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<h1>MC68000 notes </h1> </div>
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<div class="fragment"><pre class="fragment">Registers:
D0,D1,D2,D3,D4,D5,D6,D7 32-bit
A0,A1,A2,A3,A4,A5,A6 32-bit
A7 USP 32-bit
A7' SSP 32-bit
PC 32-bit
CCR condition code reg, SR status register 8-bit User, 16-bit Supervisor
Address registers:
base address registers, word and long-word operations,
operations always affect 32-bits, word operations sign-extended
All 16: index registers
SR
Condition Code Register:
0: C Carry
1: V Overflow
2: Z Zero
3: N Negative
4: X Extend
Status register:
8-10: I Interrupt mask
13: S Supervisor
15: T Trace mode
MC68000 Addressing modes
Number of extension words
Register Direct Addressing
Data Register Direct <ea> = Dn 0
Address Register Direct <ea> = An 0
Absolute Data Addressing
Absolute Short <ea> = (Next Word) 1
Absolute Long <ea> = (Next Two Words) 2
Program Counter Relative Addressing
Relative with Offset <ea> = (PC + d16) 1
Relative with Index and Offset <ea> = (PC + Rn + d8) 1*
Register Indirect Addressing
Register Indirect <ea> = (An) 0
Postincrement Register Indirect <ea> = (An), An <- An + N 0
Predecrement Register Indirect An <- An–N, <ea> = (An) 0
Register Indirect with Offset <ea> = (An + d16) 1
Indexed Register Indirect with Offset <ea> = (An + Rn + d8) 1*
Immediate Data Addressing
Immediate DATA = Next Word(s) 1 or 2
Quick Immediate Inherent Data 0
Implied Addressing
Implied Register <ea> = SR, USP, SSP, PC 0
N = 1 for byte, 2 for word, and 4 for long word. If An is the stack pointer and
the operand size is byte, N = 2 to keep the stack pointer on a word
boundary.
1*: format of brief extension word
Data/Address(1 bit) Rn(3 bits) word/long(1 bit) 000 d8(8 bits)
word/long: size of sign-extended index register
Exceptions
0 Reset: Initial SSP (Supervisor Program Space)
1 Reset: Initial PC (Supervisor Program Space)
2 Bus Error From external logic
3 Address Error Odd address fetch
4 Illegal Instruction $4AFA, $4AFB, $4AFC
5 Zero Divide
6 CHK Instruction Trap check bounds
7 TRAPV Instruction Trap overflow
8 Privilege Violation
9 Trace
10 Line 1010 Emulator Illegal instruction
11 Line 1111 Emulator Illegal instruction
12-14 RESERVED
15 Uninitialized Interrupt Vector Default for uninitialized ext hw
16-23 RESERVED
24 Spurious Interrupt Bus error while int ack cycle
25 Level 1 Interrupt Autovector
26 Level 2 Interrupt Autovector
27 Level 3 Interrupt Autovector
28 Level 4 Interrupt Autovector
29 Level 5 Interrupt Autovector
30 Level 6 Interrupt Autovector
31 Level 7 Interrupt Autovector
32-47 Trap Instruction Vectors Trap instruction
48-63 RESERVED
64-255 User Interrupt Vectors
Ack cycle: DACK + vector number, VPA, AVEC, BERR
Privilege violations: PC address current
AND Immediate to SR
EOR Immediate to SR
OR Immediate to SR
MOVE to SR?
MOVE USP
RESET
RTE
STOP
Tracing
Not: when interrupt, illegal, privileged, reset, bus error, address error
Before: pending interrupt
After: instruction generated exception
Stack Frame
Reset:
None
Bus/Address error:
00. reset, 01. address error, 02. bus error: immediate reaction: abort current bus cycle, abort instruction or exception processing
if bus error/address error while address error,bus error or reset: block processor
address error: access word or long operand or instruction from odd address
bus error: BERR
processing an instruction: normal state or in group 2 exception
not processing an instruction: group 0 or 1 exception
Stack frame:
Undefined 11 bits, Read/Write bit 4, Instruction/Not bit 3, Function code bits 2-0,
Access address 32 bits,
Instruction register 16 bits,
Status register 16 bits,
Program counter 32 bits
Rest:
Status register, Program counter
Processing sequence
From TRAP: 1 -> S-bit of SR; SSP -= 4; PC -> (SSP); SSP -= 2; SR -> (SSP)
From ILLEGAL: SSP -= 4; PC -> (SSP); SSP -= 2; SR -> (SSP)
Copy status register
Enter Supervisor mode
Turn off tracing
Reset, interrupt exceptions: update interrupt priority mask
Determine vector number
Save on stack using SSP
PC value in exceptions:
usualy: trap: trace: interrupt: with address of next instruction,
address and bus errors: advanced 2-10 bytes after first word of current instruction
privilege violation: illegal: address of first word of current instruction
Without:
- Function Codes
- Bus arbitration
- Synchronous 6800 bus cycles
Operation code map:
0000 Bit Manipulation/MOVEP/Immediate
0001 Move Byte
0010 Move Long
0011 Move Word
0100 Miscellaneous
0101 ADDQ/SUBQ/Scc/DBcc/TRAPc
0110 Bcc/BSR/BRA
0111 MOVEQ
1000 OR/DIV/SBCD
1001 SUB/SUBX
1010 (Unassigned, Reserved)
1011 CMP/EOR
1100 AND/MUL/ABCD/EXG
1101 ADD/ADDX
1110 Shift/Rotate/Bit Field
1111 Coprocessor Interface/MC68040 and CPU32 Extensions
*******************************************************************************************************************************************
*******************************************************************************************************************************************
*******************************************************************************************************************************************
*******************************************************************************************************************************************
* add, sub
