A e_add16i 1 1 , 2 2 3
A e_add2i. 2 CR 1 , 2 1 2
A e_add2is 1 1 , 2 1 2
A e_addi 1 1 , 2 2 3
A e_addi. 2 CR 1 , 2 2 3
A e_addic 2 XER 1 , 2 2 3
A e_addic. 3 XER CR 1 , 2 2 3
A e_and2i. 2 CR 1 , 2 1 2
A e_and2is. 2 CR 1 , 2 1 2
A e_andi 1 1 , 2 2 3
A e_andi. 2 CR 1 , 2 2 3
B e_b 0 , 1 1
B e_bl 1 LR , 1 1
BC e_beq 0 , 2 CR 1
BC e_bdnz 1 CTR , 3 CR CTR 1
BC e_bne 0 , 2 CR 1
BC e_bgt 0 , 2 CR 1
BC e_ble 0 , 2 CR 1
BC e_blt 0 , 2 CR 1
BC e_bge 0 , 2 CR 1
BC e_bdz 1 CTR , 3 CR CTR 1
BC e_bns 0 , 2 CR 1
BC e_bso 0 , 2 CR 1
BC e_bdnzl 2 LR CTR , 3 CR CTR 1
BC e_blt 0 , 2 CR 1
C e_cmp16i 1 CR , 3 XER 1 2
C e_cmph16i 1 CR , 3 XER 1 2
C e_cmph 1 CR , 3 XER 2 3
C e_cmphl16i 1 CR , 3 XER 1 2
C e_cmphl 1 CR , 3 XER 2 3
C e_cmpi 1 CR , 3 XER 2 3
C e_cmpl16i 1 CR , 3 XER 1 2
C e_cmpli 1 CR , 3 XER 2 3
A e_crand 1 CR , 4 CR 1 2 3
A e_crandc 1 CR , 4 CR 1 2 3
A e_creqv 1 CR , 4 CR 1 2 3
A e_crnand 1 CR , 4 CR 1 2 3
A e_crnor 1 CR , 4 CR 1 2 3
A e_cror 1 CR , 4 CR 1 2 3
A e_crorc 1 CR , 4 CR 1 2 3
A e_crxor 1 CR , 4 CR 1 2 3
L e_lbz 1 1 , 3 2 3 mem(2+3)
L e_lbzu 2 1 3 , 3 2 3 mem(2+3)
L e_lha 1 1 , 3 2 3 mem(2+3)*$2
L e_lhau 2 1 3 , 3 2 3 mem(2+3)*$2
L e_lhz 1 1 , 3 2 3 mem(2+3)*$2
L e_lhzu 2 1 3 , 3 2 3 mem(2+3)*$2
SP e_li 1 1 , 1 2
SP e_lis 1 1 , 1 2
L e_lmw 1 GPR , 4 1 2 3 mem(2+3)*$4*($32-1)
L e_lmvgprw 11 R0 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 , 3 1 2 mem(1+2)*$44
L e_lmvsrrw 2 SRR0 SRR1 , 3 1 2 mem(1+2)*$8
L e_lmvsprw 4 CR LR CTR XER , 3 1 2 mem(1+2)*$16
L e_lmvcsrrw 2 CSRR0 CSRR1 , 3 1 2 mem(1+2)*$8
L e_lmvdsrrw 2 DSRR0 DSRR1 , 3 1 2 mem(1+2)*$8
L e_lwz 1 1 , 3 2 3 mem(2+3)*$4
L e_lwzu 2 1 3 , 3 2 3 mem(2+3)*$4
SP e_mcrf 1 CR , 1 CR
A e_mull2i 1 1 , 2 1 2
A e_mulli 1 1 , 2 2 3
A e_or2i 1 1 , 2 1 2
A e_or2is 1 1 , 2 1 2
A e_ori 1 1 , 2 2 3
A e_ori. 2 CR 1 , 2 2 3
A e_rlw 1 1 , 2 2 3
A e_rlw. 2 CR 1 , 2 2 3
A e_rlwi 1 1 , 2 2 3
A e_rlwi. 2 CR 1 , 2 2 3
A e_rlwimi 1 1 , 4 2 3 4 5
A e_rlwinm 1 1 , 4 2 3 4 5
A e_slwi 1 1 , 2 2 3
