Difference between revisions of "Z80"
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*[https://floooh.github.io/2021/12/06/z80-instruction-timing.html Detailed look at Z80 instruction timings with the help of a Z80 netlist simulation] | *[https://floooh.github.io/2021/12/06/z80-instruction-timing.html Detailed look at Z80 instruction timings with the help of a Z80 netlist simulation] | ||
*[http://www.z80.info/decoding.htm Decoding Z80 opcodes] | *[http://www.z80.info/decoding.htm Decoding Z80 opcodes] | ||
+ | *[https://github.com/hoglet67/Z80Decoder/wiki/Undocumented-Flags Behaviour of the undocumented flags] | ||
[[Category:Hardware]][[Category:Programming]][[Category:Datasheet]][[Category:CPC Internal Components]][[Category:Electronic Component]] | [[Category:Hardware]][[Category:Programming]][[Category:Datasheet]][[Category:CPC Internal Components]][[Category:Electronic Component]] |
Revision as of 02:32, 2 September 2024
Microprocessor from Zilog, which is used in the Amstrad CPC Computers. The Z80/Z80A was a very popular microprocessor, used in a great variety of home computers and appliances as far-fetched as satellites. It was even used in the Commodore C128 as a secondary processor in order to achieve CP/M compatibility.
Contents
Description
The Z80 microprocessor is an 8-bit CPU with a 4-bit ALU and a 16-bit address bus capable of direct access to 64KB of memory space. The Z80 is a little-endian CPU, meaning it stores 16-bit values with the least significant byte first, followed by the most significant byte. It has a language of 252 root instructions and with the reserved 4 bytes as prefixes, access to an additional 308 instructions. The Z80 was modelled after the 8080 and contains the seventy-eight 8080 opcodes as a subset to its language.
While not in the same league as the Intel 80x86 or the Motorola 68000 series, the Z80 is extremely useful for low cost control applications. One of the more useful features of the Z80 is the built-in refresh circuitry for ease of design with DRAMs.
The Z80 comes in a 40 pin DIP package. It has been manufactured in A, B, and C models, differing only in maximum clock speed. It also has been manufactured as a stand-alone microcontroller with various configurations of on-chip RAM and EPROM.
Part numbers used in the Amstrad CPC during its lifetime
The Z80 CPU has been manufactured by others, and various Z80s have been used in the construction of the CPC during its lifetime.
- SGS Z8400AB1
- ST Z8400AB1
- ZILOG Z8400APS
- ZILOG Z0840004PSC
Zilog ended the production of the Z80 in April 2024. The chip is still available in ample quantities through NOS chip suppliers.
Modern incarnations
Apart from surplus/new Z80-clones that are quite easy to find, many emulations depend on software implementations of the Z80:
- The T80 is a VHDL implementation of the Z80 and Z80A, finished in 2002 on OpenCores
- arnold uses InkZ80, written in C++ (apart from the author-designed C simulation)
- On OpenCores, there is also a Verilog implementation of the Z80.
Zilog itself offers the eZ80 processor, a new, 50MHz design. Kits now have reached a less-than-prohibitive price range and may be available without a business.
Block Diagram
Registers
Register | Size | Description | Notes |
---|---|---|---|
B, C, D, E, H, L | 8-bit | General-purpose registers | Can form 16-bit pairs: BC, DE, HL |
A (Accumulator) | 8-bit | Main register for arithmetic, logic, and data transfer | Most used register |
F (Flags) | 8-bit |
|
Flags are affected by most operations |
AF', BC', DE', HL' | 16-bit | Alternate register set | Swappable with primary registers for fast context switching |
SP (Stack Pointer) | 16-bit | Points to top of the stack | Used for subroutine calls and interrupt handling |
PC (Program Counter) | 16-bit | Points to the next instruction | Automatically increments as instructions execute |
IX, IY (Index Registers) | 16-bit | Used for indexed addressing | Can be split into IXH/IXL, IYH/IYL for 8-bit access |
I (Interrupt Vector) | 8-bit | Holds base address for interrupt mode 2 | Combined with external data to form an interrupt vector |
R (Memory Refresh) | 8-bit | Increments after each instruction fetch to refresh DRAM | Only the lower 7 bits are incremented |
Internal state
Register | Size | Description | Notes |
---|---|---|---|