*******************************************************************************************************************************************
*
ABCD Add Decimal with Extend
[SBCD Subtract Decimal with Extend]
Destination10 +[-] Source10 +[-] X -> Destination
Byte operation, packed BCD
CC: X=C set if decimal carry [borrow] else cleared; Z cleared if result nonzero else unchanged; N,V undefined
1100[1000] Ry dest(3 bits) 1 0000 R/M Rx source(3 bits)
R/M = 0 data registers, 1 = address registers predecrement: -(An)
*
ADD Add
[SUB Subtract]
Destination +[-] Source -> Destination
Byte, Word, Long
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
1101[1001] register(3 bits) opmode(3 bits) ea mode register (3,3 bits)
register: data reg
opmode: 000,001,010 byte,word,long: ea +[-] Dn -> Dn; 100, 101, 110 byte,word,long: Dn +[-] ea -> ea
ea source, 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
ea dest, memory alter: (An) 010, (An)+ 011, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001
*
ADDA Add Address
[SUBA Subtract Address]
Destination +[-] Source -> Destination
Word, Long
CC: not affected
1101[1001] register(3 bits) opmode(3 bits) ea mode register(3,3 bits)
register: destination An
opmode: 011 word operation sign extended to 32 bits; 111 long operation
ea source, all modes.
*
ADDI Add Immediate
[SUBI Subtract Immediate]
Destination +[-] Immediate data -> Destination
Byte, Word, Long
CC: same as ADD
0000 0110[0100] size(2 bits) ea mode register(3,3 bits); imm16 next word, imm8 lower order byte of next word, imm32 two next words
size: 00,01,10 byte,word,long
ea dest, 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,
*
ADDQ Add Quick
[SUBQ Subtract Quick]
Destination +[-] Immediate data -> Destination
Byte, Word, Long
CC: same as ADD,ADDA; not affected when destiantion is An
0101 data(3 bits) 0[1] size(2 bits) ea mode register (3,3 bits)
data: immediate data: 0=8, 1=1, ..., 7=7
size: 00,01,10 byte,word,long
ea dest, alter: 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,
*
ADDX Add with Extend
[SUBX Subtract with Extend]
Destination +[-] Source +[-] X -> Destination
Byte, Word, Long
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
1101[1001] Ry dest(3 bits) 1 size(2 bits) 00 R/M Rx source(3 bits)
R/M = 0 data registers, 1 = address registers predecrement: -(An)
size: 00,01,10 byte,word,long
*******************************************************************************************************************************************
* cmp
*******************************************************************************************************************************************
*
CMP Compare
Destination - Source -> CC
Byte, Word, Long
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
1011 register(3 bits) opmode(3 bits) ea mode register(3,3 bits)
register: destination Dn
opmode: 000,001,010 byte,word,long: Dn - ea
ea source, all modes.
*
CMPA Compare Address
Destination - Source -> CC
CC: same as CMP
1011 register(3 bits) opmode(3 bits) ea mode register(3,3 bits)
register: destination An
opmode: 011 word operation sign extended to 32 bits; 111 long operation
ea source, all modes.
*
CMPI Compare Immediate
Destination - Immediate Data -> CC
Byte, Word, Long
CC: same as CMP
0000 1100 size(2 bits) ea mode register(3,3 bits); imm16 next word, imm8 lower order byte of next word, imm32 two next words
size: 00,01,10 byte,word,long
ea dest, data alter.
*
CMPM Compare Memory to Memory
Destination - Source -> CC
Byte, Word, Long
CC: same as CMP
1011 Ax dest(3 bits) 1 size(2 bits) 00 1 Ay source(3 bits)
Ax dest, Ay source: postincrement: +(An)
size: 00,01,10 byte,word,long
*******************************************************************************************************************************************
* mul, div
*******************************************************************************************************************************************
*
MULS Signed Multiply
[MULU Unsigned Multiply]
Source x Destination -> Destination
Word operation: source and dest 16 bit lower order -> destination 32 bit
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
1100 Dn dest(3 bits) 1[0] 11 ea mode register(3,3 bits)
ea source, 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
*
DIVS Signed Divide
[DIVU Unsigned Divide]
Destination / Source -> Destination
Word operation: dest 32 bits, source 16 bits -> 16 bit MSB remainder, 16 bit LSB quotient, sign of remainder = sign of dividend
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;
Z set if quotient negative else if trap or overflow undefined else cleared;
1000 Dn dest(3 bits) 1[0] 11 ea mode register(3,3 bits)
ea source, data.
Overflow: if quotient larger than a 16-bit signed integer.
Division by 0: trap.
If overflow detected: operands unaffected.
