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<h1>Old <a class="el" href="classao68000.html" title="ao68000 top level module.">ao68000</a> notes </h1> </div>
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<div class="fragment"><pre class="fragment">*******************************************************************************************************************************************
NOTE: The information bellow is not current. It is here only for historical reasons.
*******************************************************************************************************************************************
if( ir[15:12] == 4'b0000 && ir[8] == 1'b0 && ir[11:9] != 3'b100 && ir[11:9] != 3'b110 &&
ir[15:0] != 16'b0000_000_0_00_111100 && ir[15:0] != 16'b0000_000_0_01_111100 &&
ir[15:0] != 16'b0000_001_0_00_111100 && ir[15:0] != 16'b0000_001_0_01_111100 &&
ir[15:0] != 16'b0000_101_0_00_111100 && ir[15:0] != 16'b0000_101_0_01_111100
)
ANDI,EORI,ORI,ADDI,SUBI
+++
if( ir[7:6] == 2'b00 ) load ir1[7:0] to operand1[7:0]
else if( ir[7:6] == 2'b01 ) load ir1[15:0] to operand1[15:0]
else if( ir[7:6] == 2'b10 ) load { ir1, ir2 } to operand1[31:0]
move operand1 to operand2
operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
load (ea) from ir[5:0] to operand1: data alter
Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
perform ALU operation:
if( ir[11:9] == 3'b000 ) OR
else if( ir[11:9] == 3'b001 ) AND
else if( ir[11:9] == 3'b010 ) SUB
else if( ir[11:9] == 3'b011 ) ADD
else if( ir[11:9] == 3'b101 ) EOR
update CCR:
ANDI,EORI,ORI: X not affected; C cleared; V cleared; Z set if zero else clear; N set if MSB set else cleared
ADDI,SUBI: same as ADD: X=C set if carry[borrow] generated else cleared; V set if overflow else cleared; Z set if result zero else cleared;
N set if result negative else cleared
save result to (ea) from ir[5:0]
update PC
if( ir[15:0] == 16'b0000_000_0_00_111100 || ir[15:0] == 16'b0000_000_0_01_111100 ||
ir[15:0] == 16'b0000_001_0_00_111100 || ir[15:0] == 16'b0000_001_0_01_111100 ||
ir[15:0] == 16'b0000_101_0_00_111100 || ir[15:0] == 16'b0000_101_0_01_111100
)
ORI to CCR,ORI to SR,ANDI to CCR,ANDI to SR,EORI to CCR,EORI to SR
+++
if( ir[7:6] == 2'b00 ) load ir1[7:0] to operand1[7:0]
else if( ir[7:6] == 2'b01 ) load ir1[15:0] to operand1[15:0]
else if( ir[7:6] == 2'b10 ) load { ir1, ir2 } to operand1[31:0]
move operand1 to operand2
operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
move SR to operand1
perform ALU operation:
if( ir[11:9] == 3'b000 ) OR
else if( ir[11:9] == 3'b001 ) AND
else if( ir[11:9] == 3'b101 ) EOR
move result to operand1
save operand1 to CCR/SR
update CCR:
result
update PC
if( ir[15:12] == 4'b0000 && ir[8] == 1'b0 && ir[11:9] = 3'b110 )
CMPI
+++
if( ir[7:6] == 2'b00 ) load ir1[7:0] to operand2[7:0]
else if( ir[7:6] == 2'b01 ) load ir1[15:0] to operand2[15:0]
else if( ir[7:6] == 2'b10 ) load { ir1, ir2 } to operand2[31:0]
operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
load (ea) from ir[5:0] to operand1: data alter
Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
perform ALU operation:
if( ir[11:9] == 3'b110 ) CMP=SUB
update CCR:
CMPI: same as CMP: X not affected; C set if borrow else cleared; V set if overflow else cleared; Z set if zero else cleared;
N set if negative else cleared
update PC
if( ir[15:12] == 4'b0000 && ir[11:8] == 4'b1000 && ir[7:6] != 2'b00 )
BCHG,BCLR,BSET immediate
+++
load ir1[7:0] to operand1[7:0]
move operand1 to operand2
load (ea) form ir[5:0] to operand1: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
operation size:
if( ir[5:3] == 3'b000 ) long
else if( ir[5:3] != 3'b000 ) byte
perform bit operation:
test( <number> of Destination ) -> Z; test( <number> of Destination )[0][1] -> <bit number> of Destination
if( ir[7:6] == 2'b01 ) BCHG
else if( ir[7:6] == 2'b10 ) BCLR
else if( ir[7:6] == 2'b11 ) BSET
update CCR: X,N,V,C not affected; Z set if bit tested is zero else cleared
save result to (ea) form ir[5:0]
update PC
if( ir[15:12] == 4'b0000 && ir[11:8] == 4'b1000 && ir[7:6] == 2'b00 )
BTST immediate
+++
load ir1[7:0] to operand1[7:0]
move operand1 to operand2
load (ea) form ir[5:0] to operand1: data address
data address: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
operation size:
if( ir[5:3] == 3'b000 ) long
else if( ir[5:3] != 3'b000 ) byte
perform bit operation:
test( <number> of Destination ) -> Z
if( ir[7:6] == 2'b00 ) BTST
update CCR: X,N,V,C not affected; Z set if bit tested is zero else cleared
update PC
if( ir[15:12] == 4'b0000 && ir[8] == 1'b1 && ir[5:3] != 3'b001 && ir[8:6] != 3'b100 )
BCHG,BCLR,BSET register
+++
load (ea) from ir[11:9] to operand1[7:0]: Dn
move operand1 to operand2
load (ea) form ir[5:0] to operand1: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
operation size:
if( ir[5:3] == 3'b000 ) long
else if( ir[5:3] != 3'b000 ) byte
perform bit operation:
test( <number> of Destination ) -> Z; test( <number> of Destination )[0][1] -> <bit number> of Destination
if( ir[7:6] == 2'b01 ) BCHG
else if( ir[7:6] == 2'b10 ) BCLR
else if( ir[7:6] == 2'b11 ) BSET
update CCR: X,N,V,C not affected; Z set if bit tested is zero else cleared
save result to (ea) form ir[5:0]
update PC
if( ir[15:12] == 4'b0000 && ir[8] == 1'b1 && ir[5:3] != 3'b001 && ir[8:6] == 3'b100 )
BTST register
+++
load (ea) from ir[11:9] to operand1[7:0]: Dn
move operand1 to operand2
load (ea) form ir[5:0] to operand1: data address
data address: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
operation size:
if( ir[5:3] == 3'b000 ) long
else if( ir[5:3] != 3'b000 ) byte
perform bit operation:
test( <number> of Destination ) -> Z
if( ir[7:6] == 2'b00 ) BTST
update CCR: X,N,V,C not affected; Z set if bit tested is zero else cleared
update PC
if( ir[15:12] == 4'b0000 && ir[8] == 1'b1 && ir[5:3] == 3'b001 && ( ir[7:6] == 2'b00 || ir[7:6] == 2'b01 ) )
MOVEP memory to register
+++
operation size:
if( ir[7:6] == 2'b00 ) word
if( ir[7:6] == 2'b01 ) long
load ea from ir[2:0] to address register: (d16, An)
do
load from (address) to operand1 register, long
move two alternate bytes to result register
increment ea by 4
repeat for long
save result to (ea) from ir[11:9]: Dn, word ( ir[7:6] == 2'b00 ), long ( ir[7:6] == 2'b01 )
update CCR: no change
update PC
if( ir[15:12] == 4'b0000 && ir[8] == 1'b1 && ir[5:3] == 3'b001 && ( ir[7:6] == 2'b10 || ir[7:6] == 2'b11 ) )
MOVEP register to memory
+++
operation size:
if( ir[7:6] == 2'b10 ) word
if( ir[7:6] == 2'b11 ) long
load (ea) from ir[11:9] to operand1: Dn, long
load ea from ir[2:0] to address register: (d16, An)
do
move two alternate bytes to result register
save result register to (addreess), long, only selected bytes
increment ea by 4
repeat for long
update CCR: no change
update PC
if( ir[15:14] == 2'b00 && ir[13:12] != 2'b00 && ir[8:6] != 3'b001)
MOVE
+++
size of operation: ir[13:12]: 01,11,10 byte,word,long
load (ea) from ir[5:0] to operand1: all modes.
all modes: Dn 000, An (word, long) 001, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
copy operand1 to result register
save result to (ea) from ir[11:6]: data alter.
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
update PC
if( ir[15:14] == 2'b00 && (ir[13:12] == 2'b11 || ir[13:12] == 2'b10) && ir[8:6] == 3'b001)
MOVEA
+++
size of operation: ir[13:12]: 11,10 word,long
load (ea) from ir[5:0] to operand1: all modes.
