-b946 bctgr RRE "branch on count 64" esame
-b900 lpgr RRE "load positive 64" esame
-b910 lpgfr RRE "load positive 64<32" esame
-b901 lngr RRE "load negative 64" esame
-b911 lngfr RRE "load negative 64<32" esame
-b902 ltgr RRE "load and test 64" esame
-b912 ltgfr RRE "load and test 64<32" esame
-b903 lcgr RRE "load complement 64" esame
-b913 lcgfr RRE "load complement 64<32" esame
-b980 ngr RRE "and 64" esame
-b921 clgr RRE "compare logical 64" esame
-b931 clgfr RRE "compare logical 64<32" esame
-b981 ogr RRE "or 64" esame
-b982 xgr RRE "exclusive or 64" esame
-b904 lgr RRE "load 64" esame
-b914 lgfr RRE "load 64<32" esame
-b920 cgr RRE "compare 64" esame
-b930 cgfr RRE "compare 64<32" esame
-b908 agr RRE "add 64" esame
-b918 agfr RRE "add 64<32" esame
-b909 sgr RRE "subtract 64" esame
-b919 sgfr RRE "subtract 64<32" esame
-b90a algr RRE "add logical 64" esame
-b91a algfr RRE "add logical 64<32" esame
-b90b slgr RRE "subtract logical 64" esame
-b91b slgfr RRE "subtract logical 64<32" esame
-e30000000046 bctg RXE "branch on count 64" esame
-e3000000002e cvdg RXE "convert to decimal 64" esame
-e3000000000e cvbg RXE "convert to binary 64" esame
-e30000000024 stg RXE "store 64" esame
-e30000000080 ng RXE "and 64" esame
-e30000000021 clg RXE "compare logical 64" esame
-e30000000031 clgf RXE "comparee logical 64<32" esame
-e30000000081 og RXE "or 64" esame
-e30000000082 xg RXE "exclusive or 64" esame
-e30000000004 lg RXE "load 64" esame
-e30000000014 lgf RXE "load 64<32" esame
-e30000000020 cg RXE "compare 64" esame
-e30000000030 cgf RXE "compare 64<32" esame
-e30000000008 ag RXE "add 64" esame
-e30000000018 agf RXE "add 64<32" esame
-e30000000009 sg RXE "subtract 64" esame
-e30000000019 sgf RXE "subtract 64<32" esame
-e3000000000a alg RXE "add logical 64" esame
-e3000000001a algf RXE "add logical 64<32" esame
-e3000000000b slg RXE "subtract logical 64" esame
-e3000000001b slgf RXE "subtract logical 64<32" esame
-e3000000000c msg RXE "multiply single 64" esame
-e3000000001c msgf RXE "multiply single 64<32" esame
-ec0000000044 brxhg RIE_A "branch relative on index high 64" esame
-ec0000000045 brxlg RIE_A "branch relative on index low or equal 64" esame
-eb0000000044 bxhg RSE_R "branch on index high 64" esame
-eb0000000045 bxleg RSE_R "branch on index low or equal 64" esame
-eb000000000c srlg RSE_R "shift right single logical 64" esame
-eb000000000d sllg RSE_R "shift left single logical 64" esame
-eb000000000a srag RSE_R "shift right single 64" esame
-eb000000000b slag RSE_R "shift left single 64" esame
-eb0000000024 stmg RSE_R "store multiple 64" esame
-eb0000000026 stmh RSE_R "store multiple high" esame
-eb0000000004 lmg RSE_R "load multiple 64" esame
-eb0000000096 lmh RSE_R "load multiple high" esame
-ef lmd SS_LMD "load multiple disjoint" esame
-eb000000000f tracg RSE_R "trace 64" esame
-e30000000003 lrag RXE "load real address 64" esame
-e50000000002 strag SSE "store read address" esame
-eb0000000025 stctg RSE_R "store control 64" esame
-eb000000002f lctlg RSE_R "load control 64" esame
-eb0000000030 csg RSE_R "compare and swap 64" esame
-eb000000003e cdsg RSE_R "compare double and swap 64" esame
-eb0000000020 clmh RSE_M "compare logical characters under mask high" esame
-eb000000002c stcmh RSE_M "store characters under mask high" esame
-eb0000000080 icmh RSE_M "insert characters under mask high" esame
-a700 tmlh RI_U "test under mask low high" esame
-a702 tmhh RI_U "test under mask high high" esame
-a701 tmll RI_U "test under mask low low" esame
-a703 tmhl RI_U "test under mask high low" esame
-c004 brcl RIL_MA "branch relative on condition long" esame
-c014 jgo RIL_B "jump long on overflow / if ones" esame
-c024 jgh RIL_B "jump long on high" esame
-c024 jgp RIL_B "jump long on plus" esame
-c034 jgnle RIL_B "jump long on not low or equal" esame
-c044 jgl RIL_B "jump long on low" esame
-c044 jgm RIL_B "jump long on minus / if mixed" esame
-c054 jgnhe RIL_B "jump long on not high or equal" esame
-c074 jgne RIL_B "jump long on not equal" esame
-c074 jgnz RIL_B "jump long on not zero / if not zeros" esame
-c084 jge RIL_B "jump long on equal" esame
-c084 jgz RIL_B "jump long on zero / if zeros" esame
-c0a4 jghe RIL_B "jump long on high or equal" esame
-c0b4 jgnl RIL_B "jump long on not low" esame
-c0b4 jgnm RIL_B "jump long on not minus / if not mixed" esame
-c0c4 jgle RIL_B "jump long on low or equal" esame
-c0d4 jgnh RIL_B "jump long on not high" esame
-c0d4 jgnp RIL_B "jump long on not plus" esame
-c0e4 jgno RIL_B "jump long on not overflow / if not ones" esame
-c0f4 jg RIL_B "jump long" esame
-c005 brasl RIL_A "branch relative and save long" esame
-a707 brctg RI_A "branch relative on count 64" esame
-a709 lghi RI "load halfword immediate 64" esame
-a70b aghi RI "add halfword immediate 64" esame
-a70d mghi RI "multiply halfword immediate 64" esame
-a70f cghi RI "compare halfword immediate 64" esame
-b925 sturg RRE "store using real address 64" esame
-b90e eregg RRE "extract stacked registers 64" esame
-b905 lurag RRE "load using real address 64" esame
-b90c msgr RRE "multiply single 64" esame
-b91c msgfr RRE "multiply single 64<32" esame
-b3a4 cegbr RRE "convert from fixed 64 to short bfp" esame
-b3a5 cdgbr RRE "convert from fixed 64 to long bfp" esame
-b3a6 cxgbr RRE "convert from fixed 64 to extended bfp" esame
-b3a8 cgebr RRF_M "convert to fixed short bfd to 64" esame
-b3a9 cgdbr RRF_M "convert to fixed long bfp to 64" esame
-b3aa cgxbr RRF_M "convert to fixed extended bfp to 64" esame
-b3c4 cegr RRE "convert from fixed 64 to short hfp" esame
-b3c5 cdgr RRE "convert from fixed 64 to long hfp" esame
-b3c6 cxgr RRE "convert from fixed 64 to extended hfp" esame
-b3c8 cger RRF_F "convert to fixed short hfp to 64" esame
-b3c9 cgdr RRF_F "convert to fixed long hfp to 64" esame
-b3ca cgxr RRF_F "convert to fixed extended hfp to 64" esame
-010b tam E "test addressing mode" esame
-010c sam24 E "set addressing mode 24" esame
-010d sam31 E "set addressing mode 31" esame
-010e sam64 E "set addressing mode 64" esame
-a500 iihh RI_U "insert immediate high high" esame
-a501 iihl RI_U "insert immediate high low" esame
-a502 iilh RI_U "insert immediate low high" esame
-a503 iill RI_U "insert immediate low low" esame
-a504 nihh RI_U "and immediate high high" esame
-a505 nihl RI_U "and immediate high low" esame
-a506 nilh RI_U "and immediate low high" esame
-a507 nill RI_U "and immediate low low" esame
-a508 oihh RI_U "or immediate high high" esame
-a509 oihl RI_U "or immediate high low" esame
-a50a oilh RI_U "or immediate low high" esame
-a50b oill RI_U "or immediate low low" esame
-a50c llihh RI_U "load logical immediate high high" esame
-a50d llihl RI_U "load logical immediate high low" esame
-a50e llilh RI_U "load logical immediate low high" esame
-a50f llill RI_U "load logical immediate low low" esame
-b2b1 stfl S "store facility list" esame
-b2b2 lpswe S "load psw extended" esame
-b90d dsgr RRE "divide single 64" esame
-b90f lrvgr RRE "load reversed 64" esame
-b916 llgfr RRE "load logical 64<32" esame
-b917 llgtr RRE "load logical thirty one bits" esame
-b91d dsgfr RRE "divide single 64<32" esame
-b91f lrvr RRE "load reversed 32" esame
-b986 mlgr RRE "multiply logical 64" esame
-b987 dlgr RRE "divide logical 64" esame
-b988 alcgr RRE "add logical with carry 64" esame
-b989 slbgr RRE "subtract logical with borrow 64" esame
-b98d epsw RRE "extract psw" esame
-b996 mlr RRE "multiply logical 32" esame
-b997 dlr RRE "divide logical 32" esame
-b998 alcr RRE "add logical with carry 32" esame
-b999 slbr RRE "subtract logical with borrow 32" esame
-b99d esea RRE_R "extract and set extended authority" esame
-c000 larl RIL_A "load address relative long" esame
-e3000000000d dsg RXE "divide single 64" esame
-e3000000000f lrvg RXE "load reversed 64" esame
-e30000000016 llgf RXE "load logical 64<32" esame
-e30000000017 llgt RXE "load logical thirty one bits" esame
-e3000000001d dsgf RXE "divide single 64<32" esame
-e3000000001e lrv RXE "load reversed 32" esame
-e3000000001f lrvh RXE "load reversed 16" esame
-e3000000002f strvg RXE "store reversed 64" esame
-e3000000003e strv RXE "store reversed 32" esame
-e3000000003f strvh RXE "store reversed 64" esame