*******************************************************************************************************************************************
* ext, neg
*******************************************************************************************************************************************
*
EXT Sign Extend
Destination sign-extended -> Destination
Word, Long
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
0100 100 opmode(3 bits) 00 0 Dn dest(3 bits)
opmode: 010,011 byte to word, word to long
*
NEGX Negate with Extend
0 - Destination - X -> Destination
Byte, Word, Long
CC: X=C set if borrow else clear; V set if overflow else clear; Z set if nonzero else unchanged; N set if negative else clear
0100 0000 size(2 bits) ea mode register(3,3 bits)
size: 00,01,10 byte,word,long
ea dest, data alter.
*
NBCD Negate Decimal with Extend
0 - Destination10 - X -> Destination
Byte operation
CC: X=C set if decimal borrow else cleared; Z cleared if nonzero else unchanged; N,V undefined
0100 1000 00 ea mode register(3,3 bits)
ea dest, data alter.
*
NEG Negate
0 - Destination -> Destination
Byte, Word, Long
CC: 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
0100 0100 size(2 bits) ea mode register(3,3 bits)
size: 00,01,10 byte,word,long
ea dest, data alter.
*******************************************************************************************************************************************
* and,eor,or,not
*******************************************************************************************************************************************
*
AND Logical AND
[OR Logical Inclusive-OR]
Source &[|] Destination -> Destination
Byte, Word, Long: not on An
CC: X not affected; C cleared; V cleared; Z set if zero else clear; N set if MSB set else cleared
1100[1000] Dn register(3 bits) opmode(3 bits) ea mode register(3,3 bits)
opmode: 000,001,010 byte,word,long: ea & Dn -> Dn; 100,101,110 byte,word,long: Dn & ea -> ea
ea source, data.
ea dest, memory alter.
*
ANDI Logical AND Immediate
[EORI Logical Exclusive-OR Immediate]
[ORI Logical Inclusive-OR Immediate]
Immediate data &[^][|] Destination -> Destination
Byte, Word, Long
CC: X not affected; C cleared; V cleared; Z set if zero else clear; N set if MSB set else cleared
0000 0010[1010][0000] size(2 bits) ea mode register(3,3 bits); imm16 next word, imm8 lower order byte of next word, imm32 two next words
size: 00,01,10 byte,word,long
ea dest, data alter.
*
ANDI to CCR AND Immediate to Condition Code Register
[EORI to CCR Exclusive-OR Immediate to Condition Code Register]
[ORI to CCR Inclusive-OR Immediate to Condition Code Register]
Source &[^][|] CCR -> CCR
Byte operation
CC: result
0000 0010[1010][0000] 00 111 100; 0000 0000 data(8 bit)
*
ANDI to SR AND Immediate to Status Register/Privilege/
[EORI to SR Exclusive-OR Immediate to Status Register/Privilege/]
[ORI to SR Inclusive-OR Immediate to Status Register/Privilege/]
Source &[^][|] SR -> SR
Word operation
CC: result
0000 0010[1010][0000] 01 111 100; data(16 bit)
*
EOR Logical Exclusive-OR
Source ^ Destination -> Destination
Byte, Word, Long
CC: X not affected; C cleared; V cleared; Z set if zero else clear; N set if MSB set else cleared
1011 Dn source(3 bits) opmode(3 bits) ea mode register(3,3 bits)
opmode: 100,101,110 byte,word,long: ea ^ Dn -> ea
ea dest, data alter.
*
NOT Logical Complement
~ Destination -> Destination
Byte, Word, Long
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
0100 0110 size(2 bits) ea mode register(3,3 bits)
size: 00,01,10 byte,word,long
ea dest, data alter.
*******************************************************************************************************************************************
* shift,rotate
*******************************************************************************************************************************************
*
ASL, ASR Arithmetic Shift Left and Right
[LSL, LSR Logical Shift Left and Right]
[ROL, ROR Rotate Left and Right]
[ROXL, ROXR Rotate with Extend Left and Right]
Destination shifted[shifted][rotated][rotated with X] by count -> Destination
Byte, Word, Long, in memory: 1 bit shift[shift][rotate][rotate] and word
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]
1110 count/register(3 bits) dr(1 bit) size(2 bits) i/r(1 bit) 00[01][11][10] Dn dest(3 bit)
i/r = 0 count/register=count: 0=8, 1=1, ..., 7=7; i/r = 0 count/register=register: modulo 64
dr = 0 right shift; dr = 1 left shift
size: 00,01,10 byte,word,long
1110 000[001][011][010] dr(1 bit) 11 ea mode register(3,3 bits)
dr = 0 right shift; dr = 1 left shift
ea dest: memory alter.
*******************************************************************************************************************************************
* move,clr,exg,swap
*******************************************************************************************************************************************
*
MOVE Move
Source -> Destination
Byte, Word, Long
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
00 size(2 bits) ea dest register mode(3,3 bits) ea source mode register(3,3 bits)
size: 01,11,10 byte,word,long
ea dest, data alter.
ea source, all modes.
*
MOVEA Move Address
Source -> Destination
Word, Long
CC: not affected
00 size(2 bits) An dest(3 bits) 0 01 ea source mode register(3,3 bits)
size: 11,10 word,long: word operands are sign extended
ea source, all modes.
*
MOVE to CCR Move to Condition Code Register
Source -> CC
Word operation: upper byte ignored
0100 0100 11 ea source mode register(3,3 bits)
ea source, data.