A e_slwi. 2 CR 1 , 2 2 3
A e_srwi 1 1 , 2 2 3
A e_srwi. 2 CR 1 , 2 2 3
S e_stb 1 mem(2+3) , 3 1 2 3
S e_stbu 2 mem(2+3) 3 , 3 1 2 3
S e_sth 1 mem(2+3)*$2 , 3 1 2 3
S e_sthu 2 mem(2+3)*$2 3 , 3 1 2 3
S e_stmw 1 mem(2+3)*$4*($32-1) , 4 GPR 1 2 3
S e_stmvsrrw 1 mem(1+2)*$8 , 4 SRR0 SRR1 1 2
S e_stmvsprw 1 mem(1+2)*$16 , 6 CR LR CTR XER 1 2
S e_stmvgprw 1 mem(1+2)*$44 , 13 R0 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 1 2
S e_stmvcsrrw 1 mem(1+2)*$8 , 4 CSRR0 CSRR1 1 2
S e_stmvdsrrw 1 mem(1+2)*$8 , 4 DSRR0 DSRR1 1 2
S e_stw 1 mem(2+3)*$4 , 3 1 2 3
S e_stwu 2 mem(2+3)*$4 3 , 3 1 2 3
A e_subfic 2 XER 1 , 2 2 3
A e_subfic. 3 XER CR 1 , 2 2 3
A e_xori 1 1 , 2 2 3
A e_xori. 2 CR 1 , 2 2 3
A se_add 1 1 , 2 1 2
A se_addi 1 1 , 2 1 2
A se_and 1 1 , 2 1 2
A se_and. 2 CR 1 , 2 1 2
A se_andc 1 1 , 2 1 2
A se_andi 1 1 , 2 1 2
B se_b 0 , 1 1
B se_bl 1 LR , 1 1
BC se_bc 0 , 4 CR 1 2 3
SP se_bclri 1 1 , 2 1 2
B se_bctr 0 , 1 CTR
B se_bctrl 1 LR , 1 CTR
A se_bgeni 1 1 , 2 1 2
BC se_bge 0 , 2 CR 1
BC se_blt 0 , 2 CR 1
BC se_ble 0 , 2 CR 1
BC se_bgt 0 , 2 CR 1
BC se_bne 0 , 2 CR 1
BC se_beq 0 , 2 CR 1
BC se_bns 0 , 2 CR 1
BC se_bso 0 , 2 CR 1
B se_blr 0 , 1 LR
B se_blrl 1 LR , 1 LR
SP se_bmaski 1 1 , 2 1 2
SP se_bseti 1 1 , 2 1 2
SP se_btsti 1 CR , 3 XER 1 2
C se_cmp 1 CR , 3 XER 1 2
C se_cmph 1 CR , 3 XER 1 2
C se_cmphl 1 CR , 3 XER 1 2
C se_cmpi 1 CR , 3 XER 1 2
C se_cmpl 1 CR , 3 XER 1 2
C se_cmpli 1 CR , 3 XER 1 2
A se_extsb 1 1 , 1 1
A se_extsh 1 1 , 1 1
A se_extzb 1 1 , 1 1
A se_extzh 1 1 , 1 1
SP se_illegal 4 SRR0 SRR1 MSR ESR , 0 
SP se_isync 0 , 0 
L se_lbz 1 1 , 3 mem(2+3) 2 3
L se_lhz 1 1 , 3 mem(2+3)*$2 2 3
L se_li 1 1 , 1 2
L se_lwz 1 1 , 3 mem(2+3)*$4 2 3
SP se_mfar 1 1 , 2 GPR 2
SP se_mfctr 1 1 , 1 CTR
SP se_mflr 1 1 , 1 LR
SP se_mr 1 1 , 1 2
SP se_mtar 1 GPR , 2 1 2
SP se_mtctr 1 CTR , 1 1
SP se_mtlr 1 LR , 1 1
A se_mullw 1 1 , 2 1 2
A se_neg 1 1 , 1 1
A se_not 1 1 , 1 1
A se_or 1 1 , 2 1 2
SP se_rfci 1 MSR , 2 CSRR0 CSRR1
SP se_rfdi 1 MSR , 2 DSRR0 DSRR1