all modes: Dn 000, An (word, long) 001, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
copy operand1 to result register
save result to (ea) from ir[11:6]: An
CC: not affected
update PC
if( ir[15:12] == 4'b1100 && (ir[8:4] == 5'b10100 || 5'b11000) )
EXG
+++
load (ea) from ir[5:0] to operand1: Dn, An
perform ALU operation: move operand1 to result register
load (ea) from ir[11:9] with mode in ir[7:3] to operand1: Dn (5'b01000 or 5'b10001), An (5'b01001)
save result to (ea) from ir[11:9] with mode in ir[7:3]: Dn (5'b01000 or 5'b10001), An (5'b01001),
perform ALU operation: move operand1 to result register
save result to (ea) from ir[5:0]: Dn, An
CC: not affected
update PC
if( ir[15:12] == 4'b1011 && (ir[8:6] == 3'b100 || 3'b101 || 3'b110) && ir[5:3] == 3'b001 )
CMPM
+++
load (ea) from ir[2:0] to operand1: postincrement (An)+
move operand1 to operand2
load (ea) from ir[11:9] to operand1: postincrement (An)+
ALU operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
perform ALU operation: CMPM == SUB
CC: X not affected; C set if borrow else cleared; V set if overflow else cleared; Z set if zero else cleared; N set if negative else cleared
Ax dest, Ay source: postincrement: +(An)
update PC
if( ir[15:12] == 4'b1011 && (ir[8:6] == 3'b100 || 3'b101 || 3'b110) && ir[5:3] != 3'b001 )
EOR
+++
load (ea) from ir[11:9] to operand1: Dn
move operand1 to operand2
load (ea) from ir[5:0] to operand1: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
ALU operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
perform ALU operation: EOR
CC: X not affected; C cleared; V cleared; Z set if zero else clear; N set if MSB set else cleared
save result to (ea) from ir[5:0]: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
update PC
if( (ir[15:12] == 4'b1101 || 4'b1001 || 4'b1100 || 4'b1000) &&
(ir[8:4] == 5'b10001 || 5'b10010 || 5'b10011 || 5'b10101 || 5'b10110 || 5'b10111 || 5'b11001 || 5'b11010 || 5'b11011) )
ADD to mem,SUB to mem,AND to mem,OR to mem
+++
load (ea) from ir[11:9] to operand1: Dn
move operand1 to operand2
load (ea) indexed by ir[5:0] to operand1: memory alter
memory alter: (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
ALU operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
perform ALU operation:
if( ir[15:12] == 4'b1101 ) ADD
else if( ir[15:12] == 4'b1001 ) SUB
else if( ir[15:12] == 4'b1100 ) AND
else if( ir[15:12] == 4'b1000 ) OR
if( ADD,SUB )
CC: X=C set if carry[borrow] generated else cleared; V set if overflow else cleared; Z set if result zero else cleared;
N set if result negative else cleared
else if( AND,OR )
CC: X not affected; C cleared; V cleared; Z set if zero else clear; N set if MSB set else cleared
save result to (ea) from ir[5:0]: memory alter
memory alter: (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
update PC
if( (ir[15:12] == 4'b1101 || 4'b1001 || 4'b1100 || 4'b1000) && (ir[8:6] == 3'b000 || 3'b001 || 3'b010) )
ADD to Dn,SUB to Dn,AND to Dn,OR to Dn
+++
load (ea) from ir[5:0] to operand1: all modes
all modes: Dn 000, An (word, long) 001, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
move operand1 to operand2
load (ea) from ir[11:9] to operand1: Dn
ALU operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
perform ALU operation:
if( ir[15:12] == 4'b1101 ) ADD
else if( ir[15:12] == 4'b1001 ) SUB
else if( ir[15:12] == 4'b1100 ) AND
else if( ir[15:12] == 4'b1000 ) OR
if( ADD,SUB )
CC: X=C set if carry[borrow] generated else cleared; V set if overflow else cleared; Z set if result zero else cleared;
N set if result negative else cleared
else if( AND,OR )
CC: X not affected; C cleared; V cleared; Z set if zero else clear; N set if MSB set else cleared
save result to (ea) from ir[11:9]: Dn
update PC
if( (ir[15:12] == 4'b1011) && (ir[8:6] == 3'b000 || 3'b001 || 3'b010) )
CMP
+++
load (ea) from ir[5:0] to operand1: all modes
all modes: Dn 000, An (word, long) 001, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
move operand1 to operand2
load (ea) from ir[11:9] to operand1: Dn
ALU operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
perform ALU operation:
if( ir[15:12] == 4'b1011 ) CMP=SUB
CC: X not affected; C set if borrow else cleared; V set if overflow else cleared; Z set if zero else cleared; N set if negative else cleared
update PC
if( (ir[15:12] == 4'b1100 || 4'b1000) && ir[7:6] == 2'b11 )