*
MOVE from SR Move from Status Register
SR -> Destination
Word operation
CC: not affected
0100 0000 11 ea dest mode register(3,3 bits)
ea dest, data alter.
*
MOVE to SR Move to Status Register/Privileged/
Source -> SR
Word operation
CC: result
0100 0110 11 ea source mode register(3,3 bits)
ea source, data.
*
MOVE USP Move User Stack Pointer/Privileged/
USP -> An; An -> USP
Long operation
CC: not affected
0100 1110 0110 dr(1 bit) An reg(3 bits)
dr: 0 An -> USP; 1 USP -> An
*
MOVEM Move Multiple Registers
Registers -> Destination; Source -> Registers
Word, Long: word operations to An or Dn are sign extended
CC: not affected
0100 1 dr(1 bit) 00 1 size(1 bit) ea mode register(3,3 bits); register list mask
dr: 0 register to memory; 1 memory to register
size: 0,1 word,long operation
ea dest: register to memory, control alter or predecrement available:
(An) 010, -(An) 100, (d16, An) 101, (d8, An, Xn) 110,
(xxx).W 111 000, (xxx).L 111 001,
ea source: memory to register, control or postincrement available:
(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
list mask: control or postincrement: A7-A0, D7-D0; predecrement: D0-D7; A0-A7
*
MOVEP Move Peripheral
Source -> Destination
Word, Long
CC: not affected
0000 data reg(3 bits) opmode(3 bits) 00 1 address reg(3 bits); 16 bit displacement
opmode: 100,101 word,long: memory -> register; 110,111 word,long: register -> memory
address reg: (An, d16)
*
MOVEQ Move Quick
Immediate data -> Destination
Long operation; 8 bit data is sign extended to 32 bits
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if negative else cleared
0111 Dn dest(3 bits) 0 data(8 bits)
*
CLR Clear
0 -> Destination
Byte, Word, Long
CC: X not affected; C cleared; V cleared; Z set; N cleared
0100 0010 size(2 bits) ea dest mode register(3,3 bits)
size: 00,01,10 byte,word,long
ea dest, data alter.
*
EXG Exchange Registers
Rx <-> Ry
Long operation
CC: not affected
1100 Rx reg(3 bits) 1 opmode(5 bits) Ry reg(3 bits)
Rx reg: if Dn <-> An always Dn
Ry reg: if Dn <-> An always An
opmode: 01000 data regs; 01001 address regs; 10001 mix regs
*
SWAP Swap Register Words
Reg 31-16 <-> Reg 15-0
Word operation
CC: X not affected; C cleared; V cleared; Z set if 32 bits are zero else cleared; N set if result MSB set else cleared
0100 1000 0100 0 reg(3 bits)
*******************************************************************************************************************************************
* branch,jump
*******************************************************************************************************************************************
*
Bcc Branch Conditionally
if condition PC + d8/d16 -> PC
Byte, Word
CC: not affected
0110 condition(4 bits) disp8(8 bit); 16 bit displacement if disp8 == 0
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
*
BRA Branch
if condition PC + d8/d16 -> PC
Byte, Word
CC: not affected
0110 0000 disp8(8 bit); 16 bit displacement if disp8 == 0
*
BSR Branch to Subroutine
SP -= 4; PC -> (SP); PC + d8/d16 -> PC
Byte, Word
CC: not affected
0110 0001 disp8(8 bit); 16 bit displacement if disp8 == 0
*
DBcc Test Condition, Decrement, and Branch
if !condition { Dn(lower order 16 bits) -= 1; if Dn != -1 then PC + d16 -> PC }
Word operation
CC: not affected
0101 condition(4 bits) 1100 1 Dn register(3 bits); 16 bit displacement
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
*
JMP Jump
Destination address -> PC
Unsized
CC: not affected
0100 1110 11 ea mode register(3,3 bits)
ea, 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
*
JSR Jump to Subroutine
SP -= 4; PC -> (SP); Destination address -> PC
Unsized
CC: not affected
0100 1110 10 ea mode register(3,3 bits)
ea, control.
*
RTR Return and Restore
(SP) -> CC; SP += 2; (SP) -> PC; SP += 4
Unsized
CC: set from stack; supervisor bits unaffected
0100 1110 0111 0111
*
RTS Return from Subroutine
(SP) -> PC; SP += 4
Unsized
CC: not affected
0100 1110 0111 0101
*******************************************************************************************************************************************
* test bit,test,check
*******************************************************************************************************************************************
*
BCHG Test Bit and Change
[BCLR Test Bit and Clear]
[BSET Test Bit and Set]
[BTST Test Bit]
test( <number> of Destination ) -> Z; test( <number> of Destination )[0][1][nothing] -> <bit number> of Destination
Byte, Long
CC: X,N,V,C not affected; Z set if bit tested is zero else cleared
0000 Dn reg(3 bits) 101[110][111][100] ea mode register(3,3 bits)
Dn reg: bit number
ea dest, data alter.[same][same][data address]; Dn is long operation else byte operation
0000 1000 01[10][11][00] ea mode register(3,3 bits); 0000 0000 bit number(8 bits)
ea dest, data alter[same][same][data address]; Dn is long operation else byte operation
ea 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
*
Scc Set Conditionally
if condition 1s -> Destination else 0s -> Destination
Byte operation
CC: not affected
0101 condition(4 bits) 11 ea mode register(3,3 bits)
condition: same as in DBcc
ea dest, data alter.