SP se_rfi 1 MSR , 2 SRR0 SRR1
SP se_rfmci 1 MSR , 2 MCSRR0 MCSRR1
SP se_sc 5 SRR0 GSRR0 SRR1 GSRR1 MSR , 0 
A se_slw 1 1 , 2 1 2
A se_slwi 1 1 , 2 1 2
A se_sraw 2 XER 1 , 2 1 2
A se_srawi 2 XER 1 , 2 1 2
A se_srw 1 1 , 2 1 2
A se_srwi 1 1 , 2 1 2
S se_stb 1 mem(2+3) , 3 1 2 3
S se_sth 1 mem(2+3)*$2 , 3 1 2 3
S se_stw 1 mem(2+3)*$4 , 3 1 2 3
A se_sub 1 1 , 2 1 2
A se_subf 1 1 , 2 1 2
A se_subi 1 1 , 2 1 2
A se_subi. 2 CR 1 , 2 1 2
A add 1 1 , 2 2 3
A add. 2 CR 1 , 2 2 3
A addo 2 XER 1 , 2 2 3
A addo. 3 CR XER 1 , 2 2 3
A addc 2 XER 1 , 2 2 3
A addc. 3 XER CR 1 , 2 2 3
A addco 2 XER 1 , 2 2 3
A addco. 3 XER CR 1 , 2 2 3
A adde 2 XER 1 , 3 XER 2 3
A adde. 3 XER CR 1 , 3 XER 2 3
A addeo 2 XER 1 , 3 XER 2 3
A addeo. 3 CR XER 1 , 3 XER 2 3
A andc 1 1 , 2 2 3
A andc. 2 CR 1 , 2 2 3
A and 1 1 , 2 2 3
A and. 2 CR 1 , 2 2 3
C cmp 1 CR , 4 1 2 3 4
C cmpl 1 CR , 4 1 2 3 4
SP cntlzw 1 1 , 1 2
SP cntlzw. 2 CR 1 , 1 2
S dcba 1 mem(1+2) , 2 1 2
S dcbf 1 mem(1+2) , 3 1 2 3
S dcbi 1 mem(1+2) , 2 1 2
S dcbst 1 mem(1+2) , 2 1 2
S dcbt 1 mem(1+2) , 3 1 2 3
S dcbtst 1 mem(1+2) , 3 1 2 3
S dcbz 1 mem(1+2) , 2 1 2
A divw 1 1 , 2 2 3
A divw. 2 CR 1 , 2 2 3
A divwo 2 XER 1 , 2 2 3
A divwo. 3 CR XER 1 , 2 2 3
A divwu 1 1 , 2 2 3
A divwu. 2 CR 1 , 2 2 3
A divwuo 2 XER 1 , 2 2 3
A divwuo. 3 CR XER 1 , 2 2 3
SP eqv 1 1 , 2 2 3
SP eqv. 2 CR 1 , 2 2 3
A extsb 1 1 , 1 2
A extsb. 2 CR 1 , 1 2
A extsh 1 1 , 1 2
A extsh. 2 CR 1 , 1 2
S icbi 1 mem(1+2) , 2 1 2
S icbt 1 mem(2+3) , 3 1 2 3
L lbzx 1 1 , 3 mem(2+3) 2 3
L lbzux 2 1 2 , 3 mem(2+3) 2 3
L lhax 1 1 , 3 mem(2+3)*$2 2 3
L lhaux 2 1 2 , 3 mem(2+3)*$2 2 3
L lhbrx 1 1 , 3 mem(2+3)*$2 2 3
L lhzx 1 1 , 3 mem(2+3)*$2 2 3
L lhzux 2 1 2 , 3 mem(2+3)*$2 2 3
L lwarx 1 1 , 4 mem(2+3)*$4 2 3 4
L lwbrx 1 1 , 3 mem(2+3)*$4 2 3
L lwzx 1 1 , 3 mem(2+3)*$4 2 3
L lwzux 2 1 2 , 3 mem(2+3)*$4 2 3
SP mbar 0 , 1 1
SP mcrxr 2 CR XER , 2 XER 1
SP mfcr 1 1 , 1 CR
SP mfdcr 1 1 , 1 2
SP mfmsr 1 1 , 1 MSR
SP mfspr 1 1 , 1 2
SP msync 0 , 0