IM (Interrupt Mode) | 2-bit | Specifies the interrupt mode (0, 1, or 2) | Controls how interrupts are handled:
|
IFF1 | 1-bit | Interrupt enable flag | Set when interrupts are enabled, cleared on disable |
IFF2 | 1-bit | IFF1 buffer | Allows interrupts to be enabled after the instruction following EI |
WZ | 16-bit | Internal temporary register pair. Also known as MEMPTR | Used for memory and address calculations |
IR (Instruction Register) | 8-bit | Holds the opcode of the currently executing instruction | Internally used, not accessible by the programmer |
EIP (Extended Instruction Prefix) | 2-bit | Holds the prefix for extended instructions (CB, ED, or none) | Used for extended instruction sets like bitwise ops |
IMP (Indexing Mode Prefix) | 2-bit | Specifies the indexing mode (DD for IX+d, FD for IY+d, or none for HL) | Indicates use of index registers (IX or IY) for memory access |
Z80 Instructions
Legend
Notation | Meaning | Respective Opcode Bits |
---|---|---|
A | 16-bit address or immediate | alalalal ahahahah |
B | Bit number (0..7) | bbb = 000..111 |
C | Condition (nz, z, nc, c, po, pe, p, m) | ccc = 000, 001, 010, 011, 100, 101, 110, 111 |
D | 8-bit signed relative offset | dddddddd |
E | 16-bit relative address | dddddddd (E minus address of next instruction) |
I | Index register (ix, iy) | i = 0, 1 |
J | Half index register (ixh, ixl, iyh, iyl) | (i, b) = (0, 0), (0, 1), (1, 0), (1, 1) |
N | 8-bit immediate | nnnnnnnn |
P | 16-bit register pair (bc, de, hl, af) | pp = 00, 01, 10, 11 |
Q | 16-bit register (bc, de, hl/ix/iy, sp) | qq = 00, 01, 10, 11 |
R | 8-bit general purpose register (a, b, c, d, e, h, l) | rrr (or sss) = 111, 000, 001, 010, 011, 100, 101 |
S | Restart address (0x00, 0x08,..., 0x38) | sss = 000, 001,..., 111 |
Flags
- - = no change
- + = change by definition (if noted, by the operation marked with '=> flags', otherwise by the only non-single-bit operation):
* S = sign, bit 7 of the result byte (accumulator or high byte for 16-bit operations) * Z = zero, set if the result is zero (8 or 16-bit value) * 5 = undocumented, bit 5 of the result byte * H = half-carry, the carry (theoretical bit 4) of the low nibble of the result byte * 3 = undocumented, bit 3 of the result byte * P = parity (set if the result byte has an even number of bits set) or overflow (set when crossing the boundary of the signed range); always specified * N = negative, set if the previous operation was a subtraction; always specified * C = carry, the theoretical bit 8 of the result byte
- 0 = always reset
- 1 = always set
- X = change described under Effect
- P = parity (only for the parity flag)
- V = overflow (only for the parity flag)
- A = OR with the respective bit of the accumulator
- C = set if the counter (bc) is nonzero after decrementing
Miscellaneous
- () = indirection
- (()) = I/O port
- [] = operator precedence (to avoid confusion with indirection)
- E.B = the Bth bit of the value of expression E
- * = any bit value (0 or 1)
- wz = an internal 16-bit register connected to 16-bit operations
- tmp, tmp2 = temporary storage whose value is thrown away after each instruction
Letter A
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
adc a,R | 10001rrr | 1 | 4 (4) | + | + | + | + | + | V | 0 | + | a += R + cf | Add with Carry |
adc a,J | 11i11101 1000110b | 2 | 8 (4,4) | + | + | + | + | + | V | 0 | + | a += J + cf | |
adc a,N | 11001110 nnnnnnnn | 2 | 7 (4,3) | + | + | + | + | + | V | 0 | + | a += N + cf | |
adc a,(hl) | 10001110 | 2 | 7 (4,3) | + | + | + | + | + | V | 0 | + | a += (hl) + cf | |
adc a,(I+D) | 11i11101 10001110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | + | + | + | V | 0 | + | a += (I+D) + cf | |
adc hl,Q | 11101101 01qq1010 | 4 | 15 (4,4,4,3) | + | + | + | + | + | V | 0 | + | hl += Q + cf | |
add a,R | 10000rrr | 1 | 4 (4) | + | + | + | + | + | V | 0 | + | a += R | Add |
add a,J | 11i11101 1000010b | 2 | 8 (4,4) | + | + | + | + | + | V | 0 | + | a += J | |
add a,N | 11000110 nnnnnnnn | 2 | 7 (4,3) | + | + | + | + | + | V | 0 | + | a += N | |
add a,(hl) | 10000110 | 2 | 7 (4,3) | + | + | + | + | + | V | 0 | + | a += (hl) | |
add a,(I+D) | 11i11101 10000110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | + | + | + | V | 0 | + | a += (I+D) | |
add hl,Q | 00qq1001 | 3 | 11 (4,4,3) | - | - | + | + | + | - | 0 | + | hl += Q | |
add I,Q | 11i11101 00qq1001 | 4 | 15 (4,4,4,3) | - | - | + | + | + | - | 0 | + | I += Q | |