MULS,MULU,DIVS,DIVU
+++
load (ea) from ir[5:0] to operand1: data
data: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
move operand1 to operand2
load (ea) from ir[11:9] to operand1: Dn
perform ALU operation:
if( ir[15:12] == 4'b1100 && ir[8] == 1'b0 ) MULU
else if( ir[15:12] == 4'b1100 && ir[8] == 1'b1 ) MULS
else if( ir[15:12] == 4'b1000 && ir[8] == 1'b0 ) DIVU
else if( ir[15:12] == 4'b1000 && ir[8] == 1'b1 ) DIVS
if( MULU/MULS )
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
else if( DIVU/DIVS )
CC: X not affected; C cleared; V set if overflow else if trap undefined else cleared;
Z set if quotient zero else if trap or overflow undefined else cleared;
N set if quotient negative else if trap or overflow undefined else cleared;
save result to (ea) from ir[11:9]: Dn
update PC
if( (ir[15:12] == 4'b1101 || 4'b1001) && (ir[8:6] == 3'b011 || 3'b111) )
ADDA,SUBA
+++
load (ea) from ir[5:0] to operand1: all modes
all modes: Dn 000, An (word, long) 001, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
move operand1 to operand2
load (ea) from ir[11:9] to operand1: An
ALU operation size, source is sign-extended:
if( ir[8] == 1'b0 ) word
else if( ir[8] == 1'b1 ) long
perform ALU operation:
if( ir[14:12] == 3'b101 ) ADD
else if( ir[14:12] == 3'b001 ) SUB
CC: not affected
save result sign-extended to (ea) from ir[11:9]: An
update PC
if( (ir[15:12] == 4'b1011) && (ir[8:6] == 3'b011 || 3'b111) )
CMPA
+++
load (ea) from ir[5:0] to operand1: all modes
all modes: Dn 000, An (word, long) 001, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
move operand1 to operand2
load (ea) from ir[11:9] to operand1: An
ALU operation size, source is sign-extended:
if( ir[8] == 1'b0 ) word
else if( ir[8] == 1'b1 ) long
perform ALU operation:
if( ir[14:12] == 3'b011 ) CMP==SUB
CC: X not affected; C set if borrow else cleared; V set if overflow else cleared; Z set if zero else cleared; N set if negative else cleared
update PC
if( ((ir[15:12] == 4'b1100 || 4'b1000) && ir[8:4] == 5'b10000) || ((if[15:12] == 4'b1101 || 4'b1001) && (ir[8:4] == 5'b10000 || 5'b10100 || 5'b11000) )
ABCD,SBCD,ADDX,SUBX
+++
load (ea) from ir[2:0] to operand1: Dn (ir[3] == 1'b0), -(An) (ir[3] == 1'b1)
move operand1 to operand2
load (ea) from ir[11:9] to operand1: Dn (ir[3] == 1'b0), -(An) (ir[3] == 1'b1)
ALU operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
perform ALU operation:
if( ir[14:12] == 3'b100 ) ABCD
else if( ir[14:12] == 3'b000 ) SBCD
else if( ir[14:12] == 3'b101 ) ADDX
else if( ir[14:12] == 3'b001 ) SUBX
if( ir[12] == 1'b0 /ABCD,SBCD/ )
CC: X=C set if decimal carry [borrow] else cleared; Z cleared if result nonzero else unchanged; N,V undefined
else
CC: X=C set if carry[borrow] else cleared; V set if overflow else cleared; Z cleared if nonzero else unchanged; N set if negative else cleared
save result to (ea) from ir[11:9]: Dn (ir[3] == 1'b0), -(An) (ir[3] == 1'b1)
update PC
if( ir[15:12] == 4'b1110 && ir[7:6] == 2'b11 && ir[11] == 1'b0 )
ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR all memory
+++
load (ea) from ir[5:0] to operand1: memory alter
memory alter: (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
load 1'b1 to operand2
ALU operation size: word
ALU shift/rotate direction:
if( ir[8] == 1'b0 ) right
else if( ir[8] == 1'b1 ) left
perform ALU operation:
if( ir[10:9] == 2'b00 ) ASL/ASR
else if( ir[10:9] == 2'b01 ) LSL,LSR
else if( ir[10:9] == 2'b11 ) ROL,ROR
else if( ir[10:9] == 2'b10 ) ROXL,ROXR
CC: X set to last bit, unchanged if zero shift[same][not affected][same set]; N set if MSB bit is set else cleared; Z set if zero else cleared;
V set if MSB bit changed during shift else cleared[cleared][cleared][cleared]; C set to last bit, cleared if zero shift[same][same][set to X]
save result to (ea) from ir[5:0]: memory alter
memory alter: (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
update PC
if( ir[15:12] == 4'b1110 && (ir[7:6] == 2'b00 || 2'b01 || 2'b10) )
ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR all immediate/register
+++
load (ea) from ir[11:9] to operand1: Dn
move operand1 to operand2
load (ea) from ir[2:0] to operand1: Dn
if( ir[5] == 1'b0 )
if( ir[11:9] == 3'b000 ) load 4'b1000 to operand2
else load ir[11:9] to operand2
else if( ir[5] == 1'b1 )
perform operand2 modulo 64
ALU operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