-e30000000086 mlg RXE "multiply logical 64" esame
-e30000000087 dlg RXE "divide logical 64" esame
-e30000000088 alcg RXE "add logical with carry 64" esame
-e30000000089 slbg RXE "subtract logical with borrow 64" esame
-e3000000008e stpq RXE "store pair to quadword" esame
-e3000000008f lpq RXE "load pair from quadword" esame
-e30000000096 ml RXE "multiply logical 32" esame
-e30000000097 dl RXE "divide logical 32" esame
-e30000000098 alc RXE "add logical with carry 32" esame
-e30000000099 slb RXE "subtract logical with borrow 32" esame
-e30000000090 llgc RXE "load logical character" esame
-e30000000091 llgh RXE "load logical halfword" esame
-eb000000001c rllg RSE_R "rotate left single logical 64" esame
-eb000000001d rll RSE_R "rotate left single logical 32" esame
-b278 stcke S "store clock extended" esame
-b2a5 tre RRE "translate extended" esame
-eb000000008e mvclu RSE_R "move long unicode" esame
-e9 pka SS_L "pack ascii" esame
-e1 pku SS_L "pack unicode" esame
-b993 troo RRE "translate one to one" esame
-b992 trot RRE "translate one to two" esame
-b991 trto RRE "translate two to one" esame
-b990 trtt RRE "translate two to two" esame
-ea unpka SS_L "unpack ascii" esame
-e2 unpku SS_L "unpack unicode" esame
-b358 thder RRE "convert short bfp to long hfp" esame
-b359 thdr RRE "convert long bfp to long hfp" esame
-b350 tbedr RRF_M "convert long hfp to short bfp" esame
-b351 tbdr RRF_M "convert long hfp to long bfp" esame
-b374 lzer RRE_R "load short zero" esame
-b375 lzdr RRE_R "load long zero" esame
-b376 lzxr RRE_R "load extended zero" esame
+b946 bctgr RRE_RR "branch on count 64" z900 zarch
+b900 lpgr RRE_RR "load positive 64" z900 zarch
+b910 lpgfr RRE_RR "load positive 64<32" z900 zarch
+b901 lngr RRE_RR "load negative 64" z900 zarch
+b911 lngfr RRE_RR "load negative 64<32" z900 zarch
+b902 ltgr RRE_RR "load and test 64" z900 zarch
+b912 ltgfr RRE_RR "load and test 64<32" z900 zarch
+b903 lcgr RRE_RR "load complement 64" z900 zarch
+b913 lcgfr RRE_RR "load complement 64<32" z900 zarch
+b980 ngr RRE_RR "and 64" z900 zarch
+b921 clgr RRE_RR "compare logical 64" z900 zarch
+b931 clgfr RRE_RR "compare logical 64<32" z900 zarch
+b981 ogr RRE_RR "or 64" z900 zarch
+b982 xgr RRE_RR "exclusive or 64" z900 zarch
+b904 lgr RRE_RR "load 64" z900 zarch
+b914 lgfr RRE_RR "load 64<32" z900 zarch
+b920 cgr RRE_RR "compare 64" z900 zarch
+b930 cgfr RRE_RR "compare 64<32" z900 zarch
+b908 agr RRE_RR "add 64" z900 zarch
+b918 agfr RRE_RR "add 64<32" z900 zarch
+b909 sgr RRE_RR "subtract 64" z900 zarch
+b919 sgfr RRE_RR "subtract 64<32" z900 zarch
+b90a algr RRE_RR "add logical 64" z900 zarch
+b91a algfr RRE_RR "add logical 64<32" z900 zarch
+b90b slgr RRE_RR "subtract logical 64" z900 zarch
+b91b slgfr RRE_RR "subtract logical 64<32" z900 zarch
+e30000000046 bctg RXE_RRRD "branch on count 64" z900 zarch
+e3000000002e cvdg RXE_RRRD "convert to decimal 64" z900 zarch
+e3000000000e cvbg RXE_RRRD "convert to binary 64" z900 zarch
+e30000000024 stg RXE_RRRD "store 64" z900 zarch
+e30000000080 ng RXE_RRRD "and 64" z900 zarch
+e30000000021 clg RXE_RRRD "compare logical 64" z900 zarch
+e30000000031 clgf RXE_RRRD "compare logical 64<32" z900 zarch
+e30000000081 og RXE_RRRD "or 64" z900 zarch
+e30000000082 xg RXE_RRRD "exclusive or 64" z900 zarch
+e30000000004 lg RXE_RRRD "load 64" z900 zarch
+e30000000014 lgf RXE_RRRD "load 64<32" z900 zarch
+e30000000015 lgh RXE_RRRD "load halfword 64" z900 zarch
+e30000000020 cg RXE_RRRD "compare 64" z900 zarch
+e30000000030 cgf RXE_RRRD "compare 64<32" z900 zarch
+e30000000008 ag RXE_RRRD "add 64" z900 zarch
+e30000000018 agf RXE_RRRD "add 64<32" z900 zarch
+e30000000009 sg RXE_RRRD "subtract 64" z900 zarch
+e30000000019 sgf RXE_RRRD "subtract 64<32" z900 zarch
+e3000000000a alg RXE_RRRD "add logical 64" z900 zarch
+e3000000001a algf RXE_RRRD "add logical 64<32" z900 zarch
+e3000000000b slg RXE_RRRD "subtract logical 64" z900 zarch
+e3000000001b slgf RXE_RRRD "subtract logical 64<32" z900 zarch
+e3000000000c msg RXE_RRRD "multiply single 64" z900 zarch
+e3000000001c msgf RXE_RRRD "multiply single 64<32" z900 zarch
+ec0000000044 brxhg RIE_RRP "branch relative on index high 64" z900 zarch
+ec0000000045 brxlg RIE_RRP "branch relative on index low or equal 64" z900 zarch
+eb0000000044 bxhg RSE_RRRD "branch on index high 64" z900 zarch
+eb0000000045 bxleg RSE_RRRD "branch on index low or equal 64" z900 zarch
+eb000000000c srlg RSE_RRRD "shift right single logical 64" z900 zarch
+eb000000000d sllg RSE_RRRD "shift left single logical 64" z900 zarch
+eb000000000a srag RSE_RRRD "shift right single 64" z900 zarch
+eb000000000b slag RSE_RRRD "shift left single 64" z900 zarch
+eb0000000024 stmg RSE_RRRD "store multiple 64" z900 zarch
+eb0000000026 stmh RSE_RRRD "store multiple high" z900 zarch
+eb0000000004 lmg RSE_RRRD "load multiple 64" z900 zarch
+eb0000000096 lmh RSE_RRRD "load multiple high" z900 zarch
+ef lmd SS_RRRDRD3 "load multiple disjoint" z900 zarch
+eb000000000f tracg RSE_RRRD "trace 64" z900 zarch
+e30000000003 lrag RXE_RRRD "load real address 64" z900 zarch
+e502 strag SSE_RDRD "store read address" z900 zarch
+eb0000000025 stctg RSE_CCRD "store control 64" z900 zarch
+eb000000002f lctlg RSE_CCRD "load control 64" z900 zarch
+eb0000000030 csg RSE_RRRD "compare and swap 64" z900 zarch
+eb000000003e cdsg RSE_RERERD "compare double and swap 64" z900 zarch
+eb0000000020 clmh RSE_RURD "compare logical characters under mask high" z900 zarch
+eb000000002c stcmh RSE_RURD "store characters under mask high" z900 zarch
+eb0000000080 icmh RSE_RURD "insert characters under mask high" z900 zarch
+a702 tmhh RI_RU "test under mask high high" z900 zarch
+a703 tmhl RI_RU "test under mask high low" z900 zarch
+c004 brcl RIL_UP "branch relative on condition long" z900 esa,zarch
+c004 jg*8 RIL_0P "conditional jump long" z900 esa,zarch
+c0f4 jg RIL_0P "unconditional jump long" z900 esa,zarch
+c005 brasl RIL_RP "branch relative and save long" z900 esa,zarch
+a707 brctg RI_RP "branch relative on count 64" z900 zarch
+a709 lghi RI_RI "load halfword immediate 64" z900 zarch
+a70b aghi RI_RI "add halfword immediate 64" z900 zarch
+a70d mghi RI_RI "multiply halfword immediate 64" z900 zarch
+a70f cghi RI_RI "compare halfword immediate 64" z900 zarch
+b925 sturg RRE_RR "store using real address 64" z900 zarch
+b90e eregg RRE_RR "extract stacked registers 64" z900 zarch
+b905 lurag RRE_RR "load using real address 64" z900 zarch
+b90c msgr RRE_RR "multiply single 64" z900 zarch
+b91c msgfr RRE_RR "multiply single 64<32" z900 zarch
+b3a4 cegbr RRE_FR "convert from fixed 64 to short bfp" z900 zarch
+b3a5 cdgbr RRE_FR "convert from fixed 64 to long bfp" z900 zarch
+b3a6 cxgbr RRE_FER "convert from fixed 64 to extended bfp" z900 zarch
+b3a8 cgebr RRF_U0RF "convert to fixed short bfd to 64" z900 zarch
+b3a9 cgdbr RRF_U0RF "convert to fixed long bfp to 64" z900 zarch
+b3aa cgxbr RRF_U0RFE "convert to fixed extended bfp to 64" z900 zarch
+b3c4 cegr RRE_FR "convert from fixed 64 to short hfp" z900 zarch
+b3c5 cdgr RRE_FR "convert from fixed 64 to long hfp" z900 zarch
+b3c6 cxgr RRE_FER "convert from fixed 64 to extended hfp" z900 zarch
+b3c8 cger RRF_U0RF "convert to fixed short hfp to 64" z900 zarch
+b3c9 cgdr RRF_U0RF "convert to fixed long hfp to 64" z900 zarch
+b3ca cgxr RRF_U0RFE "convert to fixed extended hfp to 64" z900 zarch
+010b tam E "test addressing mode" z900 esa,zarch
+010c sam24 E "set addressing mode 24" z900 esa,zarch
+010d sam31 E "set addressing mode 31" z900 esa,zarch
+010e sam64 E "set addressing mode 64" z900 zarch
+a500 iihh RI_RU "insert immediate high high" z900 zarch
+a501 iihl RI_RU "insert immediate high low" z900 zarch
+a502 iilh RI_RU "insert immediate low high" z900 zarch
+a503 iill RI_RU "insert immediate low low" z900 zarch
+a504 nihh RI_RU "and immediate high high" z900 zarch
+a505 nihl RI_RU "and immediate high low" z900 zarch
+a506 nilh RI_RU "and immediate low high" z900 zarch
+a507 nill RI_RU "and immediate low low" z900 zarch
+a508 oihh RI_RU "or immediate high high" z900 zarch
+a509 oihl RI_RU "or immediate high low" z900 zarch
+a50a oilh RI_RU "or immediate low high" z900 zarch
+a50b oill RI_RU "or immediate low low" z900 zarch