and R | 10100rrr | 1 | 4 (4) | + | + | + | 1 | + | P | 0 | 0 | a := a AND R | Logical AND |
and J | 11i11101 1010010b | 2 | 8 (4,4) | + | + | + | 1 | + | P | 0 | 0 | a := a AND J | |
and N | 11100110 nnnnnnnn | 2 | 7 (4,3) | + | + | + | 1 | + | P | 0 | 0 | a := a AND N | |
and (hl) | 10100110 | 2 | 7 (4,3) | + | + | + | 1 | + | P | 0 | 0 | a := a AND (hl) | |
and (I+D) | 11i11101 10100110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | + | 1 | + | P | 0 | 0 | a := a AND (I+D) |
Letter B
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
bit B,R | 11001011 01bbbrrr | 2 | 8 (4,4) | + | + | + | 1 | + | P | 0 | - | tmp := R AND [1 << B] | Test Bit |
bit B,(hl) | 11001011 01bbb110 | 3 | 12 (4,4,4) | + | + | X | 1 | X | P | 0 | - | tmp := (hl) AND [1 << B], f5 := wz.13, f3 := wz.11 | |
bit B,(I+D) | 11i11101 11001011 dddddddd 01bbb*** | 6 | 20 (4,4,3,5,4) | + | + | X | 1 | X | P | 0 | - | tmp := (I+D) AND [1 << B], f5 := [I+D].13, f3 := [I+D].11 |
Letter C
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
call A | 11001101 alalalal ahahahah | 5 | 17 (4,3,4,3,3) | - | - | - | - | - | - | - | - | sp -= 2, (sp) := pc, pc := A | Call |
call C,A | 11ccc100 alalalal ahahahah | 5/3 | 17/10 (4,3,4,3,3/4,3,3) | - | - | - | - | - | - | - | - | if C then sp -= 2, (sp) := pc, pc := A | Conditional Call |
ccf | 00111111 | 1 | 4 (4) | - | - | A | X | A | - | 0 | X | hf := cf, cf := ~cf | Complement Carry Flag |
cp R | 10111rrr | 1 | 4 (4) | + | + | X | + | X | V | 1 | + | tmp := a - R, f5 := R.5, f3 := R.3 | Compare |
cp J | 11i11101 1011110b | 2 | 8 (4,4) | + | + | X | + | X | V | 1 | + | tmp := a - J, f5 := J.5, f3 := J.3 | |
cp N | 11111110 nnnnnnnn | 2 | 7 (4,3) | + | + | X | + | X | V | 1 | + | tmp := a - N, f5 := N.5, f3 := N.3 | |
cp (hl) | 10111110 | 2 | 7 (4,3) | + | + | X | + | X | V | 1 | + | tmp := a - (hl), f5 := (hl).5, f3 := (hl).3 | |
cp (I+D) | 11i11101 10111110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | X | + | X | V | 1 | + | tmp := a - (I+D), f5 := (I+D).5, f3 := (I+D).3 | |
cpd | 11101101 10101001 | 4 | 16 (4,4,3,5) | + | + | X | + | X | C | 1 | - | tmp := a - (hl) => flags, bc -= 1, hl -= 1, f5 := [tmp - hf].1, f3 = [tmp - hf].3 | Compare and Decrement |
cpdr | 11101101 10111001 | 6/4 | 21/16 (4,4,3,5,5/4,4,3,5) | + | + | X | + | X | C | 1 | - | cpd, if bc <> 0 and nz then pc -= 2 | Compare and Decrement, Repeat |
cpi | 11101101 10100001 | 4 | 16 (4,4,3,5) | + | + | X | + | X | C | 1 | - | tmp := a - (hl) => flags, bc -= 1, hl += 1, f5 := [tmp - hf].1, f3 = [tmp - hf].3 | Compare and Increment |
cpir | 11101101 10110001 | 6/4 | 21/16 (4,4,3,5,5/4,4,3,5) | + | + | X | + | X | C | 1 | - | cpi, if bc <> 0 and nz then pc -= 2 | Compare and Increment, Repeat |
cpl | 00101111 | 1 | 4 (4) | - | - | + | 1 | + | - | 1 | - | a := ~a | Complement |
Letter D
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
daa | 00100111 | 1 | 4 (4) | + | + | + | X | + | P | - | X | tmp := a,
if nf then if hf or [a AND 0x0f > 9] then tmp -= 0x06 if cf or [a > 0x99] then tmp -= 0x60 else if hf or [a AND 0x0f > 9] then tmp += 0x06 if cf or [a > 0x99] then tmp += 0x60 endif, tmp => flags, cf := cf OR [a > 0x99], hf := a.4 XOR tmp.4, a := tmp |
Decimal Adjust Accumulator |
dec R | 00rrr101 | 1 | 4 (4) | + | + | + | + | + | V | 1 | - | R -= 1 | Decrement |
dec J | 11i11101 0010b101 | 2 | 8 (4,4) | + | + | + | + | + | V | 1 | - | J -= 1 | |
dec (hl) | 00110101 | 3 | 11 (4,4,3) | + | + | + | + | + | V | 1 | - | (hl) -= 1 | |
dec (I+D) | 11i11101 00110101 dddddddd | 6 | 23 (4,4,3,5,4,3) | + | + | + | + | + | V | 1 | - | (I+D) -= 1 | |
dec Q | 00qq1011 | 2 | 6 (6) | - | - | - | - | - | - | - | - | Q -= 1 | |
dec I | 11i11101 00101011 | 3 | 10 (4,6) | - | - | - | - | - | - | - | - | I -= 1 | |
di | 11110011 | 1 | 4 (4) | - | - | - | - | - | - | - | - | iff1 := 0, iff2 := 0 | Disable Interrupts |
djnz E | 00010000 dddddddd | 4/3 | 13/8 (5,3,5/5,3) | - | - | - | - | - | - | - | - | b -= 1, if b <> 0 then pc := E | Decrement, Jump Non-Zero |
Letter E
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ei | 11111011 | 1 | 4 (4) | - | - | - | - | - | - | - | - | iff1 := 1, iff2 := 1 after the next instruction | Enable Interrupts |
ex (sp),hl | 11100011 | 6 | 19 (4,3,4,3,5) | - | - | - | - | - | - | - | - | (sp) <=> hl | Exchange |
