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authorAndreas Krebbel <krebbel@linux.vnet.ibm.com>2017-01-02 16:40:29 +0100
committerAndreas Krebbel <krebbel@linux.vnet.ibm.com>2017-02-23 18:27:38 +0100
commit64025b4ec97fe8e932c367c6cb719e5fcf2448e8 (patch)
treef554076ffd3f22091fffb3c0cdf1d1b5305a32cd /opcodes
parent14bc53a81471e0b550de1c24d4d5266f676aacc3 (diff)
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S/390: Add support for new cpu architecture - arch12.
This adds support of new instructions to the S/390 specific parts. The important feature of the new instruction set is the support of single and extended precision floating point vector operations. Note: arch12 is NOT the official name of the new CPU. It just continues the series of archXX options supported as alternate names. The archXX terminology refers to the edition number of the Principle of Operations manual. The official CPU name will be added later while keeping support of the arch12 for backwards compatibility. No testsuite regressions. Committed to mainline. Bye, -Andreas- opcodes/ChangeLog: 2017-02-23 Andreas Krebbel <krebbel@linux.vnet.ibm.com> * s390-mkopc.c (main): Accept arch12 as cpu string and vx2 as facility. * s390-opc.c: Add new operand description macros, new instruction types, instruction masks, and new .insn instruction types. * s390-opc.txt: Add new arch12 instructions. include/ChangeLog: 2017-02-23 Andreas Krebbel <krebbel@linux.vnet.ibm.com> * opcode/s390.h (enum s390_opcode_cpu_val): New value S390_OPCODE_ARCH12. (S390_INSTR_FLAG_VX2): New macro definition. gas/ChangeLog: 2017-02-23 Andreas Krebbel <krebbel@linux.vnet.ibm.com> * config/tc-s390.c (s390_parse_cpu): New entry for arch12. * doc/as.texinfo: Document arch12 as cpu type. * doc/c-s390.texi: Likewise. * testsuite/gas/s390/s390.exp: Run arch12 specific tests. * testsuite/gas/s390/zarch-arch12.d: New test. * testsuite/gas/s390/zarch-arch12.s: New test. * testsuite/gas/s390/zarch-z13.d: Rename some mnemonics in the output patterns.
Diffstat (limited to 'opcodes')
-rw-r--r--opcodes/s390-mkopc.c6
-rw-r--r--opcodes/s390-opc.c101
-rw-r--r--opcodes/s390-opc.txt283
3 files changed, 311 insertions, 79 deletions
diff --git a/opcodes/s390-mkopc.c b/opcodes/s390-mkopc.c
index 0d63db9..8e0b332 100644
--- a/opcodes/s390-mkopc.c
+++ b/opcodes/s390-mkopc.c
@@ -374,6 +374,8 @@ main (void)
else if (strcmp (cpu_string, "z13") == 0
|| strcmp (cpu_string, "arch11") == 0)
min_cpu = S390_OPCODE_Z13;
+ else if (strcmp (cpu_string, "arch12") == 0)
+ min_cpu = S390_OPCODE_ARCH12;
else {
fprintf (stderr, "Couldn't parse cpu string %s\n", cpu_string);
exit (1);
@@ -417,6 +419,10 @@ main (void)
&& (str[2] == 0 || str[2] == ',')) {
flag_bits |= S390_INSTR_FLAG_VX;
str += 2;
+ } else if (strncmp (str, "vx2", 3) == 0
+ && (str[3] == 0 || str[3] == ',')) {
+ flag_bits |= S390_INSTR_FLAG_VX2;
+ str += 3;
} else {
fprintf (stderr, "Couldn't parse flags string %s\n",
flags_string);
diff --git a/opcodes/s390-opc.c b/opcodes/s390-opc.c
index b2b915e..ca75375 100644
--- a/opcodes/s390-opc.c