ALU shift/rotate direction:
if( ir[8] == 1'b0 ) right
else if( ir[8] == 1'b1 ) left
perform ALU operation:
if( ir[4:3] == 2'b00 ) ASL/ASR
else if( ir[4:3] == 2'b01 ) LSL,LSR
else if( ir[4:3] == 2'b11 ) ROL,ROR
else if( ir[4:3] == 2'b10 ) ROXL,ROXR
CC: X set to last bit, unchanged if zero shift[same][not affected][same set]; N set if MSB bit is set else cleared; Z set if zero else cleared;
V set if MSB bit changed during shift else cleared[cleared][cleared][cleared]; C set to last bit, cleared if zero shift[same][same][set to X]
save result to (ea) from ir[2:0]: Dn
update PC
if( ir[15:12] == 4'b0111 && ir[8] == 1'b0 )
MOVEQ
+++
load ir[7:0] sign-extended to result register
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
save result to (ea) from ir[11:9]: Dn
update PC
if( ir[15:12] == 4'b0110 && ir[11:8] == 4'b0001 )
BSR
+++
CC: not affected
SP -= 4
move PC to operand1
move operand1 to result
save result to (ea): (SP)
if( ir[7:0] == 8'b0 )
add to PC: ir1[15:0]
else
add to PC: ir[7:0]
return
if( ir[15:12] == 4'b0110 && ir[11:8] != 4'b0001 )
Bcc,BRA
+++
condition: high(!C & !Z) 0010, low or same(C | V) 0011,
carry clear(!C) 0100, carry set(C) 0101, not equal(Z) 0110, equal(!Z) 0111,
overflow clear(!V) 1000, overflow set(V) 1001, plus(!N) 1010, minus(N) 1011,
greater or equal(N & V | !N & !V) 1100, less than(N & !V | !N & V) 1101,
greater than(N & V & !Z | !N & !V & !Z) 1110, less or equal(Z | N & !V | !N & V) 1111
CC: not affected
if( contidtion on ir[11:8] true )
if( ir[7:0] == 8'b0 )
add to PC: ir1[15:0]
else
add to PC: ir[7:0]
return
update PC
if( ir[15:12] == 4'b0101 && ir[7:6] == 2'b11 && ir[5:3] != 2'b001 )
Scc
+++
condition: true(1) 0000, false(0) 0001, high(!C & !Z) 0010, low or same(C | V) 0011,
carry clear(!C) 0100, carry set(C) 0101, not equal(Z) 0110, equal(!Z) 0111,
overflow clear(!V) 1000, overflow set(V) 1001, plus(!N) 1010, minus(N) 1011,
greater or equal(N & V | !N & !V) 1100, less than(N & !V | !N & V),
greater than(N & V & !Z | !N & !V & !Z), less or equal(Z | N & !V | !N & V) 1111
if( contidtion on ir[11:8] false )
load 8'b00000000 to result
else
load 8'b11111111 to result
operation size: byte
save result to (ea) from ir[5:0]: data alter.
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
CC: not affected
update PC
if( ir[15:12] == 4'b0101 && ir[7:6] == 2'b11 && ir[5:3] == 2'b001 )
DBcc
+++
condition: true(1) 0000, false(0) 0001, high(!C & !Z) 0010, low or same(C | V) 0011,
carry clear(!C) 0100, carry set(C) 0101, not equal(Z) 0110, equal(!Z) 0111,
overflow clear(!V) 1000, overflow set(V) 1001, plus(!N) 1010, minus(N) 1011,
greater or equal(N & V | !N & !V) 1100, less than(N & !V | !N & V),
greater than(N & V & !Z | !N & !V & !Z), less or equal(Z | N & !V | !N & V) 1111
CC: not affected
if( condition on ir[11:8] false )
load (ea) from ir[2:0] to operand1: Dn
load 1'b1 to operand2
ALU operation size: word
perform ALU operation: SUB
save result to (ea) from ir[2:0]: Dn
if( result != -1 )
add to PC: ir1[15:0]
return
update PC
if( ir[15:12] == 4'b0101 && ir[7:6] != 2'b11 && ir[5:3] != 3'b001 )
ADDQ,SUBQ not An
+++
if( ir[11:9] == 3'b000 )
load 4'b1000 to operand2
else
load ir[11:9] to operand2
load (ea) from by ir[5:0] to operand1: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
ALU operation size:
if( ir[7:6] == 2'b10 ) long
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b00 ) byte
perform ALU operation:
if( ir[8] == 1'b0 ) ADDQ
else if( ir[8] == 1'b1 ) SUBQ
CC: X=C set if carry[borrow] generated else cleared; V set if overflow else cleared; Z set if result zero else cleared;
N set if result negative else cleared
save result to (ea) from ir[5:0]
update PC
if( ir[15:12] == 4'b0101 && ir[7:6] != 2'b11 && ir[5:3] == 3'b001)
ADDQ,SUBQ An
+++
if( ir[11:9] == 3'b000 )
load 4'b1000 to operand2
else
load ir[11:9] to operand2
load (ea) from by ir[2:0] to operand1: An
ALU operation size: long
perform ALU operation:
if( ir[8] == 1'b0 ) ADD
else if( ir[8] == 1'b1 ) SUB
CC: not affected
save result to (ea) from ir[2:0]: An
update PC
if( ir[15:0] == 16'b0100 1110 0111 0001 )
NOP
+++
CC: not affected
update PC
if( ir[15:0] == 16'b0100 1110 0111 0000 )
RESET
+++
hold REST output for 124 clock cycles
CC: not affected
update PC
if( ir[15:0] == 16'b0100 1110 0111 0010 )
STOP
+++
copy ir1[15:0] to SR
Resume when trace, interrupt or rest.