SP mtcrf 1 CR , 2 1 2
SP mtctr 1 CTR , 1 1
SP mtdcr 1 1 , 1 2
SP mtmsr 1 MSR , 1 1
SP mtspr 1 1 , 1 2
A mulhw 1 1 , 2 2 3
A mulhw. 2 CR 1 , 2 2 3
A mulhwu 1 1 , 2 2 3
A mulhwu. 2 CR 1 , 2 2 3
A mullw 1 1 , 2 2 3
A mullw. 2 CR 1 , 2 2 3
A mullwo 2 XER 1 , 2 2 3
A mullwo. 3 CR XER 1 , 2 2 3
A nand 1 1 , 2 2 3
A nand. 2 CR 1 , 2 2 3
A neg 1 1 , 1 2
A neg. 2 CR 1 , 1 2
A nego 2 XER 1 , 1 2
A nego. 3 CR XER 1 , 1 2
A nor 1 1 , 2 2 3
A nor. 2 CR 1 , 2 2 3
A or 1 1 , 2 2 3
A or. 2 CR 1 , 2 2 3
A orc 1 1 , 2 2 3
A orc. 2 CR 1 , 2 2 3
A slw 1 1 , 2 2 3
A slw. 2 CR 1 , 2 2 3
A sraw 2 XER 1 , 2 2 3
A sraw. 3 XER CR 1 , 2 2 3
A srawi 2 XER 1 , 2 2 3
A srawi. 3 XER CR 1 , 2 2 3
A srw 1 1 , 2 2 3
A srw. 2 CR 1 , 2 2 3
S stbx 1 mem(2+3) , 3 1 2 3
S stbux 2 mem(2+3) 2 , 3 1 2 3
S sthbrx 1 mem(2+3)*$2 , 3 1 2 3
S sthx 1 mem(2+3)*$2 , 3 1 2 3
S sthux 2 mem(2+3)*$2 2 , 3 1 2 3
S stwbrx 1 mem(2+3)*$4 , 3 1 2 3
S stwcx. 2 CR mem(2+3)*$4 , 3 1 2 3
S stwx 1 mem(2+3)*$4 , 3 1 2 3
S stwux 2 mem(2+3)*$4 2 , 3 1 2 3
A subf 1 1 , 2 2 3
A subf. 2 CR 1 , 2 2 3
A subfo 2 XER 1 , 2 2 3
A subfo. 3 CR XER 1 , 2 2 3
A subfc 2 XER 1 , 2 2 3
A subfc. 3 CR XER 1 , 2 2 3
A subfco 2 XER 1 , 2 2 3
A subfco. 3 XER CR 1 , 2 2 3
S tlbivax 1 mem(2+3) , 2 1 2
SP tlbre 0 , 0 
SP tlbsx 0 , 0 
SP tlbsync 0 , 0 
SP tlbwe 0 , 0 
SP tw 0 , 3 1 2 3
SP wrtee 1 MSR , 1 1
SP wrteei 1 MSR , 1 1
A xor 1 1 , 2 2 3
A xor. 2 CR 1 , 2 2 3
SP isel 1 1 , 3 CR 2 3 
SP mfpvr 1 1 , 1 PVR
SP mflr 1 1 , 1 LR
SP mtxer 1 XER , 1 1
SP nop 0 , 0
L zldd 2 1 1 , 3 mem(2+3)*$8 2 3
L zlddu 3 1 1 3 , 3 mem(2+3)*$8 2 3
A zaddd 2 1 1 , 4 1 1 2 3
A zcircinc 1 1 , 2 2 3
A zbrminc 1 1 , 2 2 3
A zvsubfaddhx 1 1 , 2 2 3
A zvslh 1 1 , 2 2 3
A zvslhss 1 1 , 2 2 3
A zvsrhs 1 1 , 2 2 3
A zvslhus 1 1 , 2 2 3
A zvsrhu 1 1 , 2 2 3
A zslwss 1 1 , 2 2 3
A zslwus 1 1 , 2 2 3
A zslwiss 1 1 , 2 2 3
A zslwius 1 1 , 2 2 3
A zvrlh 1 1 , 2 2 3
SP mfsrr0 1 1 , 1 SRR0
SP mfsrr1 1 1 , 1 SRR1
SP mtusprg0 1 1 , 1 SPRG0 
SP mtlr 1 LR , 1 1