+a50c llihh RI_RU "load logical immediate high high" z900 zarch
+a50d llihl RI_RU "load logical immediate high low" z900 zarch
+a50e llilh RI_RU "load logical immediate low high" z900 zarch
+a50f llill RI_RU "load logical immediate low low" z900 zarch
+b2b1 stfl S_RD "store facility list" z900 esa,zarch
+b2b2 lpswe S_RD "load psw extended" z900 zarch
+b90d dsgr RRE_RER "divide single 64" z900 zarch
+b90f lrvgr RRE_RR "load reversed 64" z900 zarch
+b916 llgfr RRE_RR "load logical 64<32" z900 zarch
+b917 llgtr RRE_RR "load logical thirty one bits" z900 zarch
+b91d dsgfr RRE_RER "divide single 64<32" z900 zarch
+b91f lrvr RRE_RR "load reversed 32" z900 esa,zarch
+b986 mlgr RRE_RER "multiply logical 64" z900 zarch
+b987 dlgr RRE_RER "divide logical 64" z900 zarch
+b988 alcgr RRE_RR "add logical with carry 64" z900 zarch
+b989 slbgr RRE_RR "subtract logical with borrow 64" z900 zarch
+b98d epsw RRE_RR "extract psw" z900 esa,zarch
+b996 mlr RRE_RER "multiply logical 32" z900 esa,zarch
+b997 dlr RRE_RER "divide logical 32" z900 esa,zarch
+b998 alcr RRE_RR "add logical with carry 32" z900 esa,zarch
+b999 slbr RRE_RR "subtract logical with borrow 32" z900 esa,zarch
+b99d esea RRE_R0 "extract and set extended authority" z900 zarch
+c000 larl RIL_RP "load address relative long" z900 esa,zarch
+e3000000000d dsg RXE_RERRD "divide single 64" z900 zarch
+e3000000000f lrvg RXE_RRRD "load reversed 64" z900 zarch
+e30000000016 llgf RXE_RRRD "load logical 64<32" z900 zarch
+e30000000017 llgt RXE_RRRD "load logical thirty one bits" z900 zarch
+e3000000001d dsgf RXE_RERRD "divide single 64<32" z900 zarch
+e3000000001e lrv RXE_RRRD "load reversed 32" z900 esa,zarch
+e3000000001f lrvh RXE_RRRD "load reversed 16" z900 esa,zarch
+e3000000002f strvg RXE_RRRD "store reversed 64" z900 zarch
+e3000000003e strv RXE_RRRD "store reversed 32" z900 esa,zarch
+e3000000003f strvh RXE_RRRD "store reversed 64" z900 esa,zarch
+e30000000086 mlg RXE_RERRD "multiply logical 64" z900 zarch
+e30000000087 dlg RXE_RERRD "divide logical 64" z900 zarch
+e30000000088 alcg RXE_RRRD "add logical with carry 64" z900 zarch
+e30000000089 slbg RXE_RRRD "subtract logical with borrow 64" z900 zarch
+e3000000008e stpq RXE_RRRD "store pair to quadword" z900 zarch
+e3000000008f lpq RXE_RERRD "load pair from quadword" z900 zarch
+e30000000096 ml RXE_RERRD "multiply logical 32" z900 esa,zarch
+e30000000097 dl RXE_RERRD "divide logical 32" z900 esa,zarch
+e30000000098 alc RXE_RRRD "add logical with carry 32" z900 esa,zarch
+e30000000099 slb RXE_RRRD "subtract logical with borrow 32" z900 esa,zarch
+e30000000090 llgc RXE_RRRD "load logical character" z900 zarch
+e30000000091 llgh RXE_RRRD "load logical halfword" z900 zarch
+eb000000001c rllg RSE_RRRD "rotate left single logical 64" z900 zarch
+eb000000001d rll RSE_RRRD "rotate left single logical 32" z900 esa,zarch
+b369 cxr RRE_FEFE "compare extended hfp" g5 esa,zarch
+b3b6 cxfr RRE_FER "convert from fixed 32 to extended hfp" g5 esa,zarch
+b3b5 cdfr RRE_FR "convert from fixed 32 to long hfp" g5 esa,zarch
+b3b4 cefr RRE_FR "convert from fixed 32 to short hfp" g5 esa,zarch
+b3ba cfxr RRF_U0RFE "convert to fixed extended hfp to 32" g5 esa,zarch
+b3b9 cfdr RRF_U0RF "convert to fixed long hfp to 32" g5 esa,zarch
+b3b8 cfer RRF_U0RF "convert to fixed short hfp to 32" g5 esa,zarch
+b362 ltxr RRE_FEFE "load and test extended hfp" g5 esa,zarch
+b363 lcxr RRE_FEFE "load complement extended hfp" g5 esa,zarch
+b367 fixr RRE_FEFE "load fp integer extended hfp" g5 esa,zarch
+b37f fidr RRE_FF "load fp integer long hfp" g5 esa,zarch
+b377 fier RRE_FF "load fp integer short hfp" g5 esa,zarch
+b325 lxdr RRE_FEF "load lengthened long to extended hfp" g5 esa,zarch
+ed0000000025 lxd RXE_FERRD "load lengthened long to extended hfp" g5 esa,zarch
+b326 lxer RRE_FEF "load lengthened short to extended hfp" g5 esa,zarch
+ed0000000026 lxe RXE_FERRD "load lengthened short to extended hfp" g5 esa,zarch
+b324 lder RRE_FF "load lengthened short to long hfp" g5 esa,zarch
+ed0000000024 lde RXE_FRRD "load lengthened short to long hfp" g5 esa,zarch
+b361 lnxr RRE_FEFE "load negative extended hfp" g5 esa,zarch
+b360 lpxr RRE_FEFE "load positive extended hfp" g5 esa,zarch
+b366 lexr RRE_FFE "load rounded extended to short hfp" g5 esa,zarch
+b337 meer RRE_FF "multiply short hfp" g5 esa,zarch
+ed0000000037 mee RXE_FRRD "multiply short hfp" g5 esa,zarch
+b336 sqxr RRE_FEFE "square root extended hfp" g5 esa,zarch
+ed0000000034 sqe RXE_FRRD "square root short hfp" g5 esa,zarch
+ed0000000035 sqd RXE_FRRD "square root long hfp" g5 esa,zarch
+b263 cmpsc RRE_RR "compression call" g5 esa,zarch
+eb00000000c0 tp RSL_R0RD "test decimal" g5 esa,zarch
+b365 lxr RRE_FEFE "load extended fp" g5 esa,zarch
+b22e pgin RRE_RR "page in" g5 esa,zarch
+b22f pgout RRE_RR "page out" g5 esa,zarch
+b276 xsch S_00 "cancel subchannel" g5 esa,zarch
+# New long displacement instructions on z990
+e3000000005a ay RXY_RRRD "add with long offset" z990 zarch
+e3000000007a ahy RXY_RRRD "add halfword with long offset" z990 zarch
+e3000000005e aly RXY_RRRD "add logical with long offset" z990 zarch
+eb0000000054 niy SIY_URD "and immediate with long offset" z990 zarch
+e30000000054 ny RXY_RRRD "and with long offset" z990 zarch
+e30000000059 cy RXY_RRRD "compare with long offset" z990 zarch
+eb0000000014 csy RSY_RRRD "compare and swap with long offset" z990 zarch
+eb0000000031 cdsy RSY_RERERD "compare double and swap with long offset" z990 zarch
+e30000000079 chy RXY_RRRD "compare halfword with long offset" z990 zarch
+e30000000055 cly RXY_RRRD "compare logical with long offset" z990 zarch
+eb0000000055 cliy SIY_URD "compare logical immediate with long offset" z990 zarch
+eb0000000021 clmy RSY_RURD "compare logical characters under mask with long offset" z990 zarch
+e30000000006 cvby RXY_RRRD "convert to binary with long offset" z990 zarch
+e30000000026 cvdy RXY_RRRD "convert to decimal with long offset" z990 zarch
+eb0000000057 xiy SIY_URD "exclusive or immediate with long offset" z990 zarch
+e30000000057 xy RXY_RRRD "exclusive or with long offset" z990 zarch
+e30000000073 icy RXY_RRRD "insert character with long offset" z990 zarch
+eb0000000081 icmy RSY_RURD "insert characters with long offset" z990 zarch
+ed0000000065 ldy RXY_FRRD "load (long) with long offset" z990 zarch
+ed0000000064 ley RXY_FRRD "load (short) with long offset" z990 zarch
+e30000000058 ly RXY_RRRD "load with long offset" z990 zarch
+eb000000009a lamy RSY_AARD "load access multiple" z990 zarch
+e30000000071 lay RXY_RRRD "load address with long offset" z990 zarch
+e30000000076 lb RXY_RRRD "load byte with long offset" z990 zarch
+e30000000077 lgb RXY_RRRD "load byte with long offset 64" z990 zarch
+e30000000078 lhy RXY_RRRD "load halfword with long offset" z990 zarch
+eb0000000098 lmy RSY_RRRD "load multiple with long offset" z990 zarch
+e30000000013 lray RXY_RRRD "load real address with long offset" z990 zarch
+eb0000000052 mviy SIY_URD "move immediate with long offset" z990 zarch
+e30000000051 msy RXY_RRRD "multiply single with long offset" z990 zarch
+eb0000000056 oiy SIY_URD "or immediate with long offset" z990 zarch
+e30000000056 oy RXY_RRRD "or with long offset" z990 zarch
+ed0000000067 stdy RXY_FRRD "store (long) with long offset" z990 zarch
+ed0000000066 stey RXY_FRRD "store (short) with long offset" z990 zarch
+e30000000050 sty RXY_RRRD "store with long offset" z990 zarch
+eb000000009b stamy RSY_AARD "store access multiple with long offset" z990 zarch
+e30000000072 stcy RXY_RRRD "store character with long offset" z990 zarch
+eb000000002d stcmy RSY_RURD "store characters under mask with long offset" z990 zarch
+e30000000070 sthy RXY_RRRD "store halfword with long offset" z990 zarch
+eb0000000090 stmy RSY_RRRD "store multiple with long offset" z990 zarch
+e3000000005b sy RXY_RRRD "subtract with long offset" z990 zarch
+e3000000007b shy RXY_RRRD "subtract halfword with long offset" z990 zarch
+e3000000005f sly RXY_RRRD "subtract logical with long offset" z990 zarch
+eb0000000051 tmy SIY_URD "test under mask with long offset" z990 zarch
+# 'old' instructions extended to long displacement
+# these instructions are entered into the opcode table twice.