*
TAS Test Operand and Set/Read-modify-write bus operation/
Destination tested -> CC; 1 -> bit 7 of destination
Byte operation
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if MSB bit set else cleared
0100 1010 11 ea mode register(3,3 bits)
ea operand, data alter.
*
TST Test Operand
Destination tested -> CC
Byte, Word, Long
CC: X not affected; C cleared; V cleared; Z set if zero else cleared; N set if MSB bit set else cleared
0100 1010 size(2 bits) ea mode register(3,3 bits)
size: 00,01,10 byte,word,long
ea operand, data alter.
*
CHK Check Register Against Bound
if Dn < 0 or Dn > Source then TRAP
Word operation
CC: X not affected; N set if Dn < 0; cleared if Dn > Source else undefined; C,V,Z udefined
0100 Dn reg(3 bits) size(2 bits) 0 ea mode register(3,3 bits)
size: 11 word
ea source, data.
*******************************************************************************************************************************************
* address,stack
*******************************************************************************************************************************************
*
LEA Load Effective Address
ea -> An
Long operation
CC: not affected
0100 An reg(3 bits) 1 11 ea mode register(3,3 bits)
ea, control.
*
PEA Push Effective Address
SP -= 4; ea -> (SP)
Long operation
CC: not affected
0100 1000 01 ea mode register(3,3 bits)
ea, control.
*
LINK Link and Allocate
SP -= 4; An -> (SP); SP -> An; SP + d16 -> SP
Word operation
CC: not affected
0100 1110 0101 0 An reg(3 bits); 16 bit displacement
*
UNLK Unlink
An -> SP; (SP) -> An; Sp += 4
Unsized
CC: not affected
0100 1110 0101 1 An reg(3 bits)
*******************************************************************************************************************************************
* exceptions
*******************************************************************************************************************************************
*
ILLEGAL Take Illegal Instruction Trap
SSP -= 4; PC -> (SSP); SSP -= 2; SR -> (SSP)
Unsized
CC: not affected
0100 1010 1111 1100
*
TRAP Trap
1 -> S-bit of SR; SSP -= 4; PC -> (SSP); SSP -= 2; SR -> (SSP)
Unsized
CC: not affected
0100 1110 0100 vector(4 bits)
*
TRAPV Trap on Overflow
if V then TRAP
Unsized
CC: not affected
0100 1110 0111 0110
*
RTE Return from Exception/Privileged/
if S-bit set in SR then { (SP) -> SR; SP += 2; (SP) -> PC; SP += 4; restore state and dealocate rest of stack according to (SP) } else TRAP
Unsized
CC: set from stack
0100 1110 0111 0011
*******************************************************************************************************************************************
* control
*******************************************************************************************************************************************
*
NOP No Operation
None
Unsized
CC: not affected
0100 1110 0111 0001
*
RESET Reset External Devices/Privileged/
if S-bit set in SR then { assert !RESET line for 124 clock cycles } else TRAP
Unsized
CC: not affected
0100 1110 0111 0000
*
STOP Stop/Privileged/
if S-bit set in SR then { immediate data -> SR; STOP } else TRAP
Unsized
CC: set according to immediate data
0100 1110 0111 0010; 16 bit immediate data
Resume when trace, interrupt or rest.
*******************************************************************************************************************************************
*******************************************************************************************************************************************
*******************************************************************************************************************************************
0000 0010[1010][0000] size(2 bits) ea mode register(3,3 bits); imm16 next word, imm8 lower order byte of next word, imm32 two next words
ANDI,EORI,ORI
0000 0010[1010][0000] 00 111 100; 0000 0000 data(8 bit) ANDI to CCR,EORI to CCR,ORI to CCR
0000 0010[1010][0000] 01 111 100; data(16 bit) ANDI to SR,EORI to SR,ORI to SR
0000 0110[0100] size(2 bits) ea mode register(3,3 bits); imm16 next word, imm8 lower order byte of next word, imm32 two next words
ADDI,SUBI
0000 1000 01[10][11][00] ea mode register(3,3 bits); 0000 0000 bit number(8 bits) BCHG,BCLR,BSET,BTST
