section 7 - Index of
section 7 - Index of section 7 - Index of
V: Y Memory Data MoveV:Instruction Format:( ..... ) Y:aa,D( ..... ) S,Y:aaOpcode:5 801 d d 1 d d d WO a a a a a aINSTRUCTION OPCODEInstruction Fields:aa=6-bit Absolute Short Address=aaaaaaRegister WRead S 0Write DAbsolute Short Address aaaaaa000000•111111
Y: Y Memory Data Move Y:S D DS,D d d d d d SIL Sign Ext ZeroXO 0 0 1 0 0 no no noX1 0 0 1 0 1 no no noYO 0 0 1 1 0 no no noY1 0 0 1 1 1 no no noAO 0 1 0 0 0 no no noBO 0 1 0 0 1 no no noA2 0 1 0 1 0 no no noB2 0 1 0 1 1 no no noA1 0 1 1 0 0 no no noB1 0 1 1 0 1 no no noA 0 1 1 1 0 yes A2 AOB 0 1 1 1 1 yes B2 BORO-R? 1 0 r r rNO-N? 1 1 n n nwhere "rrr"=Rn numberwhere "nnn"=Nn numberTiming: mv oscillator clock cyclesMemory: mv program words
- Page 379 and 380: JSSET Jump to Subroutine if Bit Set
- Page 381 and 382: JSSETJump to Subroutine if Bit SetJ
- Page 383 and 384: JSSET Jump to Subroutine if Bit Set
- Page 385 and 386: LSL Logical Shift Left LSLCondition
- Page 387 and 388: LSR Logical Shift Right LSRConditio
- Page 389 and 390: LUALoad Updated AddressLUACondition
- Page 391 and 392: MAC Signed Multiply-Accumulate MACC
- Page 393 and 394: MACSigned Multiply-AccumulateMACTim
- Page 395 and 396: MACR Signed Multiply-Accumulate and
- Page 397 and 398: MACR Signed MUltiply-Accumulate and
- Page 399 and 400: MOVE Move Data MOVEExplanation of E
- Page 401 and 402: MOVE Move Data MOVEWhen a 56-bit ac
- Page 403 and 404: No Parallel Data MoveInstruction Fo
- Page 405 and 406: I Immediate Short Data Move IExampl
- Page 407 and 408: I Immediate Short Data Move IDDD d
- Page 409 and 410: R Register to Register Data Move RE
- Page 411 and 412: R Register to Register Data Move RI
- Page 413 and 414: uAddress Register UpdateuInstructio
- Page 415 and 416: X: X Memory Data Move X:Note:Due to
- Page 417 and 418: X: X Memory Data Move X:S D DS,D d
- Page 419 and 420: X: X Memory Data Move X:S D DS,D d
- Page 421 and 422: X:R X Memory and Register Data Move
- Page 423 and 424: X:R X Memory and Register Data Move
- Page 425 and 426: X:R X Memory and Register Data Move
- Page 427 and 428: Y: Y Memory Data Move Y:Note: This
- Page 429: Y: Y Memory Data Move Y:S D DS,D d
- Page 433 and 434: R:V Register and V Memory Data Move
- Page 435 and 436: R:V Register and Y Memory Data Move
- Page 437 and 438: R:V Register and Y Memory Data Move
- Page 439 and 440: L: Long Memory Data Move L:Example:
- Page 441 and 442: L: Long Memory Data Move L:Instruct
- Page 443 and 444: X: Y: xv Memory Data Move X: Y:Exam
- Page 445 and 446: X: Y: xv Memory Data Move X: Y:S1 D
- Page 447 and 448: MOVEC Move Control Register MOVECst
- Page 449 and 450: MOVEC Move Control Register MOVECCo
- Page 451 and 452: MOVECMove Control RegisterMOVECInst
- Page 453 and 454: MOVEC Move Control Register MOVECTi
- Page 455 and 456: MOVEM Move Program Memory MOVEMoper
- Page 457 and 458: MOVEM Move Program Memory MOVEMInst
- Page 459 and 460: MOVEMMove Program MemoryMOVEMInstru
- Page 461 and 462: MOVEP Move Peripheral Data MOVEPist
- Page 463 and 464: MOVEP Move Peripheral Data MOVEPCon
- Page 465 and 466: MOVEP Move Peripheral Data MOVEPIns
- Page 467 and 468: MOVEP Move Peripheral Data MOVEPIns
- Page 469 and 470: MPY Signed Multiply MPYExplanation
- Page 471 and 472: MPY Signed Multiply MPYInstruction
- Page 473 and 474: MPYR Signed Multiply and Round MPYR
- Page 475 and 476: MPYR Signed Multiply and Round MPYR
- Page 477 and 478: NEGNegate AccumulatorNEGInstruction
- Page 479 and 480: NOPNo OperationNOPInstruction Forma
Y: Y Memory Data Move Y:S D DS,D d d d d d SIL Sign Ext ZeroXO 0 0 1 0 0 no no noX1 0 0 1 0 1 no no noYO 0 0 1 1 0 no no noY1 0 0 1 1 1 no no noAO 0 1 0 0 0 no no noBO 0 1 0 0 1 no no noA2 0 1 0 1 0 no no noB2 0 1 0 1 1 no no noA1 0 1 1 0 0 no no noB1 0 1 1 0 1 no no noA 0 1 1 1 0 yes A2 AOB 0 1 1 1 1 yes B2 BORO-R? 1 0 r r rNO-N? 1 1 n n nwhere "rrr"=Rn numberwhere "nnn"=Nn numberTiming: mv oscillator clock cyclesMemory: mv program words