if( ir[15:5] == 12'b0100 1110 0100 )
TRAP
+++
TRAP with vector indexed by ir[3:0]
CC: not affected
if( ir[15:0] == 16'b0100 1110 0111 0110 )
TRAPV
+++
if( V ) TRAP
CC: not affected
update PC
if( ir[15:0] == 16'b0100 1110 0111 0011 || ir[15:0] == 16'b0100 1110 0111 0111 )
RTE,RTR
+++
load (ea) to operand1: (SP)
perform ALU operation:
if(ir[2] == 1'b0) move operand1 to SR
else if(ir[2] == 1'b1) move operand1 to CCR
SP += 2
load (ea) to operand1: (SP)
move operand1 to result
move result to PC
SP += 4
if( ir[15:0] == 16'b0100 1110 0111 0101 )
RTS
+++
load (ea) to operand1: (SP)
move operand1 to result
move result to PC
SP += 4
if( ir[15:6] == 10'b0100 1110 11 )
JMP
+++
load (ea) from ir[5:0] to operand1: control
control: (An) 010, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
perform ALU operation: move operand1 to result
copy result register to PC
CC: not affected
if( ir[15:6] == 10'b0100 1110 10 )
JSR
+++
SP -= 4
move PC to operand1
move operand1 to result
save result to (ea): (SP)
load (ea) from ir[5:0] to operand1: control
control: (An) 010, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
perform ALU operation: move operand1 to result
copy result register to PC
CC: not affected
if( ir[15:3] == 13'b0100 1110 0101 0 )
LINK
+++
SP -= 4
load (ea) from ir[2:0] to operand1: An
perform ALU operation: move operand1 to result
save result to (ea): (SP)
load (ea) to operand1: SP
move operand1 to result
save result to (ea) from ir[2:0]: An
add to SP: ir1[15:0]
CC: not affected
update PC
if( ir[15:3] == 13'b0100 1110 0101 1 )
ULNK
+++
load (ea) from ir[2:0] to operand1: An
perform ALU operation: move operand1 to result
save result to (ea): SP
load ea to operand1: (SP)
move operand1 to result
save result to (ea) from ir[2:0]: An
SP += 4
CC: not affected
update PC
if( ir[15:8] == 8'b0100 1010 && ir[7:6] != 2'b11 )
TST
+++
ea operation size:
if( ir[7:6] == 2'b00 ) byte
else if( ir[7:6] == 2'b01 ) word
else if( ir[7:6] == 2'b10 ) long
load (ea) from ir[5:0] to operand1: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
perform ALU TST operation: set CC
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if MSB bit set else cleared
update PC
if( ir[15:6] == 10'b0100 1010 11 && ir[5:0] != 6'b111000 )
TAS
+++
ea operation size: byte
enable READ-MODIFY-WRITE bus cycle
load (ea) from ir[5:0] to operand1: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
perform ALU TAS operation: set bit 7 in result register
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if MSB bit set else cleared
save result to (ea) from ir[5:0]: data alter
disable READ-MODIFY-WRITE bus cycle
update PC
if( ir[15:12] == 4'b0100 && ir[8:6] == 3'b110 )
CHK
+++
load (ea) from ir[5:0] to operand1: data
data: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
move operand1 to operand2
load (ea) from ir[11:9] to operand1: Dn
ALU operation size: word
perform ALU CHK operation: operand1 < 0 or operand1 - operand2 > 0
CC: X not affected; N set if operand1 < 0; cleared if operand1 - operand2 > 0 else undefined; C,V,Z udefined
if( ALU check ) trap CHK
update PC
if( ir[15:12] == 4'b0100 && ir[8:6] == 3'b111 )
LEA
+++
load ea from ir[5:0] to address register: control
control: (An) 010, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
move address register to operand1
perform ALU operation: move operand1 to result register
save result to (ea) from ir[11:9]: An
CC: not affected
update PC
if( ir[15:6] == 10'b0100 1000 01 && ir[5:3] != 3'b000 )
PEA
+++
load ea from ir[5:0] to address register: control
control: (An) 010, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
SP -= 4
move address register to operand1
move operand1 to result
save result to (ea): (SP)
CC: not affected
update PC
if( ir[15:6] == 10'b0100 0100 11 || ir[15:6] == 10'b0100 0110 11 )
MOVE TO CCR, MOVE TO SR
+++
ea operation size: word
load (ea) from ir[5:0] to operand1: data
data: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
if( ir[11:8] == 4'b0110 /MOVE TO SR/ )
copy word form operand1 register to SR
else
