  bit  0
---- ----   ---- ----   ---- ----
.... ...H   MMMM MMMM   LLLL LLLL
        |   |||| ||||   |||| ||||
        +---++++-++++---++++-++++- S-WRAM address for WMDATA

DMA from S-WRAM to these registers has no effect.

ROM

MEMSEL - ROM access speed ($420D write)

 7  bit  0
 ---- ----
 .... ...F
         |
         +- FastROM enable

On power-on: MEMSEL = $00

If enabled, ROM access to banks $80-FF takes only 6 system clock cycles instead of 8.

Joypads

Joypad NES-style interface

JOYOUT - Joypad output ($4016 write)

7  bit  0
---- ----
.... .210
      |||
      ||+- OUT0
      ++-- OUT2-1 (not connected)

OUT0 is used by standard controllers to latch the current button state. OUT2-1 are not connected in standard consoles, but may be used in the Super Famicom Box hotel system.

JOYSER0 - Joypad serial data port 1 ($4016 read)

7  bit  0
---- ----
xxxx xxDD
|||| ||||
|||| ||++- Joypad port 1 data 2-1
++++-++--- (Open bus)

On read: Joypad port 1 is clocked (via joypad 1 /OE)

JOYSER1 - Joypad serial data port 2 ($4017 read)

7  bit  0
---- ----
xxx1 11DD
|||| ||||
|||| ||++- Joypad port 2 data 2-1
|||+-++--- Joypad 2 D4-2 (always 1)
+++------- (Open bus)

On read: Joypad port 2 is clocked (via joypad 2 /OE)

The CPU has 5 joypad 2 inputs. Joypad port 2's data 2 and 1 pins connect to D1-0, while D4-2 are tied to ground (and thus read as 1).

Joypad I/O interface

WRIO - Write I/O ($4201 write)

7  bit  0
---- ----
21DD DDDD
|||| ||||
||++-++++- CPU I/O D5-0 (not connected)
|+-------- Joypad port 1 I/O
+--------- Joypad port 2 I/O, and
           PPU /EXTLATCH light pen input

On power-on: WRIO = $FF

RDIO - Read I/O ($4213 read)

7  bit  0
---- ----
21DD DDDD
|||| ||||
||++-++++- CPU I/O D5-0 (not connected)
|+-------- Joypad port 1 I/O
+--------- Joypad port 2 I/O

The I/O pins allow bidirectional communication between the CPU and joypads on a single wire per bit. Either side is able to set the bits to 0, so to read the value being sent by the other side, the reader must set its own corresponding bits to 1 before reading.

The not-connected D5-0 bits can be used as general-purpose storage on standard consoles, but are used in the Super Famicom Box hotel system to communicate with its HD64180 CPU.

Joypad port 2's I/O bit is also connected to the PPU's /EXTLATCH input, allowing the PPU's H and V counters to be latched when this bit is set to 0 by the CPU or joypad. This is intended to support a light pen or gun device. This should normally be set to 1 by the CPU to allow the counters to be latched. (See PPU registers)

Auto-read results

JOY1L, JOY1H - Joypad port 1 data 1 ($4218, $4219 read)

  JOY1H       JOY1L
  $4219       $4218
7  bit  0   7  bit  0
---- ----   ---- ----
HHHH HHHH   LLLL LLLL
|||| ||||   |||| ||||
++++-++++---++++-++++- Joypad port 1 data 1 (first read on left to last read on right)

JOY2L, JOY2H - Joypad port 2 data 1 ($421A, $421B read)

  JOY2H       JOY2L
  $421B       $421A
7  bit  0   7  bit  0
---- ----   ---- ----
HHHH HHHH   LLLL LLLL
|||| ||||   |||| ||||
++++-++++---++++-++++- Joypad port 2 data 1 (first read on left to last read on right)

JOY3L, JOY3H - Joypad port 1 data 2 ($421C, $421D read)

  JOY3H       JOY3L
  $421D       $421C
7  bit  0   7  bit  0
---- ----   ---- ----
HHHH HHHH   LLLL LLLL
|||| ||||   |||| ||||
++++-++++---++++-++++- Joypad port 1 data 2 (first read on left to last read on right)

JOY4L, JOY4H - Joypad port 2 data 2 ($421E, $421F read)

  JOY4H       JOY4L
  $421F       $421E
7  bit  0   7  bit  0
---- ----   ---- ----
HHHH HHHH   LLLL LLLL
|||| ||||   |||| ||||
++++-++++---++++-++++- Joypad port 2 data 2 (first read on left to last read on right)

Math

Multiplication

WRMPYA - Multiplication factor A ($4202 write)

7  bit  0
---- ----
DDDD DDDD
|||| ||||
++++-++++- Multiplication factor (8-bit unsigned)

On power-on: WRMPYA = $FF

WRMPYB - Multiplication factor B ($4203 write)

7  bit  0
---- ----
DDDD DDDD
|||| ||||
++++-++++- Multiplication factor (8-bit unsigned)

On write: Begins multiplication process

The multiplication process takes up to 8 cycles and the result is written to RDMPY as it goes. See 5A22 Multiplication for more information.

Division

WRDIVL, WRDIVH - Dividend ($4204, $4205 write)

  WRDIVH      WRDIVL
  $4205       $4204
7  bit  0   7  bit  0
---- ----   ---- ----
HHHH HHHH   LLLL LLLL
|||| ||||   |||| ||||
++++-++++---++++-++++- Dividend (16-bit unsigned)

On power-on: WRDIV = $FFFF

WRDIVB - Divisor ($4206 write)

7  bit  0
---- ----
DDDD DDDD
|||| ||||
++++-++++- Divisor (8-bit unsigned)

On write: Begins division process

The division process takes up to 16 CPU cycles and the result is written to RDDIV (quotient) and RDMPY (remainder) as it goes. Dividing by 0 results in a quotient of $FFFF and a remainder equal to the dividend (WRDIV). See 5A22 Division for more information.

Result

RDDIVL, RDDIVH - Quotient ($4214, $4215 read)

  RDDIVH      RDDIVL
  $4215       $4214
7  bit  0   7  bit  0
---- ----   ---- ----
HHHH HHHH   LLLL LLLL
|||| ||||   |||| ||||
++++-++++---++++-++++- Quotient (16-bit unsigned)

RDMPYL, RDMPYH - Product or Remainder ($4216, $4217 read)

  RDMPYH      RDMPYL
  $4217       $4216
7  bit  0   7  bit  0
---- ----   ---- ----
HHHH HHHH   LLLL LLLL
|||| ||||   |||| ||||
++++-++++---++++-++++- Product (16-bit unsigned), or
                       Remainder (16-bit unsigned)