ex (sp),I | 11i11101 11100011 | 7 | 23 (4,4,3,4,3,5) | - | - | - | - | - | - | - | - | (sp) <=> I | |
ex af,af' | 00001000 | 1 | 4 (4) | X | X | X | X | X | X | X | X | af <=> af' | |
ex de,hl | 11101011 | 1 | 4 (4) | - | - | - | - | - | - | - | - | de <=> hl | |
exx | 11011001 | 1 | 4 (4) | - | - | - | - | - | - | - | - | bc, de, hl <=> bc', de', hl' |
Letter H
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
halt | 01110110 | 1 | 4 (4) | - | - | - | - | - | - | - | - | wait for interrupt | Suspends CPU operation |
Letter I
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
im 0 | 11101101 01*0*110 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | mode 0: execute instruction on bus | Set Interrupt Mode |
im 1 | 11101101 01*10110 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | mode 1: execute rst 38h | |
im 2 | 11101101 01*11110 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | mode 2: call (i * 256 + byte on bus) | |
in a,(N) | 11011011 nnnnnnnn | 3 | 11 (4,3,4) | - | - | - | - | - | - | - | - | a := ((N)) | I/O Input |
in R,(c) | 11101101 01rrr000 | 4 | 12 (4,4,4) | + | + | + | 0 | + | P | 0 | - | R := ((c)) | |
in f,(c) | 11101101 01110000 | 4 | 12 (4,4,4) | + | + | + | 0 | + | P | 0 | - | tmp := ((c)) | |
inc R | 00rrr100 | 1 | 4 (4) | + | + | + | + | + | V | 0 | - | R += 1 | Increment |
inc J | 11i11101 0010b100 | 2 | 8 (4,4) | + | + | + | + | + | V | 0 | - | J += 1 | |
inc (hl) | 00110100 | 3 | 11 (4,4,3) | + | + | + | + | + | V | 0 | - | (hl) += 1 | |
inc (I+D) | 11i11101 00110100 dddddddd | 6 | 23 (4,4,3,5,4,3) | + | + | + | + | + | V | 0 | - | (I+D) += 1 | |
inc Q | 00qq0011 | 2 | 6 (6) | - | - | - | - | - | - | - | - | Q += 1 | |
inc I | 11i11101 00100011 | 3 | 10 (4,6) | - | - | - | - | - | - | - | - | I += 1 | |
ind | 11101101 10101010 | 5 | 16 (4,5,3,4) | + | + | + | X | + | X | X | X | tmp := ((c)), (hl) := tmp, hl -= 1,
b -= 1 => flags, nf := tmp.7, tmp2 = tmp + [[c - 1] AND 0xff], pf := parity of [[tmp2 AND 0x07] XOR b], hf := cf := tmp2 > 255 |
I/O Input and Decrement |
indr | 11101101 10111010 | 6/5 | 21/16 (4,5,3,4,5/4,5,3,4) | + | + | + | X | + | X | X | X | ind, if b <> 0 then pc -= 2 | I/O Input and Decrement, Repeat |
ini | 11101101 10100010 | 5 | 16 (4,5,3,4) | + | + | + | X | + | X | X | X | tmp := ((c)), (hl) := tmp, hl += 1,
b -= 1 => flags, nf := tmp.7, tmp2 := tmp + [[c + 1] AND 0xff], pf := parity of [[tmp2 AND 0x07] XOR b], hf := cf := tmp2 > 255 |
I/O Input and Increment |
inir | 11101101 10110010 | 6/5 | 21/16 (4,5,3,4,5/4,5,3,4) | + | + | + | X | + | X | X | X | ini, if b <> 0 then pc -= 2 | I/O Input and Increment, Repeat |
Letter J
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
jp A | 11000011 alalalal ahahahah | 3 | 10 (4,3,3) | - | - | - | - | - | - | - | - | pc := A | Jump |
jp (hl) | 11101001 | 1 | 4 (4) | - | - | - | - | - | - | - | - | pc := hl | |
jp (I) | 11i11101 11101001 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | pc := I | |
jp C,A | 11ccc010 alalalal ahahahah | 3 | 10 (4,3,3) | - | - | - | - | - | - | - | - | if C then pc := A | Conditional Jump |
jr E | 00011000 dddddddd | 3 | 12 (4,3,5) | - | - | - | - | - | - | - | - | pc := E | Relative Jump |
jr nz,E | 00100000 dddddddd | 3/2 | 12/7 (4,3,5/4,3) | - | - | - | - | - | - | - | - | if nz then pc := E | Conditional Relative Jump |
jr z,E | 00101000 dddddddd | 3/2 | 12/7 (4,3,5/4,3) | - | - | - | - | - | - | - | - | if zf then pc := E | |
jr nc,E | 00110000 dddddddd | 3/2 | 12/7 (4,3,5/4,3) | - | - | - | - | - | - | - | - | if nc then pc := E | |
jr c,E | 00111000 dddddddd | 3/2 | 12/7 (4,3,5/4,3) | - | - | - | - | - | - | - | - | if cf then pc := E |
Letter L
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ld R1,R2 | 01rrrsss | 1 | 4 (4) | - | - | - | - | - | - | - | - | R1 := R2 | Load |
ld R,J | 11i11101 01rrr10b | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | R := J | |
ld J,R | 11i11101 0110brrr | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | J := R | |
ld ixh,ixl | 11011101 01100101 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | ixh := ixl | |
ld ixl,ixh | 11011101 01101100 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | ixl := ixh | |
ld iyh,iyl | 11111101 01100101 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | iyh := iyl | |
ld iyl,iyh | 11111101 01101100 | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | iyl := iyh | |