0000 1100 size(2 bits) ea mode register(3,3 bits); imm16 next word, imm8 lower order byte of next word, imm32 two next words
CMPI
0000 Dn reg(3 bits) 101[110][111][100] ea mode register(3,3 bits) BCHG,BCLR,BSET,BTST
0000 Dn reg(3 bits) opmode(3 bits) 001 address reg(3 bits); 16 bit displacement MOVEP
00 size(2 bits) ea dest register mode(3,3 bits) ea source mode register(3,3 bits) MOVE
00 size(2 bits) An dest(3 bits) 001 ea source mode register(3,3 bits) MOVEA
if( 0000 000 0 ** !111100 ) ORI
if( 0000 000 0 00 111100 ) ORI to CCR
if( 0000 000 0 01 111100 ) ORI to SR
if( 0000 001 0 ** !111100 ) ANDI
if( 0000 001 0 00 111100 ) ANDI to CCR
if( 0000 001 0 01 111100 ) ANDI to SR
if( 0000 010 0 ) SUBI
if( 0000 011 0 ) ADDI
if( 0000 100 0 ) BCHG,BCLR,BSET,BTST
if( 0000 101 0 ** !111100 ) EORI
if( 0000 101 0 00 111100 ) EORI to CCR
if( 0000 101 0 01 111100 ) EORI to SR
if( 0000 110 0 ) CMPI
if( 0000 *** 1** !001 ) BCHG,BCLR,BSET,BTST
if( 0000 *** 1** 001 ) MOVEP
if( 00 !00 *** !001 ) MOVE
if( 00 !00 *** 001 ) MOVEA
*******************************************************************************************************************************************
0100 0000 size(2 bits) ea mode register(3,3 bits) NEGX
0100 0000 11 ea dest mode register(3,3 bits) MOVE FROM SR
0100 Dn reg(3 bits) 1 10 ea mode register(3,3 bits) CHK
0100 An reg(3 bits) 1 11 ea mode register(3,3 bits) LEA
0100 0010 size(2 bits) ea dest mode register(3,3 bits) CLR
0100 0100 size(2 bits) ea mode register(3,3 bits) NEG
0100 0100 11 ea source mode register(3,3 bits) MOVE TO CCR
0100 0110 size(2 bits) ea mode register(3,3 bits) NOT
0100 0110 11 ea source mode register(3,3 bits) MOVE TO SR
0100 1000 00 ea mode register(3,3 bits) NBCD
0100 1000 01 000 reg(3 bits) SWAP
0100 1000 01 ea mode register(3,3 bits) PEA
0100 100 opmode(3 bits) 000 Dn dest(3 bits) EXT
0100 1 dr(1 bit) 00 1 size(1 bit) ea mode register(3,3 bits); register list mask MOVEM
0100 1010 size(2 bits) ea mode register(3,3 bits) TST
0100 1010 11 ea mode register(3,3 bits) TAS
0100 1010 1111 1100 ILLEGAL
0100 1110 0100 vector(4 bits) TRAP
0100 1110 0101 0 An reg(3 bits); 16 bit displacement LNK
0100 1110 0101 1 An reg(3 bits) UNLK
0100 1110 0110 dr(1 bit) An reg(3 bits) MOVE USP
0100 1110 0111 0000 RESET
0100 1110 0111 0001 NOP
0100 1110 0111 0010 STOP
0100 1110 0111 0011 RTE
0100 1110 0111 0101 RTS
0100 1110 0111 0110 TRAPV
0100 1110 0111 0111 RTR
0100 1110 10 ea mode register(3,3 bits) JSR
0100 1110 11 ea mode register(3,3 bits) JMP
if( 0100 0000 00|01|10 ) NEGX
if( 0100 0000 11 ) MOVE FROM SR
if( 0100 ***1 10 ) CHK
if( 0100 ***1 11 ) LEA
if( 0100 0010 ) CLR
if( 0100 0100 00|01|10 ) NEG
if( 0100 0100 11 ) MOVE TO CCR
if( 0100 0110 00|01|10 ) NOT
if( 0100 0110 11 ) MOVE TO SR
if( 0100 1000 00 ) NBCD
if( 0100 1000 01 000 ) SWAP
if( 0100 1000 01 !000 ) PEA
if( 0100 1000 1* 000 ) EXT
if( 0100 1*00 1* !000 ) MOVEM
if( 0100 1010 00|01|10 ) TST
if( 0100 1010 11 !111100 ) TAS
if( 0100 1010 11 111100 ) ILLEGAL
if( 0100 1110 0100 ) TRAP
if( 0100 1110 0101 0 ) LNK
if( 0100 1110 0101 1 ) ULNK
if( 0100 1110 0110 ) MOVE USP
if( 0100 1110 0111 0000 ) RESET
if( 0100 1110 0111 0001 ) NOP
if( 0100 1110 0111 0010 ) STOP
if( 0100 1110 0111 0011 ) RTE
if( 0100 1110 0111 0101 ) RTS
if( 0100 1110 0111 0110 ) TRAPV
if( 0100 1110 0111 0111 ) RTR
if( 0100 1110 10 ) JSR
if( 0100 1110 11 ) JMP
*******************************************************************************************************************************************
0101 data(3 bits) 0[1] size(2 bits) ea mode register (3,3 bits) ADDQ,SUBQ
0101 condition(4 bits) 11 ea mode register(3,3 bits) Scc
0101 condition(4 bits) 11 001 Dn register(3 bits); 16 bit displacement DBcc
if( 0101 *** 0 !11 ) ADDQ
if( 0101 *** 1 !11 ) SUBQ
if( 0101 *** * 11 !001 ) Scc
if( 0101 *** * 11 001 ) DBcc
*******************************************************************************************************************************************
0110 0000 disp8(8 bit); 16 bit displacement if disp8 == 0 BRA
0110 0001 disp8(8 bit); 16 bit displacement if disp8 == 0 BSR
0110 condition(4 bits) disp8(8 bit); 16 bit displacement if disp8 == 0 Bcc
if( 0110 0000 ) BRA
if( 0110 0001 ) BSR
