NEC V30MZ: Difference between revisions

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* Four 16-bit general-purpose registers, with their (low, high) components accessible as individual 8-bit sub-registers:
* Four 16-bit general-purpose registers, with their (low, high) components accessible as individual 8-bit sub-registers:
** '''AX'''<sup>AW</sup> ('''AL''', '''AH''')
** '''AX'''<sup>AW</sup> ('''AL''', '''AH''') - the ''accumulator'' register,
** '''BX'''<sup>BW</sup> ('''BL''', '''BH''')
** '''BX'''<sup>BW</sup> ('''BL''', '''BH''') - the ''base'' register,
** '''CX'''<sup>CW</sup> ('''CL''', '''CH''')
** '''CX'''<sup>CW</sup> ('''CL''', '''CH''') - the ''count'' register,
** '''DX'''<sup>DW</sup> ('''DL''', '''DH''')
** '''DX'''<sup>DW</sup> ('''DL''', '''DH''') - the ''data'' register,
* Four additional 16-bit registers:
* Four additional 16-bit registers:
** '''SI'''<sup>IX</sup>
** '''SI'''<sup>IX</sup> - the ''source index'' register,
** '''DI'''<sup>IY</sup>
** '''DI'''<sup>IY</sup> - the ''destination index'' register,
** '''SP''' - stack pointer; the stack is always addressed in the stack segment (so as <code>SS:SP</code> far addresses).
** '''SP''' - the ''stack pointer''; the stack is always addressed in the stack segment (so as <code>SS:SP</code> far addresses),
** '''BP'''
** '''BP''' - the ''base pointer'.
* Four segment registers:
* Four segment registers:
** '''CS'''<sup>PS</sup> - code segment,
** '''CS'''<sup>PS</sup> - code segment,

Revision as of 09:01, 3 August 2024

The NEC V30MZ is the CPU component of the WonderSwan SoC.

Unlike the NEC V20/V30 CPU family, the V30MZ is fully compatible with the Intel 80186's documented behaviour, as well as some of its undocumented behaviour (such as the SALC opcode); it also omits the V20/V30's opcode extensions.

The NEC V30MZ datasheet uses distinct names for opcodes and registers (NEC names); as all homebrew compilers and assemblers for the platform utilize Intel's official naming (Intel names), the latter is what the wiki - and most community tooling - has standardized on.

Architecture

For this section, elements of the architecture which have distinct NEC names are provided in the following format: IntelNEC.

Registers

  • Four 16-bit general-purpose registers, with their (low, high) components accessible as individual 8-bit sub-registers:
    • AXAW (AL, AH) - the accumulator register,
    • BXBW (BL, BH) - the base register,
    • CXCW (CL, CH) - the count register,
    • DXDW (DL, DH) - the data register,
  • Four additional 16-bit registers:
    • SIIX - the source index register,
    • DIIY - the destination index register,
    • SP - the stack pointer; the stack is always addressed in the stack segment (so as SS:SP far addresses),
    • BP - the base pointer'.
  • Four segment registers:
    • CSPS - code segment,
    • DSDS0 - data segment,
    • ESDS1 - additional data segment,
    • SS - stack segment.
  • IPPC - instruction pointer; instructions are always addressed in the code segment (so as CS:IP far addresses),
  • FLAGSPSW - 16-bit processor flag register.

While the eight registers can be used in a general-purpose manner, some opcodes are constrained to only using certain registers:

  • AX benefits from more compact encoding for certain instructions; it's also used as an output and input register in multiplication/division, port access, BCD conversions, and (as AL) in the XCHG opcode.
  • CX is used for loop and repeat instructions as a counter.
  • DX can be used used as the address register for port access, it is also used as an output register for word multiplication/division.
  • BX, SI, and DI can be used as indices for accessing data in tables in the DS segment (or other segments when overridden).
    • SI and DI are, in addition, used as source and destination pointers by string instructions.
  • Similarly, BP can be used as an index for accessing stack data; this makes it particularly useful as a frame pointer.

Flags

The V30MZ features the following flags:

15  bit  8  7  bit  0
 ---- ----  ---- ----
 m111 odit  sz0a 0p1c
 |    ||||  || |  | |
 |    ||||  || |  | +- Carry (CFCY)
 |    ||||  || |  +--- Parity (PFP)
 |    ||||  || +------ Auxillary Carry (AFAC)
 |    ||||  |+-------- Zero (Z)
 |    ||||  +--------- Sign (S)
 |    |||+------------ Single StepBreak (TFBRK)
 |    ||+------------- Interrupt Enable (IFIE)
 |    |+-------------- Direction (DFDIR)
 |    +--------------- Overflow (OFV)
 +-------------------- Mode (MD)

In general, they are set by operations as follows:

  • Carry - stores the carry/borrow state of the last arithmetic operation, or the bit shifted to it for shift/rotate operations.
  • Parity - set to 1 if, after arithmetic and logical operations, the lower 8 bits of the result are even.
  • Auxillary Carry - stores the carry state from the lower 4-bit nibble (bits 0-3) to the higher 4-bit nibble (bits 4-7), or the borrow state from the higher nibble to the lower nibble.
  • Zero - set to 1 if, after arithmetic and logical operations, the result is equal to zero.
  • Sign - set to 1 if, after arithmetic and logical operations, the highest bit of the result is set.
  • Overflow - set to 1 if an overflow occured as part of the arithmetic operation.

There are also programmer-controlled control flags:

  • Single Step - if set to 1, after every instruction, a software interrupt (vector 1) is generated.
  • Interrupt Enable - if set to 1, enables maskable interrupt handling via the interrupt vector table; cleared to 0 as part of interrupt handling and restored by the IRET opcode.
  • Direction - if set to 1, string instructions decrement pointers as part of their operation; if set to 0, the pointers are to be incremented.
  • Mode - used for 8080 emulation mode in other V20/V30-family chips, does nothing on V30MZ

Instruction set

V30MZ Instruction Set
Instruction Opcode (hex) Opcode (bin) Bytes Cycles Flags NEC mnemonic Notes
ADD AL, imm8 04 00000100 2 1 O...SZAPC ADD AL, imm8
ADD AX, imm16 05 00000101 3 1 O...SZAPC ADD AW, imm16
ADD mem8, imm8 80 rm / 82 rm 100000.0 oo000mm 3-5 3 O...SZAPC ADD mem8, imm8

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