ld R,N | 00rrr110 nnnnnnnn | 2 | 7 (4,3) | - | - | - | - | - | - | - | - | R := N | |
ld R,(hl) | 01rrr110 | 2 | 7 (4,3) | - | - | - | - | - | - | - | - | R := (hl) | |
ld R,(I+D) | 11i11101 01rrr110 dddddddd | 5 | 19 (4,4,3,5,3) | - | - | - | - | - | - | - | - | R := (I+D) | |
ld (hl),R | 01110rrr | 2 | 7 (4,3) | - | - | - | - | - | - | - | - | (hl) := R | |
ld (hl),N | 00110110 nnnnnnnn | 3 | 10 (4,3,3) | - | - | - | - | - | - | - | - | (hl) := N | |
ld (I+D),R | 11i11101 01110rrr dddddddd | 5 | 19 (4,4,3,5,3) | - | - | - | - | - | - | - | - | (I+D) := R | |
ld (I+D),N | 11i11101 00110110 dddddddd nnnnnnnn | 6 | 19 (4,4,3,5,3) | - | - | - | - | - | - | - | - | (I+D) := N | |
ld a,(bc) | 00001010 | 2 | 7 (4,3) | - | - | - | - | - | - | - | - | a := (bc) | |
ld a,(de) | 00011010 | 2 | 7 (4,3) | - | - | - | - | - | - | - | - | a := (de) | |
ld a,(A) | 00111010 alalalal ahahahah | 4 | 13 (4,3,3,3) | - | - | - | - | - | - | - | - | a := (A) | |
ld (bc),a | 00000010 | 2 | 7 (4,3) | - | - | - | - | - | - | - | - | (bc) := a | |
ld (de),a | 00010010 | 2 | 7 (4,3) | - | - | - | - | - | - | - | - | (de) := a | |
ld (A),a | 00110010 alalalal ahahahah | 4 | 13 (4,3,3,3) | - | - | - | - | - | - | - | - | (A) := a | |
ld i,a | 11101101 01000111 | 3 | 9 (4,5) | - | - | - | - | - | - | - | - | i := a | |
ld r,a | 11101101 01001111 | 3 | 9 (4,5) | - | - | - | - | - | - | - | - | r := a | |
ld a,i | 11101101 01010111 | 3 | 9 (4,5) | + | + | + | 0 | + | X | 0 | - | a := i, pf := iff2 | |
ld a,r | 11101101 01011111 | 3 | 9 (4,5) | + | + | + | 0 | + | X | 0 | - | a := r, pf := iff2 | |
ld Q,A | 00qq0001 alalalal ahahahah | 3 | 10 (4,3,3) | - | - | - | - | - | - | - | - | Q := A | |
ld I,A | 11i11101 00100001 alalalal ahahahah | 4 | 14 (4,4,3,3) | - | - | - | - | - | - | - | - | I := A | |
ld Q,(A) | 11101101 01qq1011 alalalal ahahahah | 6 | 20 (4,4,3,3,3,3) | - | - | - | - | - | - | - | - | Q := (A) | |
ld hl,(A) | 00101010 alalalal ahahahah | 5 | 16 (4,3,3,3,3) | - | - | - | - | - | - | - | - | hl := (A) | |
ld I,(A) | 11i11101 00101010 alalalal ahahahah | 6 | 20 (4,4,3,3,3,3) | - | - | - | - | - | - | - | - | I := (A) | |
ld (A),Q | 11101101 01qq0011 alalalal ahahahah | 6 | 20 (4,4,3,3,3,3) | - | - | - | - | - | - | - | - | (A) := Q | |
ld (A),hl | 00100010 alalalal ahahahah | 5 | 16 (4,3,3,3,3) | - | - | - | - | - | - | - | - | (A) := hl | |
ld (A),I | 11i11101 00100010 alalalal ahahahah | 6 | 20 (4,4,3,3,3,3) | - | - | - | - | - | - | - | - | (A) := I | |
ld sp,hl | 11111001 | 2 | 6 (6) | - | - | - | - | - | - | - | - | sp := hl | |
ld sp,I | 11i11101 11111001 | 3 | 10 (4,6) | - | - | - | - | - | - | - | - | sp := I | |
ldd | 11101101 10101000 | 5 | 16 (4,4,3,5) | - | - | X | 0 | X | C | 0 | - | tmp := (hl), (de) := tmp, de -= 1, hl -= 1, bc -= 1, f5 := [tmp + a].1, f3 := [tmp + a].3 | Load and Decrement |
lddr | 11101101 10111000 | 6/5 | 21/16 (4,4,3,5,5/4,4,3,5) | - | - | X | 0 | X | C | 0 | - | ldd, if bc <> 0 then pc -= 2 | Load and Decrement, Repeat |
ldi | 11101101 10100000 | 5 | 16 (4,4,3,5) | - | - | X | 0 | X | C | 0 | - | tmp := (hl), (de) := tmp, de += 1, hl += 1, bc -= 1, f5 := [tmp + a].1, f3 := [tmp + a].3 | Load and Increment |
ldir | 11101101 10110000 | 6/5 | 21/16 (4,4,3,5,5/4,4,3,5) | - | - | X | 0 | X | C | 0 | - | ldi, if bc <> 0 then pc -= 2 | Load and Increment, Repeat |
Letter N
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
neg | 11101101 01***100 | 2 | 8 (4,4) | + | + | + | + | + | V | 1 | + | a := 0 - a | Negate |
nop | 00000000 | 1 | 4 (4) | - | - | - | - | - | - | - | - | nothing | No Operation |
Letter O
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
or R | 10110rrr | 1 | 4 (4) | + | + | + | 0 | + | P | 0 | 0 | a := a OR R | Logical Inclusive OR |
or J | 11i11101 1011010b | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | 0 | a := a OR J | |
or N | 11110110 nnnnnnnn | 2 | 7 (4,3) | + | + | + | 0 | + | P | 0 | 0 | a := a OR N | |
or (hl) | 10110110 | 2 | 7 (4,3) | + | + | + | 0 | + | P | 0 | 0 | a := a OR (hl) | |
or (I+D) | 11i11101 10110110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | + | 0 | + | P | 0 | 0 | a := a OR (I+D) | |
out (N),a | 11010011 nnnnnnnn | 3 | 11 (4,3,4) | - | - | - | - | - | - | - | - | ((N)) := a | I/O Output |
out (c),R | 11101101 01rrr001 | 4 | 12 (4,4,4) | - | - | - | - | - | - | - | - | ((c)) := R | |