if( 0110 !000 ) Bcc
*******************************************************************************************************************************************
0111 Dn dest(3 bits) 0 data(8 bits) MOVEQ
*******************************************************************************************************************************************
1011 register(3 bits) opmode(3 bits) ea mode register(3,3 bits) CMP
1011 Dn source(3 bits) opmode(3 bits) ea mode register(3,3 bits) EOR
1011 Ax dest(3 bits) 1 size(2 bits) 001 Ay source(3 bits) CMPM
1011 register(3 bits) opmode(3 bits) ea mode register(3,3 bits) CMPA
if( 1011 *** 000|001|010 ) CMP
if( 1011 *** 100|101|110 001 ) CMPM
if( 1011 *** 100|101|110 !001 ) EOR
if( 1011 *** 011|111 ) CMPA
*******************************************************************************************************************************************
1000 Dn dest(3 bits) 1[0] 11 ea mode register(3,3 bits) DIVS,DIVU
1100[1000] Ry dest(3 bits) 1 0000 R/M Rx source(3 bits) ABCD,SBCD
1100[1000] Dn register(3 bits) opmode(3 bits) ea mode register(3,3 bits) AND,OR
1100 Rx reg(3 bits) 1 opmode(5 bits) Ry reg(3 bits) EXG
1100 Dn dest(3 bits) 1[0] 11 ea mode register(3,3 bits) MULS,MULU
if( 1000 *** 011 ) DIVU
if( 1000 *** 111 ) DIVS
if( 1000 *** 10000 ) SBCD
if( 1000 *** 000**|001**|010**|10001|10010|10011|101**|110** ) OR
if( 1100 *** 011 ) MULU
if( 1100 *** 111 ) MULS
if( 1100 *** 10000 ) ABCD
if( 1100 *** 000**|001**|010**|10001|10010|10011|10101|10110|10111|11001|11010|11011 ) AND
if( 1100 *** 10100|11000 ) EXG
*******************************************************************************************************************************************
1101[1001] register(3 bits) opmode(3 bits) ea mode register (3,3 bits) ADD,SUB
1101[1001] register(3 bits) opmode(3 bits) ea mode register(3,3 bits) ADDA,SUBA
1101[1001] Ry dest(3 bits) 1 size(2 bits) 00 R/M Rx source(3 bits) ADDX,SUBX
if( 1001 *** 000|001|010|10001|10010|10011|10101|10110|10111|11001|11010|11011 ) SUB
if( 1001 *** 011|111 ) SUBA
if( 1001 *** 10000|10100|11000 ) SUBX
if( 1101 *** 000|001|010|10001|10010|10011|10101|10110|10111|11001|11010|11011 ) ADD
if( 1101 *** 011|111 ) ADDA
if( 1101 *** 10000|10100|11000) ADDX
*******************************************************************************************************************************************
1110 count/register(3 bits) dr(1 bit) size(2 bits) i/r(1 bit) 00[01][11][10] Dn dest(3 bit) ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR
1110 000[001][011][010] dr(1 bit) 11 ea mode register(3,3 bits) ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR
if( 1110 *** * !11 ) ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR
if( 1110 *** * 11 ) ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR
*******************************************************************************************************************************************
microcode
instruction: XXXX *** XXX
0000 *** 000 ORI,ORI to CCR,ANDI,ANDI to CCR,SUBI,ADDI,BCHG,BCLR,BSET,BTST,EORI,EORI to CCR,CMPI
0000 *** 001 ORI,ORI to SR,ANDI,ANDI to SR,SUBI,ADDI,BCHG,BCLR,BSET,BTST,EORI,EORI to SR,CMPI
0000 *** 010 ORI,ANDI,SUBI,ADDI,BCHG,BCLR,BSET,BTST,EORI,CMPI
0000 *** 011 ORI,ANDI,SUBI,ADDI,BCHG,BCLR,BSET,BTST,EORI,CMPI
0000 *** 100 BCHG,BCLR,BSET,BTST,MOVEP
0000 *** 101 BCHG,BCLR,BSET,BTST,MOVEP
0000 *** 110 BCHG,BCLR,BSET,BTST,MOVEP
0000 *** 111 BCHG,BCLR,BSET,BTST,MOVEP
0001 *** 000 MOVE
0001 *** 001 MOVEA
0001 *** 010 MOVE
0001 *** 011 MOVE
0001 *** 100 MOVE
0001 *** 101 MOVE
0001 *** 110 MOVE
0001 *** 111 MOVE
0010 *** 000 MOVE
0010 *** 001 MOVEA
0010 *** 010 MOVE
0010 *** 011 MOVE
0010 *** 100 MOVE
0010 *** 101 MOVE
0010 *** 110 MOVE
0010 *** 111 MOVE
0011 *** 000 MOVE
0011 *** 001 MOVEA
0011 *** 010 MOVE
0011 *** 011 MOVE
0011 *** 100 MOVE
0011 *** 101 MOVE
0011 *** 110 MOVE
0011 *** 111 MOVE
0100 *** 000 NEGX,CLR,NEG,NOT,NBCD,TST
0100 *** 001 NEGX,CLR,NEG,NOT,SWAP,PEA,TST,TRAP,LNK,ULNK,MOVE USP,RESET,NOP,STOP,RTE,RTS,TRAPV,RTR
0100 *** 010 NEGX,CLR,NEG,NOT,EXT,MOVEM,TST,JSR
0100 *** 011 MOVE FROM SR,CLR,MOVE TO CCR,MOVE TO SR,EXT,MOVEM,TAS,ILLEGAL,JMP
0100 *** 100 invalid
0100 *** 101 invalid
0100 *** 110 CHK