+e30000000003 lrag RXY_RRRD "load real address with long offset 64" z990 zarch
+e30000000004 lg RXY_RRRD " load 64" z990 zarch
+e30000000008 ag RXY_RRRD "add with long offset 64" z990 zarch
+e30000000009 sg RXY_RRRD "subtract with long offset 64" z990 zarch
+e3000000000a alg RXY_RRRD "add logical with long offset 64" z990 zarch
+e3000000000b slg RXY_RRRD "subtract logical with long offset 64" z990 zarch
+e3000000000c msg RXY_RRRD "multiply single with long offset 64" z990 zarch
+e3000000000d dsg RXY_RERRD "divide single 64" z990 zarch
+e3000000000e cvbg RXY_RRRD "convert to binary with long offset 64" z990 zarch
+e3000000000f lrvg RXY_RRRD "load reversed 64" z990 zarch
+e30000000014 lgf RXY_RRRD "load 64<32" z990 zarch
+e30000000015 lgh RXY_RRRD "load halfword 64" z990 zarch
+e30000000016 llgf RXY_RRRD "load logical 64<32" z990 zarch
+e30000000017 llgt RXY_RRRD "load logical thirty one bits" z990 zarch
+e30000000018 agf RXY_RRRD "add with long offset 64<32" z990 zarch
+e30000000019 sgf RXY_RRRD "subtract with long offset 64<32" z990 zarch
+e3000000001a algf RXY_RRRD "add logical with long offset 64<32" z990 zarch
+e3000000001b slgf RXY_RRRD "subtract logical with long offset 64<32" z990 zarch
+e3000000001c msgf RXY_RRRD "multiply single with long offset 64<32" z990 zarch
+e3000000001d dsgf RXY_RERRD "divide single 64<32" z990 zarch
+e3000000001e lrv RXY_RRRD "load reversed 32" z990 esa,zarch
+e3000000001f lrvh RXY_RRRD "load reversed 16" z990 esa,zarch
+e30000000020 cg RXY_RRRD "compare with long offset 64" z990 zarch
+e30000000021 clg RXY_RRRD "compare logical with long offset 64" z990 zarch
+e30000000024 stg RXY_RRRD "store with long offset 64" z990 zarch
+e3000000002e cvdg RXY_RRRD "convert to decimal with long offset 64" z990 zarch
+e3000000002f strvg RXY_RRRD "store reversed 64" z990 zarch
+e30000000030 cgf RXY_RRRD "compare with long offset 64<32" z990 zarch
+e30000000031 clgf RXY_RRRD "compare logical with long offset 64<32" z990 zarch
+e3000000003e strv RXY_RRRD "store reversed 32" z990 esa,zarch
+e3000000003f strvh RXY_RRRD "store reversed 64" z990 zarch
+e30000000046 bctg RXY_RRRD "branch on count 64" z990 zarch
+e30000000080 ng RXY_RRRD "and with long offset 64" z990 zarch
+e30000000081 og RXY_RRRD "or with long offset 64" z990 zarch
+e30000000082 xg RXY_RRRD "exclusive or with long offset 64" z990 zarch
+e30000000086 mlg RXY_RERRD "multiply logical 64" z990 zarch
+e30000000087 dlg RXY_RERRD "divide logical 64" z990 zarch
+e30000000088 alcg RXY_RRRD "add logical with carry 64" z990 zarch
+e30000000089 slbg RXY_RRRD "subtract logical with borrow 64" z990 zarch
+e3000000008e stpq RXY_RRRD "store pair to quadword" z990 zarch
+e3000000008f lpq RXY_RERRD "load pair from quadword" z990 zarch
+e30000000090 llgc RXY_RRRD "load logical character" z990 zarch
+e30000000091 llgh RXY_RRRD "load logical halfword" z990 zarch
+e30000000096 ml RXY_RERRD "multiply logical 32" z990 esa,zarch
+e30000000097 dl RXY_RERRD "divide logical 32" z990 esa,zarch
+e30000000098 alc RXY_RRRD "add logical with carry 32" z990 esa,zarch
+e30000000099 slb RXY_RRRD "subtract logical with borrow 32" z990 esa,zarch
+eb0000000004 lmg RSY_RRRD "load multiple with long offset 64" z990 zarch
+eb000000000a srag RSY_RRRD "shift right single 64" z990 zarch
+eb000000000b slag RSY_RRRD "shift left single 64" z990 zarch
+eb000000000c srlg RSY_RRRD "shift right single logical 64" z990 zarch
+eb000000000d sllg RSY_RRRD "shift left single logical 64" z990 zarch
+eb000000000f tracg RSY_RRRD "trace 64" z990 zarch
+eb000000001c rllg RSY_RRRD "rotate left single logical 64" z990 zarch
+eb000000001d rll RSY_RRRD "rotate left single logical 32" z990 esa,zarch
+eb0000000020 clmh RSY_RURD "compare logical characters under mask high with long offset" z990 zarch
+eb0000000024 stmg RSY_RRRD "store multiple with long offset 64" z990 zarch
+eb0000000025 stctg RSY_CCRD "store control 64" z990 zarch
+eb0000000026 stmh RSY_RRRD "store multiple high" z990 zarch
+eb000000002c stcmh RSY_RURD "store characters under mask high with long offset" z990 zarch
+eb000000002f lctlg RSY_CCRD "load control 64" z990 zarch
+eb0000000030 csg RSY_RRRD "compare and swap with long offset 64" z990 zarch
+eb000000003e cdsg RSY_RERERD "compare double and swap with long offset 64" z990 zarch
+eb0000000044 bxhg RSY_RRRD "branch on index high 64" z990 zarch
+eb0000000045 bxleg RSY_RRRD "branch on index low or equal 64" z990 zarch
+eb0000000080 icmh RSY_RURD "insert characters under mask high with long offset" z990 zarch
+eb000000008e mvclu RSY_RERERD "move long unicode" z990 esa,zarch
+eb000000008f clclu RSY_RRRD "compare logical long unicode with long offset" z990 esa,zarch
+eb0000000096 lmh RSY_RRRD "load multiple high" z990 zarch
+# new z990 instructions
+b98a cspg RRE_RR "compare and swap and purge" z990 zarch
+b98e idte RRF_R0RR "invalidate dat table entry" z990 zarch
+b33e madr RRF_F0FF "multiply and add long hfp" z990 esa,zarch
+ed000000003e mad RXF_FRRDF "multiply and add long hfp" z990 esa,zarch
+b32e maer RRF_F0FF "multiply and add short hfp" z990 esa,zarch
+ed000000002e mae RXF_FRRDF "multiply and add short hfp" z990 esa,zarch
+b33f msdr RRF_F0FF "multiply and subtract long hfp" z990 esa,zarch
+ed000000003f msd RXF_FRRDF "multiply and subtract long hfp" z990 esa,zarch
+b32f mser RRF_F0FF "mutliply and subtract short hfp" z990 esa,zarch
+ed000000002f mse RXF_FRRDF "multiply and subttract short hfp" z990 esa,zarch
+b92e km RRE_RR "cipher message" z990 esa,zarch
+b92f kmc RRE_RR "cipher message with chaining" z990 esa,zarch
+b93e kimd RRE_RR "compute intermediate message digest" z990 esa,zarch
+b93f klmd RRE_RR "compute last message digest" z990 esa,zarch
+b91e kmac RRE_RR "compute message authentication code" z990 esa,zarch
+b99a epair RRE_R0 "extract primary ASN and instance" z990 esa,zarch
+b99b esair RRE_R0 "extract secondary ASN and instance" z990 esa,zarch
+b99e pti RRE_RR "program transfer with instance" z990 esa,zarch
+b99f ssair RRE_R0 "set secondary ASN with instance" z990 esa,zarch
+
+# z9-109 extended immediate instructions
+c209 afi RIL_RI "add immediate 32" z9-109 zarch
+c208 agfi RIL_RI "add immediate 64<32" z9-109 zarch
+c20b alfi RIL_RU "add logical immediate 32" z9-109 zarch
+c20a algfi RIL_RU "add logical immediate 64<32" z9-109 zarch
+c00a nihf RIL_RU "and immediate high" z9-109 zarch
+c00b nilf RIL_RU "and immediate low" z9-109 zarch
+c20d cfi RIL_RI "compare immediate 32" z9-109 zarch
+c20c cgfi RIL_RI "compare immediate 64<32" z9-109 zarch
+c20f clfi RIL_RU "compare logical immediate 32" z9-109 zarch
+c20e clgfi RIL_RU "compare logical immediate 64<32" z9-109 zarch
+c006 xihf RIL_RU "exclusive or immediate high" z9-109 zarch
+c007 xilf RIL_RU "exclusive or immediate low" z9-109 zarch
+c008 iihf RIL_RU "insert immediate high" z9-109 zarch
+c009 iilf RIL_RU "insert immediate low" z9-109 zarch
+# z9-109 misc instruction
+b983 flogr RRE_RER "find leftmost one" z9-109 zarch