out (c),0 | 11101101 01110001 | 4 | 12 (4,4,4) | - | - | - | - | - | - | - | - | ((c)) := 0 (only on NMOS CPU) | |
outd | 11101101 10101011 | 5 | 16 (4,5,3,4) | + | + | + | X | + | X | X | X | tmp := (hl), ((c)) := tmp, hl -= 1, b -= 1 => flags, nf := tmp.7, tmp2 = tmp + l, pf := parity of [[tmp2 AND 0x07] XOR b], hf := cf := tmp2 > 255 | I/O Output and Decrement |
otdr | 11101101 10111011 | 6/5 | 21/16 (4,5,3,4,5/4,5,3,4) | + | + | + | X | + | X | X | X | outd, if b <> 0 then pc -= 2 | I/O Output and Decrement, Repeat |
outi | 11101101 10100011 | 5 | 16 (4,5,3,4) | + | + | + | X | + | X | X | X | tmp := (hl), ((c)) := tmp, hl += 1, b -= 1 => flags, nf := tmp.7, tmp2 = tmp + l, pf := parity of [[tmp2 AND 0x07] XOR b], hf := cf := tmp2 > 255 | I/O Output and Increment |
otir | 11101101 10110011 | 6/5 | 21/16 (4,5,3,4,5/4,5,3,4) | + | + | + | X | + | X | X | X | outi, if b <> 0 then pc -= 2 | I/O Output and Increment, Repeat |
Letter P
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
pop P | 11pp0001 | 3 | 10 (4,3,3) | - | - | - | - | - | - | - | - | P := (sp), sp += 2 | Pop a value from the stack |
pop I | 11i11101 11100001 | 4 | 14 (4,4,3,3) | - | - | - | - | - | - | - | - | I := (sp), sp += 2 | |
push P | 11pp0101 | 4 | 11 (5,3,3) | - | - | - | - | - | - | - | - | sp -= 2, (sp) := P | Push a value onto the stack |
push I | 11i11101 11100101 | 5 | 15 (4,5,3,3) | - | - | - | - | - | - | - | - | sp -= 2, (sp) := I |
Letter R
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
res B,R | 11001011 10bbbrrr | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | R := R AND ~[1 << B] | Reset Bit |
res B,(hl) | 11001011 10bbb110 | 4 | 15 (4,4,4,3) | - | - | - | - | - | - | - | - | (hl) := (hl) AND ~[1 << B] | |
res B,(I+D) | 11i11101 11001011 dddddddd 10bbb110 | 7 | 23 (4,4,3,5,4,3) | - | - | - | - | - | - | - | - | (I+D) := (I+D) AND ~[1 << B] | |
res B,(I+D)->R | 11i11101 11001011 dddddddd 10bbbrrr | 7 | 23 (4,4,3,5,4,3) | - | - | - | - | - | - | - | - | (I+D) := R := (I+D) AND ~[1 << B] | |
ret | 11001001 | 3 | 10 (4,3,3) | - | - | - | - | - | - | - | - | pc := (sp), sp += 2 | Return |
ret C | 11ccc000 | 4/2 | 11/5 (5,3,3/5) | - | - | - | - | - | - | - | - | if C then pc := (sp), sp += 2 | Conditional Return |
reti | 11101101 01**1101 | 4 | 14 (4,4,3,3) | - | - | - | - | - | - | - | - | pc := (sp), sp += 2, iff1 := iff2 | Return from Interrupt |
retn | 11101101 01**0101 | 4 | 14 (4,4,3,3) | - | - | - | - | - | - | - | - | pc := (sp), sp += 2, iff1 := iff2 | Return from NMI |
rla | 00010111 | 1 | 4 (4) | - | - | + | 0 | + | - | 0 | X | ocf := cf, cf := a.7, a := [a << 1] + ocf | Rotate Left Accumulator |
rl R | 11001011 00010rrr | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := R.7, R := [R << 1] + ocf | Rotate Left |
rl (hl) | 11001011 00010110 | 4 | 15 (4,4,4,3) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := (hl).7, (hl) := [(hl) << 1] + ocf | |
rl (I+D) | 11i11101 11001011 dddddddd 00010110 | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := (I+D).7, (I+D) := [(I+D) << 1] + ocf | |
rl (I+D)->R | 11i11101 11001011 dddddddd 00010rrr | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := (I+D).7, (I+D) := R := [(I+D) << 1] + ocf | |
rlca | 00000111 | 1 | 4 (4) | - | - | + | 0 | + | - | 0 | X | cf := a.7, a := [a << 1] + cf | Rotate Left Carry Accumulator |
rlc R | 11001011 00000rrr | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | X | cf := R.7, R := [R << 1] + cf | Rotate Left Carry |
rlc (hl) | 11001011 00000110 | 4 | 15 (4,4,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (hl).7, (hl) := [(hl) << 1] + cf | |
rlc (I+D) | 11i11101 11001011 dddddddd 00000110 | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).7, (I+D) := [(I+D) << 1] + cf | |
rlc (I+D)->R | 11i11101 11001011 dddddddd 00000rrr | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).7, (I+D) := R := [(I+D) << 1] + cf | |
rld | 11101101 01101111 | 5 | 18 (4,4,3,4,3) | + | + | + | 0 | + | P | 0 | - | tmp := [(hl) << 4] + [a AND 0x0f], (hl) := tmp, a := [a AND 0xf0] + [tmp >> 8] => flags | Rotate Left Decimal |
rra | 00011111 | 1 | 4 (4) | - | - | + | 0 | + | - | 0 | X | ocf := cf, cf := a.0, a := [a >> 1] + [ocf << 7] | Rotate Right Accumulator |
rr R | 11001011 00011rrr | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := R.0, R := [R >> 1] + [ocf << 7] | Rotate Right |
