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Document Title: [ (text file)]

    Table 4. G65SC802 and G65SC816 Instruction Set -- Alphabetical Sequence

	ADC	Add Memory to Accumulator with Carry
	AND	"AND" Memory with Accumulator
	ASL	Shift One Bit Left, Memory or Accumulator
	BCC*	Branch on Carry Clear (Pe = O)
	BCS*	Branch on Carry Set (Pe = 1)
	BEQ	Branch if Equal (Pz = 1)
	BIT	Bit Test
	BMI	Branch if Result Minus (PN = 1)
	BNE	Branch if Not Equal (Pz = 0)
	BPL	Branch if Result Plus (PN = 0)
	BRA	Branch Always
	BRK	Force Break
	BRL	Branch Always Long
	BVC	Branch on Overflow Clear (Pv = 0)
	BVS	Branch on Overflow Set (Pv = 1)
	CLC	Clear Carry Flag
	CLD	Clear Decimal Mode
	CLI	Clear Interrupt Disable Bit
	CLV	Clear Overflow Flag
	CMP*	Compare Memory and Accumulator
	COP	Coprocessor
	CPX	Compare Memory and Index X
	CPY	Compare Memory and Index Y
	DEC*	Decrement Memory or Accumulator by One
	DEX	Decrement Index X by One
	DEY	Decrement Index Y by One
	EOR	Exclusive "OR" Memory with Accumulator
	INC*	Increment Memory or Accumulator by One
	INX	Increment Index X by One
	INY	Increment Index Y by One
	JML**	Jump Long
	JMP	Jump to New Location
	JSL**	Jump Subroutine Long
	JSR	Jump to New Location Saving Return Address
	LDA	Load Accumulator with Memory
	LDX	Load Index X with Memory
	LDY	Load Index Y with Memory
	LSR	Shift One Bit Right (Memory or Accumulator)
	MVN	Block Move Negative
	MVP	Block Move Positive
	NOP	No Operation
	ORA	"OR" Memory with Accumulator
	PEA	Push Effective Absolute Address on Stack (or Push Immediate Data on Stack)
	PEI	Push Effective Indirect Address on Stack (add one cycle if DL f 0)
	PER	Push Effective Program Counter Relative Address on Stack
	PHA	Push Accumulator on Stack
	PHB	Push Data Bank Register on Stack
	PHD	Push Direct Register on Stack
	PHK	Push Program Bank Register on Stack
	PHP	Push Processor Status on Stack
	PHX	Push Index X on Stack
	PHY	Push index Y on Stack
	PLA	Pull Accumulator from Stack
	PLB	Pull Data Bank Register from Stack
	PLD	Pull Direct Register from Stack
	PLP	Pull Processor Status from Stack
	PLX	Pull Index X from Stack
	PLY	Pull Index Y form Stack
	REP	Reset Status Bits
	ROL	Rotate One Bit Left (Memory or Accumulator)
	ROR	Rotate One Bit Right (Memory or Accumulator)
	RTI	Return from Interrupt
	RTL	Return from Subroutine Long
	RTS	Return from Subroutine
	SBC	Subtract Memory from Accumulator with Borrow
	SEC	Set Carry Flag
	SED	Set Decimal Mode
	SEI	Set Interrupt Disable Status
	SEP	Set Processor Status Bits
	STA	Store Accumulator in Memory
	STP	Stop the Clock
	STX	Store Index X in Memory
	STY	Store Index Y in Memory
	STZ	Store Zero in Memory
	TAX	Transfer Accumulator to Index X
	TAY	Transfer Accumulator to Index Y
	TCD*	Transfer Accumulator to Direct Register
	TCS*	Transfer Accumulator to Stack Pointer Register
	TDC*	Transfer Direct Register to Accumulator
	TRB	Test and Reset Bit
	TSB	Test and Set Bit
	TSC*	Transfer Stack Pointer Register to Accumulator
	TSX	Transfer Stack Pointer Register to Index X
	TXA	Transfer Index X to Accumulator
	TXS	Transfer Index X to Stack Polnter Register
	TXY	Transfer Index X to Index Y
	TYA	Transfer Index Y to Accumulator
	TYX	Transfer Index Y to Index X
	WAI	Wait for Interrupt
	XBA*	Exchange AH and AL
	XCE	Exchange Carry and Emulation Bits


	*) Common Mnemonic Aliases

		Mnemonic	Alias
		BCC		BLT
		BCS		BGE
		CMP		CPA
		DEC A		DEA
		INC A		INA
		TCD		TAD
		TCS		TAS
		TDC		TDA
		TSC		TSA
		XBA		SWA

	**)	JSL should be recognized as equivalent to JSR
			when it is specified with long absolute addresses.
		JML is equivalent to JMP with long addressing forced.



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