copy lower byte form operand1 register to CCR
update PC
if( ir[15:6] == 10'b0100 0000 11 )
MOVE FROM SR
+++
copy SR register to result register
ea operation size: word
save result to (ea) from ir[5:0]: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
CC: not affected
update PC
if( ir[15:3] == 12'b0100 1110 0110 0 )
MOVE USP to USP
+++
load (ea) from ir[2:0] to operand1: An
perform ALU operation: move operand1 to result
move result to USP
CC: not affected
update PC
if( ir[15:3] == 13'b0100 1110 0110 1 )
MOVE USP to An
+++
move USP to operand1
perform ALU operation: move operand1 to result
save result to (ea) from ir[2:0]: An
CC: not affected
update PC
if( ir[15:12] == 4'b0100 && ( (ir[11:8] == 4'b0000 && ir[7:6] != 2'b11) || (ir[11:8] == 4'b0010) || (ir[11:8] == 4'b0100 && ir[7:6] != 2'b11) ||
(ir[11:8] == 4'b0110 && ir[7:6] != 2'b11) || (ir[11:6] == 6'b1000 00) ) )
+++
NEGX,CLR,NEG,NOT,NBCD
load (ea) from ir[5:0] to operand1: data alter
data alter: Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
ALU operation size:
NEGX: ir[7:6]: 00,01,10 byte,word,long
CLR: ir[7:6]: 00,01,10 byte,word,long
NEG: ir[7:6]: 00,01,10 byte,word,long
NOT: ir[7:6]: 00,01,10 byte,word,long
NBCD: ir[7:6]: 00 byte
perform ALU operation:
NEGX: ir[11:8] == 4'b0000
CLR: ir[11:8] == 4'b0010
NEG: ir[11:8] == 4'b0100
NOT: ir[11:8] == 4'b0110
NBCD: ir[11:6] == 6'b1000 00
CC:
NEGX: X=C set if borrow else clear; V set if overflow else clear; Z cleared if nonzero else unchanged; N set if negative else clear
CLR: X not affected; C cleared; V cleared; Z set; N cleared
NEG: X=C clear if zero else set; V set if overflow else clear; Z set if zero else clear; N set if negative else clear
NOT: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
NBCD: X=C set if decimal borrow else cleared; Z cleared if nonzero else unchanged; N,V undefined
save result to (ea) from ir[5:0]: data alter
update PC
if( ir[15:12] == 4'b0100 && (ir[11:3] == 9'b1000 01 000 || (ir[11:7] == 5'b1000 1 && ir[5:3] == 3'b000) )
SWAP,EXT
+++
load (ea) from ir[5:0] to operand1: Dn
ALU operation size: word
SWAP: ir[7:6]: 01 long
EXT: ir[7:6]: 10,11 byte to word, word to long
perform ALU operation:
SWAP: ir[11:6] == 6'b1000 01
EXT: ir[11:7] == 5'b1000 1
CC:
SWAP: X not affected; C cleared; V cleared; Z set if 32 bits are zero else cleared; N set if result MSB set else cleared
EXT: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
save result to (ea) from ir[5:0]: Dn
update PC
if( ir[15:7] == 9'b0100 1100 1 && ir[5:3] != 3'b000 )
MOVEM memory to register
+++
operation size:
if( ir[6] == 1'b0 ) word
else if ir[6] == 1'b1 ) long
load ea from ir[5:0] to address register: control or postincrement
(An) 010, (An)+ 011, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
register selection order: D0,D1,...D7,A0,A1,...,A7
do
if( ir1[0] == 1'b1 )
read from (ea) to operand1
perform ALU operation: move operand1 with sign-extension to result
save result to selected register
update address register
shift ir1
loop 16 times
if( ir[5:3] == 3'b011 ) save address register back to An indexed by ir[2:0]
CC: not affected
update PC
if( ir[15:7] == 9'b0100 1000 1 && ir[5:3] == 3'b100 )
MOVEM register to memory, predecrement
+++
operation size:
if( ir[6] == 1'b0 ) word
else if ir[6] == 1'b1 ) long
load ea from ir[5:0] to address register: control alter or predecrement
(An) 010, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
register selection order: A7,A6,..A0,D7,D6,....D0
do
if( ir1[0] == 1'b1 )
save selected register to operand1
perform ALU operation: move operand1 to result
save result to (ea)
update address register
shift ir1
loop 16 times
if( ir[5:3] == 3'b100 ) save address register back to An indexed by ir[2:0]
CC: not affected
update PC
if( ir[15:7] == 9'b0100 1000 1 && ir[5:3] != 3'b000 && ir[5:3] != 3b100 )
MOVEM register to memory, control
+++
operation size:
if( ir[6] == 1'b0 ) word
else if ir[6] == 1'b1 ) long
load ea from ir[5:0] to address register: control alter or predecrement
(An) 010, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