0100 *** 111 LEA
0101 *** 000 ADDQ
0101 *** 001 ADDQ
0101 *** 010 ADDQ
0101 *** 011 Scc,DBcc
0101 *** 100 SUBQ
0101 *** 101 SUBQ
0101 *** 110 SUBQ
0101 *** 111 Scc,DBcc
0110 *** 000 BRA,Bcc
0110 *** 001 BRA,Bcc
0110 *** 010 BRA,Bcc
0110 *** 011 BRA,Bcc
0110 *** 100 BSR,Bcc
0110 *** 101 BSR,Bcc
0110 *** 110 BSR,Bcc
0110 *** 111 BSR,Bcc
0111 *** 000 MOVEQ
0111 *** 001 MOVEQ
0111 *** 010 MOVEQ
0111 *** 011 MOVEQ
0111 *** 100 invalid
0111 *** 101 invalid
0111 *** 110 invalid
0111 *** 111 invalid
1000 *** 000 OR
1000 *** 001 OR
1000 *** 010 OR
1000 *** 011 DIVU
1000 *** 100 SBCD,OR
1000 *** 101 OR
1000 *** 110 OR
1000 *** 111 DIVS
1001 *** 000 SUB
1001 *** 001 SUB
1001 *** 010 SUB
1001 *** 011 SUBA
1001 *** 100 SUB,SUBX
1001 *** 101 SUB,SUBX
1001 *** 110 SUB,SUBX
1001 *** 111 SUBA
1010 *** 000 invalid
1010 *** 001 invalid
1010 *** 010 invalid
1010 *** 011 invalid
1010 *** 100 invalid
1010 *** 101 invalid
1010 *** 110 invalid
1010 *** 111 invalid
1011 *** 000 CMP
1011 *** 001 CMP
1011 *** 010 CMP
1011 *** 011 CMPA
1011 *** 100 CMPM,EOR
1011 *** 101 CMPM,EOR
1011 *** 110 CMPM,EOR
1011 *** 111 CMPA
1100 *** 000 AND
1100 *** 001 AND
1100 *** 010 AND
1100 *** 011 MULU
1100 *** 100 ABCD,AND
1100 *** 101 EXG,AND
1100 *** 110 EXG,AND
1100 *** 111 MULS
1101 *** 000 ADD
1101 *** 001 ADD
1101 *** 010 ADD
1101 *** 011 ADDA
1101 *** 100 ADD,ADDX
1101 *** 101 ADD,ADDX
1101 *** 110 ADD,ADDX
1101 *** 111 ADDA
1110 *** 000 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR reg
1110 *** 001 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR reg
1110 *** 010 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR reg
1110 *** 011 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR ea
1110 *** 100 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR reg
1110 *** 101 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR reg
1110 *** 110 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR reg
1110 *** 111 ASL,LSL,ROL,ROXL,ASR,LSR,ROR,ROXR ea
1111 *** 000 invalid
1111 *** 001 invalid
1111 *** 010 invalid
1111 *** 011 invalid
1111 *** 100 invalid
1111 *** 101 invalid
1111 *** 110 invalid
1111 *** 111 invalid
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
Original MC68000 Ports:
Address bus: A23-A1, output
Data bus: D15-D0, bidirectional
Address Strobe: output
Read/Write: 0 - write, 1 - read
Upper and Lower data strobes: output
Data transfer acknowlege: input
A,D,AS,R/W,UDS,LDS: all tri-state
BERR: input
BERR: perform exception handling, while BERR asserted wait in Hi-Z
BERR + HALT: retry bus cycle, HALT longer than BERR for at least 1 clock cycle, while HALT asserted wait in Hi-Z,
not for read-modify-write, retry count not limited
FC[2:0]: valid with Address Strobe
0 - undefined
1 - user data
2 - user program
3 - undefined
4 - undefined
5 - supervisor data : all exception vector entries except reset
6 - supervisor program : exception vector for reset
7 - cpu space : interrupt acknowlege bus cycle
interrupt IPL[2:0]:
assert IPL until processor signals interrupt acknowlege
interrupt acknowlege bus cycle:
FC: 7
A23-A4: high, A3-A1: interrupt number output
D15-D8 ignored, D7-D0 + DACK: vector number
input VPA: autovector, complete 6800 read cycle: assert VMA
input BERR: spurious interrupt
HALT, RESET: inout
input HALT + RESET: processor reset
output RESET: RESET opcode: reset external devices
output HALT: processor blocked
input HALT: stop bus activity after current bus cycle, Hi-Z all three-state lines, bus arbitration as usual
bus request: input, at any time
bus grant: output, bus is to be released after current cycle
bus grant acknowlege: input, bus in use by external device
E: clock: output, 6 clocks low, 4 clocks high
Valid Peripheral Address: input, use autovector in interrupt acknowlege cycle, device is 6800 type: synchronize data on E
Valid Memory Address: output, memory address valid and processor synchronized on E
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
Backup
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
//----- flip_flop_registers
//ir1,ir2:
// required by: ANDI,EORI,ORI,ANDI to CCR,EORI to CCR,ORI to CCR,ANDI to SR,EORI to SR,ORI to SR,ADDI,SUBI
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