+e30000000012 lt RXY_RRRD "load and test 32" z9-109 zarch
+e30000000002 ltg RXY_RRRD "load and test 64" z9-109 zarch
+b926 lbr RRE_RR "load byte 32" z9-109 zarch
+b906 lgbr RRE_RR "load byte 64" z9-109 zarch
+b927 lhr RRE_RR "load halfword 32" z9-109 zarch
+b907 lghr RRE_RR "load halfword 64" z9-109 zarch
+c001 lgfi RIL_RI "load immediate 64<32" z9-109 zarch
+e30000000094 llc RXY_RRRD "load logical character 32" z9-109 zarch
+b994 llcr RRE_RR "load logical character 32" z9-109 zarch
+b984 llgcr RRE_RR "load logical character 64" z9-109 zarch
+e30000000095 llh RXY_RRRD "load logical halfword 32" z9-109 zarch
+b995 llhr RRE_RR "load logical halfword 32" z9-109 zarch
+b985 llghr RRE_RR "load logical halfword 64" z9-109 zarch
+c00e llihf RIL_RU "load logical immediate high" z9-109 zarch
+c00f llilf RIL_RU "load logical immediate low" z9-109 zarch
+c00c oihf RIL_RU "or immediate high" z9-109 zarch
+c00d oilf RIL_RU "or immediate low" z9-109 zarch
+c205 slfi RIL_RU "subtract logical immediate 32" z9-109 zarch
+c204 slgfi RIL_RU "subtract logical immediate 64<32" z9-109 zarch
+0104 ptff E "perform timing facility function" z9-109 zarch
+# z9-109 store facility list extended
+b2b0 stfle S_RD "store facility list extended" z9-109 zarch
+# z9-109 store clock fast
+b27c stckf S_RD "store clock fast" z9-109 zarch
+# z9-109 move with optional specifications instruction
+c800 mvcos SSF_RRDRD "move with optional specifications" z9-109 zarch
+# z9-109 load page-table-entry address instruction
+b9aa lptea RRF_RURR2 "load page-table-entry address" z9-109 zarch
+# z9-109 conditional sske facility, sske instruction entered twice
+b22b sske RRF_M0RR "set storage key extended" z9-109 zarch
+# z9-109 etf2-enhancement facility, instructions entered twice
+b993 troo RRF_M0RERE "translate one to one" z9-109 esa,zarch
+b992 trot RRF_M0RERE "translate one to two" z9-109 esa,zarch
+b991 trto RRF_M0RERE "translate two to one" z9-109 esa,zarch
+b990 trtt RRF_M0RERE "translate two to two" z9-109 esa,zarch
+# z9-109 etf3-enhancement facility, some instructions entered twice
+b9b1 cu24 RRF_M0RERE "convert utf-16 to utf-32" z9-109 zarch
+b2a6 cu21 RRF_M0RERE "convert utf-16 to utf-8" z9-109 zarch
+b2a6 cuutf RRF_M0RERE "convert unicode to utf-8" z9-109 zarch
+b9b3 cu42 RRE_RERE "convert utf-32 to utf-16" z9-109 zarch
+b9b2 cu41 RRE_RERE "convert utf-32 to utf-8" z9-109 zarch
+b2a7 cu12 RRF_M0RERE "convert utf-8 to utf-16" z9-109 zarch
+b2a7 cutfu RRF_M0RERE "convert utf-8 to unicode" z9-109 zarch
+b9b0 cu14 RRF_M0RERE "convert utf-8 to utf-32" z9-109 zarch
+b9be srstu RRE_RR "search string unicode" z9-109 zarch
+d0 trtr SS_L0RDRD "tranlate and test reverse" z9-109 zarch
+# z9-109 unnormalized hfp multiply & multiply and add
+b33b myr RRF_FE0FF "multiply unnormalized long hfp" z9-109 zarch
+b33d myhr RRF_F0FF "multiply unnormalized long hfp high" z9-109 zarch
+b339 mylr RRF_F0FF "multiply unnormalized long hfp low" z9-109 zarch
+ed000000003b my RXF_FRRDFE "multiply unnormalized long hfp" z9-109 zarch
+ed000000003d myh RXF_FRRDF "multiply unnormalized long hfp high" z9-109 zarch
+ed0000000039 myl RXF_FRRDF "multiply unnormalized long hfp low" z9-109 zarch
+b33a mayr RRF_F0FF "multiply and add unnormalized long hfp" z9-109 zarch
+b33c mayhr RRF_F0FF "multiply and add unnormalized long hfp high" z9-109 zarch
+b338 maylr RRF_F0FF "multiply and add unnormalized long hfp low" z9-109 zarch
+ed000000003a may RXF_FRRDF "multiply and add unnormalized long hfp" z9-109 zarch
+ed000000003c mayh RXF_FRRDF "multiply and add unnormalized long hfp high" z9-109 zarch
+ed0000000038 mayl RXF_FRRDF "multiply and add unnormalized long hfp low" z9-109 zarch
+b370 lpdfr RRE_FF "load positive no cc" z9-ec zarch
+b371 lndfr RRE_FF "load negative no cc" z9-ec zarch
+b372 cpsdr RRF_F0FF2 "copy sign" z9-ec zarch
+b373 lcdfr RRE_FF "load complement no cc" z9-ec zarch
+b3c1 ldgr RRE_FR "load fpr from gr" z9-ec zarch
+b3cd lgdr RRE_RF "load gr from fpr" z9-ec zarch
+b3d2 adtr RRR_F0FF "add long dfp" z9-ec zarch
+b3da axtr RRR_FE0FEFE "add extended dfp" z9-ec zarch
+b3e4 cdtr RRE_FF "compare long dfp" z9-ec zarch
+b3ec cxtr RRE_FEFE "compare extended dfp" z9-ec zarch
+b3e0 kdtr RRE_FF "compare and signal long dfp" z9-ec zarch
+b3e8 kxtr RRE_FF "compare and signal extended dfp" z9-ec zarch
+b3f4 cedtr RRE_FF "compare exponent long dfp" z9-ec zarch
+b3fc cextr RRE_FEFE "compare exponent extended dfp" z9-ec zarch
+b3f1 cdgtr RRE_FR "convert from fixed long dfp" z9-ec zarch
+b3f9 cxgtr RRE_FER "convert from fixed extended dfp" z9-ec zarch
+b3f3 cdstr RRE_FR "convert from signed bcd long dfp" z9-ec zarch
+b3fb cxstr RRE_FR "convert from signed bcd extended dfp" z9-ec zarch
+b3f2 cdutr RRE_FR "convert from unsigned bcd to long dfp" z9-ec zarch
+b3fa cxutr RRE_FER "convert from unsigned bcd to extended dfp" z9-ec zarch
+b3e1 cgdtr RRF_U0RF "convert from long dfp to fixed" z9-ec zarch
+b3e9 cgxtr RRF_U0RFE "convert from extended dfp to fixed" z9-ec zarch
+b3e3 csdtr RRE_RF "convert from long dfp to signed bcd" z9-ec zarch
+b3eb csxtr RRE_RFE "convert from extended dfp to signed bcd" z9-ec zarch
+b3e2 cudtr RRE_RF "convert from long dfp to unsigned bcd" z9-ec zarch
+b3ea cuxtr RRE_RFE "convert from extended dfp to unsigned bcd" z9-ec zarch
+b3d1 ddtr RRR_F0FF "divide long dfp" z9-ec zarch
+b3d9 dxtr RRR_FE0FEFE "divide extended dfp" z9-ec zarch
+b3e5 eedtr RRE_RF "extract biased exponent from long dfp" z9-ec zarch
+b3ed eextr RRE_RFE "extract biased exponent from extended dfp" z9-ec zarch
+b3e7 esdtr RRE_RF "extract significance from long dfp" z9-ec zarch
+b3ef esxtr RRE_RFE "extract significance from extended dfp" z9-ec zarch
+b3f6 iedtr RRF_F0FR "insert biased exponent long dfp" z9-ec zarch
+b3fe iextr RRF_FE0FER "insert biased exponent extended dfp" z9-ec zarch
+b3d6 ltdtr RRE_FF "load and test long dfp" z9-ec zarch
+b3de ltxtr RRE_FEFE "load and test extended dfp" z9-ec zarch
+b3d7 fidtr RRF_UUFF "load fp integer long dfp" z9-ec zarch
+b3df fixtr RRF_UUFEFE "load fp integer extended dfp" z9-ec zarch
+b2bd lfas S_RD "load fpd and signal" z9-ec zarch
+b3d4 ldetr RRF_0UFF "load lengthened long dfp" z9-ec zarch
+b3dc lxdtr RRF_0UFEF "load lengthened extended dfp" z9-ec zarch
+b3d5 ledtr RRF_UUFF "load rounded long dfp" z9-ec zarch
+b3dd ldxtr RRF_UUFFE "load rounded extended dfp" z9-ec zarch
+b3d0 mdtr RRR_F0FF "multiply long dfp" z9-ec zarch
+b3d8 mxtr RRR_FE0FEFE "multiply extended dfp" z9-ec zarch
+b3f5 qadtr RRF_FUFF "Quantize long dfp" z9-ec zarch
+b3fd qaxtr RRF_FEUFEFE "Quantize extended dfp" z9-ec zarch
+b3f7 rrdtr RRF_FFRU "Reround long dfp" z9-ec zarch
+b3ff rrxtr RRF_FEFERU "Reround extended dfp" z9-ec zarch
+b2b9 srnmt S_RD "set rounding mode dfp" z9-ec zarch
+b385 sfasr RRE_R0 "set fpc and signal" z9-ec zarch
+ed0000000040 sldt RXF_FRRDF "shift coefficient left long dfp" z9-ec zarch
+ed0000000048 slxt RXF_FERRDFE "shift coefficient left extended dfp" z9-ec zarch