register selection order: D0,D1,...D7,A0,A1,...,A7
do
if( ir1[0] == 1'b1 )
save selected register to operand1
perform ALU operation: move operand1 to result
save result to (ea)
update address register
shift ir1
loop 16 times
CC: not affected
update PC
*/
/*
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
microinstructions
MOVE_ea_reg_TO_An_address
MOVE_ea_reg_TO_Dn_address
MOVE_ir1_brief_ext_TO_An_Dn_addresses // ir_valid
MOVE_An_output_TO_address
MOVE_Dn_output_TO_OP1
MOVE_An_output_TO_OP1
MOVE_zeros_TO_index
MOVE_ir1_brief_ext_TO_index // ir_valid
MOVE_ir1_byte_TO_offset // ir_valid
MOVE_ir1_word_TO_offset // ir_valid
MOVE_base_index_offset_TO_address
MOVE_ir1_absolute_word_TO_address // ir_valid
MOVE_ir1_ir2_absolute_long_TO_address // ir_valid
MOVE_pc_index_offset_TO_address
MOVE_trap_TO_address
MOVE_result_TO_An_input
MOVE_result_TO_Dn_input(size=)
MOVE_address_TO_An_input
MOVE_result_TO_data
MOVE_OP1_TO_OP2
MOVE_OP2_TO_OP1
MOVE_ADDR_TO_OP1
MOVE_data_TO_OP1
MOVE_immediate_TO_OP1(size=)
MOVE_result_TO_OP1
MOVE_moveq_TO_OP1
MOVE_PC_NEXT_TO_OP1
MOVE_zeros_TO_OP1
MOVE_ones_TO_OP1
MOVE_SR_TO_OP1
MOVE_USP_TO_OP1
MOVE_ir_TO_OP1
MOVE_address_bus_info_TO_OP2
MOVE_1_TO_OP2
MOVE_offset_TO_OP2
MOVE_count_TO_OP2
MOVE_addq_subq_TO_OP2
MOVE_result_TO_PC
MOVE_result_TO_USP
MOVE_zeros_TO_movem_mod_reg
MOVE_001111_TO_movem_mod_reg
MOVE_OP1_TO_movem_reg
MOVE_zeros_TO_movem_loop
MOVE_prefetch_ir_TO_ir
MOVE_interrupt_mask_TO_sr
MOVE_1_0_supervisor_trace_TO_sr
MOVE_reset_mask_TO_sr
MOVE_prefetch_ir_TO_PC
MOVE_prefetch_ir_TO_SSP
MOVE_illegal_instr_TO_TRAP
MOVE_divide_by_zero_TO_TRAP
MOVE_chk_TO_TRAP
MOVE_trapv_TO_TRAP
MOVE_priv_viol_TO_TRAP
MOVE_trap_TO_TRAP
MOVE_decoder_trap_TO_TRAP
MOVE_trace_TO_TRAP
MOVE_interrupt_trap_TO_TRAP
MOVE_0_TO_stop_flag
MOVE_1_TO_stop_flag
MOVE_sr15_TO_trace_flag
MOVE_0_TO_group_0_flag
MOVE_1_TO_group_0_flag
MOVE_0_TO_read_modify_write_flag
MOVE_1_TO_read_modify_write_flag
MOVE_0_TO_instruction_flag
MOVE_1_TO_instruction_flag
MOVE_1_TO_blocked_flag
MOVE_0_TO_read_flag
MOVE_1_To_read_flag
MOVE_0_TO_write_flag
MOVE_1_TO_write_flag
MOVE_0_TO_interrupt_flag
MOVE_1_TO_interrupt_flag
MOVE_1_TO_reset_flag
MOVE_0_TO_reset_flag
INCR_ADDR_BY_SIZE(size=)
DECR_ADDR_BY_SIZE(size=)
DECR_OP2_BY_1
CALL procedure
RETURN
INCR_movem_loop_BY_1
INCR_movem_mod_reg_BY_1
DECR_movem_mod_reg_BY_1
JMP: local label, trap, instr_fin, instr_fin_pc_loaded,
SHIFT_RIGHT_movem_reg
INCR_PC_BY_2
INCR_PC_BY_4
INCR_PC_BY_size(size=)
BRANCH(movem_loop == 4'b1000)
BRANCH(movem_reg[0] == 0)
BRANCH(operand2[5:0] == 6'b0)
BRANCH(special == 2'b01)
BRANCH(special == 2'b10)
BRANCH(condition == 1'b0)
BRANCH(condition == 1'b1)
BRANCH(result[15:0] == 16'hFFFF)
BRANCH(V == 1'b0)
BRANCH(stop_flag == 1'b1)
BRANCH(ir[7:0] != 8'b0)
BRANCH(decoder_trap == 8'b0)
BRANCH(trace_flag == 1'b0)
BRANCH(group_0_flag == 0)
WAIT_RESET, WAIT_MEMORY_READ(size, address), WAIT_MEMORY_WRITE(size, address, select), WAIT_interrupt, WAIT_blocked
WAIT_prefetch_ir_valid
subprocedures:
ea(size=, reg=, mod=, type=, select=)
LOAD_EA: to address register
PERFORM_EA_READ: to operand1
PERFORM_EA_WRITE: from result
SAVE_EA
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
TYPE.ALL: all
Dn 000, An (word, long) 001, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
TYPE.CONTROL_POSTINC: control or postincrement
(An) 010, (An)+ 011, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
TYPE.CONTROLALTER_PREDEC: control alter or predecrement
(An) 010, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
TYPE.CONTROL: control
(An) 010, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, (d16, PC) 111 010, (d8, PC, Xn) 111 011
TYPE.DATAALTER: data alter
Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
TYPE.DN_AN: Dn, An
Dn 000, An 001
TYPE.MEMORYALTER: memory alter
(An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
TYPE.DATA: data
Dn 000, (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001, #data 111 100, (d16, PC) 111 010, (d8, PC, Xn) 111 011
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