rr (hl) | 11001011 00011110 | 4 | 15 (4,4,4,3) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := (hl).0, (hl) := [(hl) >> 1] + [ocf << 7] | |
rr (I+D) | 11i11101 11001011 dddddddd 00011110 | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := (I+D).0, (I+D) := [(I+D) >> 1] + [ocf << 7] | |
rr (I+D)->R | 11i11101 11001011 dddddddd 00011rrr | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | ocf := cf, cf := (I+D).0, (I+D) := R := [(I+D) >> 1] + [ocf << 7] | |
rrca | 00001111 | 1 | 4 (4) | - | - | + | 0 | + | - | 0 | X | cf := a.0, a := [a >> 1] + [cf << 7] | Rotate Right Carry Accumulator |
rrc R | 11001011 00001rrr | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | X | cf := R.0, R := [R >> 1] + [cf << 7] | Rotate Right Carry |
rrc (hl) | 11001011 00001110 | 4 | 15 (4,4,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (hl).0, (hl) := [(hl) >> 1] + [cf << 7] | |
rrc (I+D) | 11i11101 11001011 dddddddd 00001110 | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).0, (I+D) := [(I+D) >> 1] + [cf << 7] | |
rrc (I+D)->R | 11i11101 11001011 dddddddd 00001rrr | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).0, (I+D) := R := [(I+D) >> 1] + [cf << 7] | |
rrd | 11101101 01100111 | 5 | 18 (4,4,3,4,3) | + | + | + | 0 | + | P | 0 | - | tmp := (hl), (hl) := [tmp >> 4] + [[a AND 0x0f] << 4], a := [a AND 0xf0] + [tmp AND 0x0f] => flags | Rotate Right Decimal |
rst S | 11sss111 | 4 | 11 (5,3,3) | - | - | - | - | - | - | - | - | sp -= 2, (sp) | Restart |
Letter S
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
sbc a,R | 10011rrr | 1 | 4 (4) | + | + | + | + | + | V | 1 | + | a -= R + cf | Subtract with Carry |
sbc a,J | 11i11101 1001110b | 2 | 8 (4,4) | + | + | + | + | + | V | 1 | + | a -= J + cf | |
sbc a,N | 11011110 nnnnnnnn | 2 | 7 (4,3) | + | + | + | + | + | V | 1 | + | a -= N + cf | |
sbc a,(hl) | 10011110 | 2 | 7 (4,3) | + | + | + | + | + | V | 1 | + | a -= (hl) + cf | |
sbc a,(I+D) | 11i11101 10011110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | + | + | + | V | 1 | + | a -= (I+D) + cf | |
sbc hl,Q | 11101101 01qq0010 | 4 | 15 (4,4,4,3) | + | + | + | + | + | V | 1 | + | hl -= Q + cf | |
scf | 00110111 | 1 | 4 (4) | - | - | A | 0 | A | - | 0 | 1 | nothing else | Set Carry Flag |
set B,R | 11001011 11bbbrrr | 2 | 8 (4,4) | - | - | - | - | - | - | - | - | R := R OR [1 << B] | Set Bit |
set B,(hl) | 11001011 11bbb110 | 4 | 15 (4,4,4,3) | - | - | - | - | - | - | - | - | (hl) := (hl) OR [1 << B] | |
set B,(I+D) | 11i11101 11001011 dddddddd 11bbb110 | 7 | 23 (4,4,3,5,4,3) | - | - | - | - | - | - | - | - | (I+D) := (I+D) OR [1 << B] | |
set B,(I+D)->R | 11i11101 11001011 dddddddd 11bbbrrr | 7 | 23 (4,4,3,5,4,3) | - | - | - | - | - | - | - | - | (I+D) := R := (I+D) OR [1 << B] | |
sla R | 11001011 00100rrr | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | X | cf := R.7, R := R << 1 | Shift Left Arithmetic |
sla (hl) | 11001011 00100110 | 4 | 15 (4,4,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (hl).7, (hl) := (hl) << 1 | |
sla (I+D) | 11i11101 11001011 dddddddd 00100110 | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).7, (I+D) := (I+D) << 1 | |
sla (I+D)->R | 11i11101 11001011 dddddddd 00100rrr | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).7, (I+D) := R := (I+D) << 1 | |
sra R | 11001011 00101rrr | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | X | cf := R.0, R := R >> 1, R.7 := R.6 | Shift Right Arithmetic |
sra (hl) | 11001011 00101110 | 4 | 15 (4,4,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (hl).0, (hl) := (hl) >> 1, (hl).7 := (hl).6 | |
sra (I+D) | 11i11101 11001011 dddddddd 00101110 | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).0, (I+D) := (I+D) >> 1, (I+D).7 := (I+D).6 | |
sra (I+D)->R | 11i11101 11001011 dddddddd 00101rrr | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).0, tmp := (I+D) >> 1, tmp.7 := tmp.6, (I+D) := R := tmp | |
sll R | 11001011 00110rrr | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | X | cf := R.7, R := [R << 1] + 1 | Shift Left Logical |
sll (hl) | 11001011 00110110 | 4 | 15 (4,4,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (hl).7, (hl) := [(hl) << 1] + 1 | |
sll (I+D) | 11i11101 11001011 dddddddd 00110110 | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).7, (I+D) := [(I+D) << 1] + 1 | |
sll (I+D)->R | 11i11101 11001011 dddddddd 00110rrr | 7 | 23 (4,4,3,5,4,3) | + | + | + | 0 | + | P | 0 | X | cf := (I+D).7, (I+D) := R := [(I+D) << 1] + 1 | |