+ed0000000041 srdt RXF_FRRDF "shift coefficient right long dfp" z9-ec zarch
+ed0000000049 srxt RXF_FERRDFE "shift coefficient right extended dfp" z9-ec zarch
+b3d3 sdtr RRR_F0FF "subtract long dfp" z9-ec zarch
+b3db sxtr RRR_FE0FEFE "subtract extended dfp" z9-ec zarch
+ed0000000050 tdcet RXE_FRRD "test data class short dfp" z9-ec zarch
+ed0000000054 tdcdt RXE_FRRD "test data class long dfp" z9-ec zarch
+ed0000000058 tdcxt RXE_FERRD "test data class extended dfp" z9-ec zarch
+ed0000000051 tdget RXE_FRRD "test data group short dfp" z9-ec zarch
+ed0000000055 tdgdt RXE_FRRD "test data group long dfp" z9-ec zarch
+ed0000000059 tdgxt RXE_FERRD "test data group extended dfp" z9-ec zarch
+010a pfpo E "perform floating point operation" z9-ec zarch
+c801 ectg SSF_RRDRD "extract cpu time" z9-ec zarch
+c802 csst SSF_RRDRD "compare and swap and store" z9-ec zarch
+
+# The new instructions of the System z10 Enterprise Class
+eb000000006a asi SIY_IRD "add immediate (32<8)" z10 zarch
+eb000000007a agsi SIY_IRD "add immediate (64<8)" z10 zarch
+eb000000006e alsi SIY_IRD "add logical with signed immediate (32<8)" z10 zarch
+eb000000007e algsi SIY_IRD "add logical with signed immediate (64<8)" z10 zarch
+c60d crl RIL_RP "compare relative long (32)" z10 zarch
+c608 cgrl RIL_RP "compare relative long (64)" z10 zarch
+c60c cgfrl RIL_RP "compare relative long (64<32)" z10 zarch
+ec00000000f6 crb$32 RRS_RRRD0 "compare and branch (32)" z10 zarch
+ec00000000f6 crb RRS_RRRDU "compare and branch (32)" z10 zarch
+ec00000000e4 cgrb$32 RRS_RRRD0 "compare and branch (64)" z10 zarch
+ec00000000e4 cgrb RRS_RRRDU "compare and branch (64)" z10 zarch
+ec0000000076 crj$32 RIE_RRP "compare and branch relative (32)" z10 zarch
+ec0000000076 crj RIE_RRPU "compare and branch relative (32)" z10 zarch
+ec0000000064 cgrj$32 RIE_RRP0 "compare and branch relative (64)" z10 zarch
+ec0000000064 cgrj RIE_RRPU "compare and branch relative (64)" z10 zarch
+ec00000000fe cib$12 RIS_R0RDI "compare immediate and branch (32<8)" z10 zarch
+ec00000000fe cib RIS_RURDI "compare immediate and branch (32<8)" z10 zarch
+ec00000000fc cgib$12 RIS_R0RDI "compare immediate and branch (64<8)" z10 zarch
+ec00000000fc cgib RIS_RURDI "compare immediate and branch (64<8)" z10 zarch
+ec000000007e cij$12 RIE_R0PI "compare immediate and branch relative (32<8)" z10 zarch
+ec000000007e cij RIE_RUPI "compare immediate and branch relative (32<8)" z10 zarch
+ec000000007c cgij$12 RIE_R0PI "compare immediate and branch relative (64<8)" z10 zarch
+ec000000007c cgij RIE_RUPI "compare immediate and branch relative (64<8)" z10 zarch
+b97200000000 crt$16 RRF_00RR "compare and trap" z10 zarch
+b972 crt RRF_U0RR "compare and trap" z10 zarch
+b96000000000 cgrt$16 RRF_00RR "compare and trap 64" z10 zarch
+b960 cgrt RRF_U0RR "compare and trap 64" z10 zarch
+ec0000000072 cit$32 RIE_R0I0 "compare immediate and trap (32<16)" z10 zarch
+ec0000000072 cit RIE_R0IU "compare immediate and trap (32<16)" z10 zarch
+ec0000000070 cgit$32 RIE_R0I0 "compare immediate and trap (64<16)" z10 zarch
+ec0000000070 cgit RIE_R0IU "compare immediate and trap (64<16)" z10 zarch
+e30000000034 cgh RXY_RRRD "compare halfword (64<16)" z10 zarch
+e554 chhsi SIL_RDI "compare halfword immediate (16<16)" z10 zarch
+e55c chsi SIL_RDI "compare halfword immediate (32<16)" z10 zarch
+e558 cghsi SIL_RDI "compare halfword immediate (64<16)" z10 zarch
+c605 chrl RIL_RP "compare halfword relative long (32<8)" z10 zarch
+c604 cghrl RIL_RP "compare halfword relative long (64<8)" z10 zarch
+e555 clhhsi SIL_RDU "compare logical immediate (16<16)" z10 zarch
+e55d clfhsi SIL_RDU "compare logical immediate (32<16)" z10 zarch
+e559 clghsi SIL_RDU "compare logical immediate (64<16)" z10 zarch
+c60f clrl RIL_RP "compare logical relative long (32)" z10 zarch
+c60a clgrl RIL_RP "compare logical relative long (64)" z10 zarch
+c60e clgfrl RIL_RP "compare logical relative long (64<32)" z10 zarch
+c607 clhrl RIL_RP "compare logical relative long (32<16)" z10 zarch
+c606 clghrl RIL_RP "compare logical relative long (64<16)" z10 zarch
+ec00000000f7 clrb$32 RRS_RRRD0 "compare logical and branch (32)" z10 zarch
+ec00000000f7 clrb RRS_RRRDU "compare logical and branch (32)" z10 zarch
+ec00000000e5 clgrb$32 RRS_RRRD0 "compare logical and branch (64)" z10 zarch
+ec00000000e5 clgrb RRS_RRRDU "compare logical and branch (64)" z10 zarch
+ec0000000077 clrj$32 RIE_RRP "compare logical and branch relative (32)" z10 zarch
+ec0000000077 clrj RIE_RRPU "compare logical and branch relative (32)" z10 zarch
+ec0000000065 clgrj$32 RIE_RRP "compare logical and branch relative (64)" z10 zarch
+ec0000000065 clgrj RIE_RRPU "compare logical and branch relative (64)" z10 zarch
+ec00000000ff clib$12 RIS_R0RDU "compare logical immediate and branch (32<8)" z10 zarch
+ec00000000ff clib RIS_RURDU "compare logical immediate and branch (32<8)" z10 zarch
+ec00000000fd clgib$12 RIS_R0RDU "compare logical immediate and branch (64<8)" z10 zarch
+ec00000000fd clgib RIS_RURDU "compare logical immediate and branch (64<8)" z10 zarch
+ec000000007f clij$12 RIE_R0PU "compare logical immediate and branch relative (32<8)" z10 zarch
+ec000000007f clij RIE_RUPU "compare logical immediate and branch relative (32<8)" z10 zarch
+ec000000007d clgij$12 RIE_R0PU "compare logical immediate and branch relative (64<8)" z10 zarch
+ec000000007d clgij RIE_RUPU "compare logical immediate and branch relative (64<8)" z10 zarch
+b97300000000 clrt$16 RRF_00RR "compare logical and trap (32)" z10 zarch
+b973 clrt RRF_U0RR "compare logical and trap (32)" z10 zarch
+b96100000000 clgrt$16 RRF_00RR "compare logical and trap (64)" z10 zarch
+b961 clgrt RRF_U0RR "compare logical and trap (64)" z10 zarch
+ec0000000073 clfit$32 RIE_R0U0 "compare logical and trap (32<16)" z10 zarch
+ec0000000073 clfit RIE_R0UU "compare logical and trap (32<16)" z10 zarch
+ec0000000071 clgit$32 RIE_R0U0 "compare logical and trap (64<16)" z10 zarch
+ec0000000071 clgit RIE_R0UU "compare logical and trap (64<16)" z10 zarch
+eb000000004c ecag RSY_RRRD "extract cache attribute" z10 zarch
+c40d lrl RIL_RP "load relative long (32)" z10 zarch
+c408 lgrl RIL_RP "load relative long (64)" z10 zarch
+c40c lgfrl RIL_RP "load relative long (64<32)" z10 zarch
+e30000000075 laey RXY_RRRD "load address extended" z10 zarch
+e30000000032 ltgf RXY_RRRD "load and test (64<32)" z10 zarch
+c405 lhrl RIL_RP "load halfword relative long (32<16)" z10 zarch
+c404 lghrl RIL_RP "load halfword relative long (64<16)" z10 zarch
+c40e llgfrl RIL_RP "load logical relative long (64<32)" z10 zarch
+c402 llhrl RIL_RP "load logical halfword relative long (32<16)" z10 zarch
+c406 llghrl RIL_RP "load logical halfword relative long (64<16)" z10 zarch
+e544 mvhhi SIL_RDI "move (16<16)" z10 zarch
+e54c mvhi SIL_RDI "move (32<16)" z10 zarch
+e548 mvghi SIL_RDI "move (64<16)" z10 zarch
+e3000000005c mfy RXY_RERRD "multiply" z10 zarch
+e3000000007c mhy RXY_RRRD "multiply halfword" z10 zarch
+c201 msfi RIL_RI "multiply single immediate (32)" z10 zarch
+c200 msgfi RIL_RI "multiply single immediate (64)" z10 zarch
+e30000000036 pfd RXY_URRD "prefetch data" z10 zarch
+c602 pfdrl RIL_UP "prefetch data relative long" z10 zarch
+ec0000000054 rnsbg RIE_RRUUU "rotate then and selected bits" z10 zarch
+ec0000000057 rxsbg RIE_RRUUU "rotate then exclusive or selected bits" z10 zarch
+ec0000000056 rosbg RIE_RRUUU "rotate then or selected bits" z10 zarch
+ec0000000055 risbg RIE_RRUUU "rotate then insert selected bits" z10 zarch
+c40f strl RIL_RP "store relative long (32)" z10 zarch
+c40b stgrl RIL_RP "store relative long (64)" z10 zarch
+c407 sthrl RIL_RP "store halfword relative long" z10 zarch
+c600 exrl RIL_RP "execute relative long" z10 zarch
+af00 mc SI_URD "monitor call" z10 zarch
+b9a2 ptf RRE_R0 "perform topology function" z10 zarch
+b9af pfmf RRE_RR "perform frame management function" z10 zarch
+b9bf trte RRF_M0RER "translate and test extended" z10 zarch
+b9bd trtre RRF_M0RER "translate and test reverse extended" z10 zarch
+b2ed ecpga RRE_RR "extract coprocessor-group address" z10 zarch
+b2e4 ecctr RRE_RR "extract cpu counter" z10 zarch
+b2e5 epctr RRE_RR "extract peripheral counter" z10 zarch
+b284 lcctl S_RD "load cpu-counter-set controls" z10 zarch
+b285 lpctl S_RD "load peripheral-counter-set controls" z10 zarch
+b287 lsctl S_RD "load sampling controls" z10 zarch
+b28e qctri S_RD "query counter information" z10 zarch
+b286 qsi S_RD "query sampling information" z10 zarch
+b2e0 scctr RRE_RR "set cpu counter" z10 zarch
+b2e1 spctr RRE_RR "set peripheral counter" z10 zarch
+b280 lpp S_RD "load program parameter" z10 zarch
+b928 pckmo RRE_00 "perform cryptographic key management operation" z10 zarch
+
+# The new instructions of the IBM zEnterprise z196
+b9c8 ahhhr RRF_R0RR2 "add high high" z196 zarch
+b9d8 ahhlr RRF_R0RR2 "add high low" z196 zarch
+cc08 aih RIL_RI "add immediate high" z196 zarch
+b9ca alhhhr RRF_R0RR2 "add logical high high" z196 zarch
+b9da alhhlr RRF_R0RR2 "add logical high low" z196 zarch
+cc0a alsih RIL_RI "add logical with signed immediate high with cc" z196 zarch
+cc0b alsihn RIL_RI "add logical with signed immediate high no cc" z196 zarch
+cc06 brcth RIL_RP "branch relative on count high" z196 zarch
+b9cd chhr RRE_RR "compare high high" z196 zarch
+b9dd chlr RRE_RR "compare high low" z196 zarch
+e300000000cd chf RXY_RRRD "compare high" z196 zarch
+cc0d cih RIL_RI "compare immediate high" z196 zarch
+b9cf clhhr RRE_RR "compare logical high high" z196 zarch
+b9df clhlr RRE_RR "compare logical high low" z196 zarch
+e300000000cf clhf RXY_RRRD "compare logical high" z196 zarch
+cc0f clih RIL_RU "compare logical immediate" z196 zarch
+e300000000c0 lbh RXY_RRRD "load byte high" z196 zarch
+e300000000c4 lhh RXY_RRRD "load halfword high" z196 zarch
+e300000000ca lfh RXY_RRRD "load high" z196 zarch
+e300000000c2 llch RXY_RRRD "load logical character high" z196 zarch
+e300000000c6 llhh RXY_RRRD "load logical halfword high" z196 zarch
+ec000000005d risbhg RIE_RRUUU "rotate then insert selected bits high" z196 zarch
+ec0000000051 risblg RIE_RRUUU "rotate then insert selected bits low" z196 zarch
+e300000000c3 stch RXY_RRRD "store character high" z196 zarch
+e300000000c7 sthh RXY_RRRD "store halfword high" z196 zarch
+e300000000cb stfh RXY_RRRD "store high" z196 zarch
+b9c9 shhhr RRF_R0RR2 "subtract high high" z196 zarch
+b9d9 shhlr RRF_R0RR2 "subtract high low" z196 zarch
+b9cb slhhhr RRF_R0RR2 "subtract logical high high" z196 zarch
+b9db slhhlr RRF_R0RR2 "subtract logical high low" z196 zarch
+eb00000000f8 laa RSY_RRRD "load and add 32 bit" z196 zarch
+eb00000000e8 laag RSY_RRRD "load and add 64 bit" z196 zarch
+eb00000000fa laal RSY_RRRD "load and add logical 32 bit" z196 zarch
+eb00000000ea laalg RSY_RRRD "load and add logical 64 bit" z196 zarch
+eb00000000f4 lan RSY_RRRD "load and and 32 bit" z196 zarch
+eb00000000e4 lang RSY_RRRD "load and and 64 bit" z196 zarch
+eb00000000f7 lax RSY_RRRD "load and exclusive or 32 bit" z196 zarch
+eb00000000e7 laxg RSY_RRRD "load and exclusive or 64 bit" z196 zarch
+eb00000000f6 lao RSY_RRRD "load and or 32 bit" z196 zarch
+eb00000000e6 laog RSY_RRRD "load and or 64 bit" z196 zarch
+c804 lpd SSF_RERDRD2 "load pair disjoint 32 bit" z196 zarch
+c805 lpdg SSF_RERDRD2 "load pair disjoint 64 bit" z196 zarch
+b9f2 locr RRF_U0RR "load on condition 32 bit" z196 zarch
+b9f200000000 locr*16 RRF_00RR "load on condition 32 bit" z196 zarch
+b9e2 locgr RRF_U0RR "load on condition 64 bit" z196 zarch
+b9e200000000 locgr*16 RRF_00RR "load on condition 64 bit" z196 zarch
+eb00000000f2 loc RSY_RURD2 "load on condition 32 bit" z196 zarch
+eb00000000f2 loc*12 RSY_R0RD "load on condition 32 bit" z196 zarch
+eb00000000e2 locg RSY_RURD2 "load on condition 64 bit" z196 zarch
+eb00000000e2 locg*12 RSY_R0RD "load on condition 64 bit" z196 zarch
+eb00000000f3 stoc RSY_RURD2 "store on condition 32 bit" z196 zarch
+eb00000000f3 stoc*12 RSY_R0RD "store on condition 32 bit" z196 zarch
+eb00000000e3 stocg RSY_RURD2 "store on condition 64 bit" z196 zarch
+eb00000000e3 stocg*12 RSY_R0RD "store on condition 64 bit" z196 zarch
+b9f8 ark RRF_R0RR2 "add 3 operands 32 bit" z196 zarch
+b9e8 agrk RRF_R0RR2 "add 3 operands 64 bit" z196 zarch
+ec00000000d8 ahik RIE_RRI0 "add immediate 3 operands 32 bit" z196 zarch
+ec00000000d9 aghik RIE_RRI0 "add immediate 3 operands 64 bit" z196 zarch
+b9fa alrk RRF_R0RR2 "add logical 3 operands 32 bit" z196 zarch
+b9ea algrk RRF_R0RR2 "add logical 3 operands 64 bit" z196 zarch
+ec00000000da alhsik RIE_RRI0 "add logical immediate 3 operands 32 bit" z196 zarch
+ec00000000db alghsik RIE_RRI0 "add logical immediate 3 operands 64 bit" z196 zarch
+b9f4 nrk RRF_R0RR2 "and 3 operands 32 bit" z196 zarch
+b9e4 ngrk RRF_R0RR2 "and 3 operands 64 bit" z196 zarch
+b9f7 xrk RRF_R0RR2 "xor 3 operands 32 bit" z196 zarch
+b9e7 xgrk RRF_R0RR2 "xor 3 operands 64 bit" z196 zarch
+b9f6 ork RRF_R0RR2 "or 3 operands 32 bit" z196 zarch
+b9e6 ogrk RRF_R0RR2 "or 3 operands 64 bit" z196 zarch
+eb00000000dd slak RSY_RRRD "shift left single 3 operands 32 bit" z196 zarch
+eb00000000df sllk RSY_RRRD "shift left single logical 3 operands 32 bit" z196 zarch
+eb00000000dc srak RSY_RRRD "shift right single 3 operands 32 bit" z196 zarch
+eb00000000de srlk RSY_RRRD "shift right single logical 3 operands 32 bit" z196 zarch
+b9f9 srk RRF_R0RR2 "subtract 3 operands 32 bit" z196 zarch
+b9e9 sgrk RRF_R0RR2 "subtract 3 operands 64 bit" z196 zarch
+b9fb slrk RRF_R0RR2 "subtract logical 3 operands 32 bit" z196 zarch
+b9eb slgrk RRF_R0RR2 "subtract logical 3 operands 64 bit" z196 zarch
+b9e1 popcnt RRE_RR "population count" z196 zarch
+b9ae rrbm RRE_RR "reset reference bits multiple" z196 zarch
+b394 cefbra RRF_UUFR "convert from 32 bit fixed to short bfp with rounding mode" z196 zarch
+b395 cdfbra RRF_UUFR "convert from 32 bit fixed to long bfp with rounding mode" z196 zarch