srl R | 11001011 00111rrr | 2 | 8 (4,4) | 0 | + | + | 0 | + | P | 0 | X | cf := R.0, R := R >> 1 | Shift Right Logical |
srl (hl) | 11001011 00111110 | 4 | 15 (4,4,3) | 0 | + | + | 0 | + | P | 0 | X | cf := (hl).0, (hl) := (hl) >> 1 | |
srl (I+D) | 11i11101 11001011 dddddddd 00111110 | 7 | 23 (4,4,3,5,4,3) | 0 | + | + | 0 | + | P | 0 | X | cf := (I+D).0, (I+D) := (I+D) >> 1 | |
srl (I+D)->R | 11i11101 11001011 dddddddd 00111rrr | 7 | 23 (4,4,3,5,4,3) | 0 | + | + | 0 | + | P | 0 | X | cf := (I+D).0, (I+D) := R := (I+D) >> 1 | |
sub R | 10010rrr | 1 | 4 (4) | + | + | + | + | + | V | 1 | + | a -= R | Subtract |
sub J | 11i11101 1001010b | 2 | 8 (4,4) | + | + | + | + | + | V | 1 | + | a -= J | |
sub N | 11010110 nnnnnnnn | 2 | 7 (4,3) | + | + | + | + | + | V | 1 | + | a -= N | |
sub (hl) | 10010110 | 2 | 7 (4,3) | + | + | + | + | + | V | 1 | + | a -= (hl) | |
sub (I+D) | 11i11101 10010110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | + | + | + | V | 1 | + | a -= (I+D) |
Letter X
Instruction | Opcode | NOPs | Cycles | S | Z | 5 | H | 3 | P | N | C | Effect | Description |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
xor R | 10101rrr | 1 | 4 (4) | + | + | + | 0 | + | P | 0 | 0 | a := a XOR R | Logical eXclusive OR |
xor J | 11i11101 1010110b | 2 | 8 (4,4) | + | + | + | 0 | + | P | 0 | 0 | a := a XOR J | |
xor N | 11101110 nnnnnnnn | 2 | 7 (4,3) | + | + | + | 0 | + | P | 0 | 0 | a := a XOR N | |
xor (hl) | 10101110 | 2 | 7 (4,3) | + | + | + | 0 | + | P | 0 | 0 | a := a XOR (hl) | |
xor (I+D) | 11i11101 10101110 dddddddd | 5 | 19 (4,4,3,5,3) | + | + | + | 0 | + | P | 0 | 0 | a := a XOR (I+D) |
Opcodes
Any instruction in bold is undocumented by Zilog.
Standard opcodes
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CB-prefixed opcodes
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ED-prefixed opcodes
The opcodes that are not mentioned in the following table are EDNOP (ED-prefixed NOP instruction). Thay have no effect but take 8 cycles and increment the register R two times. A pair of ED prefixes is also an EDNOP.
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Notes:
- The opcode ED 70 reads the port indicated by the register C without keeping the result but modifies the register F
- The opcode ED 71 corresponds to the instruction OUT (C),255 on a CMOS Z80
DD or FD-prefixed opcodes
If an opcode is prefixed by DD, the instruction is changed as follows:
- HL is replaced by IX
- H is replaced by IXH
- L is replaced by IXL
- (HL) is replaced by (IX+d)
Same for the FD prefix but with IY instead of IX.
There are 3 exceptions:
- In the instruction EX DE,HL, HL will not be replaced with IX or IY. The EXX instruction is not affected either.
- If (HL) and L or H are used in the same instruction, L and H are not replaced with IXL or IXH. For instance LD L,(IX+d) stores the content of (IX+d) into L, not IXL
- If the next byte is a DD, ED or FD prefix, the current DD or FD prefix is ignored (it's equivalent to a NONI) and processing continues with the next byte. ED-prefixed opcodes cannot be altered by DD or FD prefixes.
When a DD or FD prefix is followed by a CB byte, the CB acts as a second prefix. A mandatory displacement byte comes next, and then the actual opcode. If the instruction produces output other than in the flags (i.e. all except BIT), then the result gets placed both into (IX+d) or (IY+d) and the register one would normally expect to be altered.
Oddities
- Despite having different names and opcodes, RETI and RETN are in fact the exact same instruction
- Contrarily to what the syntax of the instructions JP (HL/IX/IY) suggest, PC will be loaded with the contents of the register itself, not the indexed value. Those instructions should be understood as JP HL/IX/IY
- IN (C) and OUT (C) instructions syntax is misleading as these instructions actually use the full 16-bit port address contained in BC
- While the syntax of ADD, ADC and SBC instructions all explicitely mention the A register, the SUB instruction does not mention it
- The 16-bit commands ADD HL,ss, ADC HL,ss and SBC HL,ss exist but not the command SUB HL,ss
Manuals
- Official Zilog Z80 CPU user manual (2016)
- Media:Z80 CPU Technical Manual 1977.pdf
- Media:Mostek Z80 Programming Manual.pdf
- Media:Z80 CPC Timings cheat sheet.20230709.pdf
- Z80 - undocumented opcodes