+b396 cxfbra RRF_UUFER "convert from 32 bit fixed to extended bfp with rounding mode" z196 zarch
+b3a4 cegbra RRF_UUFR "convert from 64 bit fixed to short bfp with rounding mode" z196 zarch
+b3a5 cdgbra RRF_UUFR "convert from 64 bit fixed to long bfp with rounding mode" z196 zarch
+b3a6 cxgbra RRF_UUFER "convert from 64 bit fixed to extended bfp with rounding mode" z196 zarch
+b390 celfbr RRF_UUFR "convert from 32 bit logical fixed to short bfp with rounding mode" z196 zarch
+b391 cdlfbr RRF_UUFR "convert from 32 bit logical fixed to long bfp with rounding mode" z196 zarch
+b392 cxlfbr RRF_UUFER "convert from 32 bit logical fixed to extended bfp with rounding mode" z196 zarch
+b3a0 celgbr RRF_UUFR "convert from 64 bit logical fixed to short bfp with rounding mode" z196 zarch
+b3a1 cdlgbr RRF_UUFR "convert from 64 bit logical fixed to long bfp with rounding mode" z196 zarch
+b3a2 cxlgbr RRF_UUFER "convert from 64 bit logical fixed to extended bfp with rounding mode" z196 zarch
+b398 cfebra RRF_UURF "convert to 32 bit fixed from short bfp with rounding mode" z196 zarch
+b399 cfdbra RRF_UURF "convert to 32 bit fixed from long bfp with rounding mode" z196 zarch
+b39a cfxbra RRF_UURFE "convert to 32 bit fixed from extended bfp with rounding mode" z196 zarch
+b3a8 cgebra RRF_UURF "convert to 64 bit fixed from short bfp with rounding mode" z196 zarch
+b3a9 cgdbra RRF_UURF "convert to 64 bit fixed from long bfp with rounding mode" z196 zarch
+b3aa cgxbra RRF_UURFE "convert to 64 bit fixed from extended bfp with rounding mode" z196 zarch
+b39c clfebr RRF_UURF "convert to 32 bit fixed logical from short bfp with rounding mode" z196 zarch
+b39d clfdbr RRF_UURF "convert to 32 bit fixed logical from long bfp with rounding mode" z196 zarch
+b39e clfxbr RRF_UURFE "convert to 32 bit fixed logical from extended bfp with rounding mode" z196 zarch
+b3ac clgebr RRF_UURF "convert to 64 bit fixed logical from short bfp with rounding mode" z196 zarch
+b3ad clgdbr RRF_UURF "convert to 64 bit fixed logical from long bfp with rounding mode" z196 zarch
+b3ae clgxbr RRF_UURFE "convert to 64 bit fixed logical from extended bfp with rounding mode" z196 zarch
+b357 fiebra RRF_UUFF "load fp integer short bfp with inexact suppression" z196 zarch
+b35f fidbra RRF_UUFF "load fp integer long bfp with inexact suppression" z196 zarch
+b347 fixbra RRF_UUFEFE "load fp integer extended bfp with inexact suppression" z196 zarch
+b344 ledbra RRF_UUFF "load rounded short/long bfp to short/long bfp with rounding mode" z196 zarch
+b345 ldxbra RRF_UUFEFE "load rounded long/extended bfp to long/extended bfp with rounding mode" z196 zarch
+b346 lexbra RRF_UUFEFE "load rounded short/extended bfp to short/extended bfp with rounding mode" z196 zarch
+b3d2 adtra RRF_FUFF2 "add long dfp with rounding mode" z196 zarch
+b3da axtra RRF_FEUFEFE2 "add extended dfp with rounding mode" z196 zarch
+b3f1 cdgtra RRF_UUFR "convert from fixed long dfp with rounding mode" z196 zarch
+b951 cdftr RRF_UUFR "convert from 32 bit fixed to long dfp with rounding mode" z196 zarch
+b959 cxftr RRF_UUFER "convert from 32 bit fixed to extended dfp with rounding mode" z196 zarch
+b3f9 cxgtra RRF_UUFER "convert from fixed extended dfp with rounding mode" z196 zarch
+b952 cdlgtr RRF_UUFR "convert from 64 bit fixed logical to long dfp with rounding mode" z196 zarch
+b95a cxlgtr RRF_UUFER "convert from 64 bit fixed logical to extended dfp with rounding mode" z196 zarch
+b953 cdlftr RRF_UUFR "convert from 32 bit fixed logical to long dfp with rounding mode" z196 zarch
+b95b cxlftr RRF_UUFR "convert from 32 bit fixed logical to extended dfp with rounding mode" z196 zarch
+b3e1 cgdtra RRF_UURF "convert to 64 bit fixed from long dfp with rounding mode" z196 zarch
+b3e9 cgxtra RRF_UURFE "convert to 64 bit fixed from extended dfp with rounding mode" z196 zarch
+b941 cfdtr RRF_UURF "convert to 32 bit fixed from long dfp source with rounding mode" z196 zarch
+b949 cfxtr RRF_UURF "convert to 32 bit fixed from extended dfp source with rounding mode" z196 zarch
+b942 clgdtr RRF_UURF "convert to 64 bit fixed logical from long dfp with rounding mode" z196 zarch
+b94a clgxtr RRF_UURFE "convert to 64 bit fixed logical from extended dfp with rounding mode" z196 zarch
+b943 clfdtr RRF_UURF "convert to 32 bit fixed logical from long dfp with rounding mode" z196 zarch
+b94b clfxtr RRF_UURFE "convert to 32 bit fixed logical from extended dfp with rounding mode" z196 zarch
+b3d1 ddtra RRF_FUFF2 "divide long dfp with rounding mode" z196 zarch
+b3d9 dxtra RRF_FEUFEFE2 "divide extended dfp with rounding mode" z196 zarch
+b3d0 mdtra RRF_FUFF2 "multiply long dfp with rounding mode" z196 zarch
+b3d8 mxtra RRF_FEUFEFE2 "multiply extended dfp with rounding mode" z196 zarch
+b3d3 sdtra RRF_FUFF2 "subtract long dfp with rounding mode" z196 zarch
+b3db sxtra RRF_FEUFEFE2 "subtract extended dfp with rounding mode" z196 zarch
+b2b8 srnmb S_RD "set 3 bit bfp rounding mode" z196 zarch
+b92a kmf RRE_RR "cipher message with CFB" z196 zarch
+b92b kmo RRE_RR "cipher message with OFB" z196 zarch
+b92c pcc RRE_00 "perform cryptographic computation" z196 zarch
+b92d kmctr RRF_R0RR2 "cipher message with counter" z196 zarch
+
+# The new instructions of the IBM zEnterprise EC12
+b2ec etnd RRE_R0 "extract transaction nesting depth" zEC12 zarch
+e30000000025 ntstg RXY_RRRD "nontransactional store" zEC12 zarch
+b2fc tabort S_RD "transaction abort" zEC12 zarch
+e560 tbegin SIL_RDU "transaction begin" zEC12 zarch
+e561 tbeginc SIL_RDU "constrained transaction begin" zEC12 zarch
+b2f8 tend S_00 "transaction end" zEC12 zarch
+c7 bpp SMI_U0RDP "branch prediction preload" zEC12 zarch
+c5 bprp MII_UPP "branch prediction relative preload" zEC12 zarch
+b2e8 ppa RRF_U0RR "perform processor assist" zEC12 zarch
+b2fa niai IE_UU "next instruction access intent" zEC12 zarch
+b98f crdte RRF_RMRR "compare and replace DAT table entry" zEC12 zarch
+e3000000009f lat RXY_RRRD "load and trap 32 bit" zEC12 zarch
+e30000000085 lgat RXY_RRRD "load and trap 64 bit" zEC12 zarch
+e300000000c8 lfhat RXY_RRRD "load high and trap" zEC12 zarch
+e3000000009d llgfat RXY_RRRD "load logical and trap 32>64" zEC12 zarch
+e3000000009c llgtat RXY_RRRD "load logical thirty one bits and trap 31>64" zEC12 zarch
+eb0000000023 clt RSY_RURD "compare logical and trap 32 bit reg-mem" zEC12 zarch
+eb0000000023 clt$12 RSY_R0RD "compare logical and trap 32 bit reg-mem" zEC12 zarch
+eb000000002b clgt RSY_RURD "compare logical and trap 64 bit reg-mem" zEC12 zarch
+eb000000002b clgt$12 RSY_R0RD "compare logical and trap 64 bit reg-mem" zEC12 zarch
+ec0000000059 risbgn RIE_RRUUU "rotate then insert selected bits nocc" zEC12 zarch
+ed00000000aa cdzt RSL_LRDFU "convert from zoned long" zEC12 zarch
+ed00000000ab cxzt RSL_LRDFEU "convert from zoned extended" zEC12 zarch
+ed00000000a8 czdt RSL_LRDFU "convert to zoned long" zEC12 zarch
+ed00000000a9 czxt RSL_LRDFEU "convert to zoned extended" zEC12 zarch