+++ b/opcodes/s390-opc.c
@@ -220,28 +220,30 @@ const struct s390_operand s390_operands[] =
{ 8, 16, 0 },
#define U8_24 69 /* 8 bit unsigned value starting at 24 */
{ 8, 24, 0 },
-#define U8_32 70 /* 8 bit unsigned value starting at 32 */
+#define U8_28 70 /* 8 bit unsigned value starting at 28 */
+ { 8, 28, 0 },
+#define U8_32 71 /* 8 bit unsigned value starting at 32 */
{ 8, 32, 0 },
-#define U12_16 71 /* 12 bit unsigned value starting at 16 */
+#define U12_16 72 /* 12 bit unsigned value starting at 16 */
{ 12, 16, 0 },
-#define U16_16 72 /* 16 bit unsigned value starting at 16 */
+#define U16_16 73 /* 16 bit unsigned value starting at 16 */
{ 16, 16, 0 },
-#define U16_32 73 /* 16 bit unsigned value starting at 32 */
+#define U16_32 74 /* 16 bit unsigned value starting at 32 */
{ 16, 32, 0 },
-#define U32_16 74 /* 32 bit unsigned value starting at 16 */
+#define U32_16 75 /* 32 bit unsigned value starting at 16 */
{ 32, 16, 0 },
/* PC-relative address operands. */
-#define J12_12 75 /* 12 bit PC relative offset at 12 */
+#define J12_12 76 /* 12 bit PC relative offset at 12 */
{ 12, 12, S390_OPERAND_PCREL },
-#define J16_16 76 /* 16 bit PC relative offset at 16 */
+#define J16_16 77 /* 16 bit PC relative offset at 16 */
{ 16, 16, S390_OPERAND_PCREL },
-#define J16_32 77 /* 16 bit PC relative offset at 32 */
+#define J16_32 78 /* 16 bit PC relative offset at 32 */
{ 16, 32, S390_OPERAND_PCREL },
-#define J24_24 78 /* 24 bit PC relative offset at 24 */
+#define J24_24 79 /* 24 bit PC relative offset at 24 */
{ 24, 24, S390_OPERAND_PCREL },
-#define J32_16 79 /* 32 bit PC relative offset at 16 */
+#define J32_16 80 /* 32 bit PC relative offset at 16 */
{ 32, 16, S390_OPERAND_PCREL },
};
@@ -425,6 +427,7 @@ const struct s390_operand s390_operands[] =
#define INSTR_RXY_RERRD 6, { RE_8,D20_20,X_12,B_16,0,0 } /* e.g. dsg */
#define INSTR_RXY_FRRD 6, { F_8,D20_20,X_12,B_16,0,0 } /* e.g. ley */
#define INSTR_RXY_URRD 6, { U4_8,D20_20,X_12,B_16,0,0 } /* e.g. pfd */
+#define INSTR_RXY_0RRD 6, { D20_20,X_12,B_16,0,0 } /* e.g. bic */
#define INSTR_RX_0RRD 4, { D_20,X_12,B_16,0,0,0 } /* e.g. be */
#define INSTR_RX_FRRD 4, { F_8,D_20,X_12,B_16,0,0 } /* e.g. ae */
#define INSTR_RX_FERRD 4, { FE_8,D_20,X_12,B_16,0,0 } /* e.g. mxd */
@@ -454,23 +457,29 @@ const struct s390_operand s390_operands[] =
#define INSTR_VRI_V 6, { V_8,0,0,0,0,0 } /* e.g. vzero */
#define INSTR_VRI_V0UUU 6, { V_8,U8_16,U8_24,U4_32,0,0 } /* e.g. vgm */
#define INSTR_VRI_V0UU 6, { V_8,U8_16,U8_24,0,0,0 } /* e.g. vgmb */
+#define INSTR_VRI_V0UU2 6, { V_8,U16_16,U4_32,0,0,0 } /* e.g. vlip */
#define INSTR_VRI_VVUU 6, { V_8,V_12,U16_16,U4_32,0,0 } /* e.g. vrep */
#define INSTR_VRI_VVU 6, { V_8,V_12,U16_16,0,0,0 } /* e.g. vrepb */
#define INSTR_VRI_VVU2 6, { V_8,V_12,U12_16,0,0,0 } /* e.g. vftcidb */
#define INSTR_VRI_V0IU 6, { V_8,I16_16,U4_32,0,0,0 } /* e.g. vrepi */
#define INSTR_VRI_V0I 6, { V_8,I16_16,0,0,0,0 } /* e.g. vrepib */
#define INSTR_VRI_VVV0UU 6, { V_8,V_12,V_16,U8_24,U4_32,0 } /* e.g. verim */
+#define INSTR_VRI_VVV0UU2 6, { V_8,V_12,V_16,U8_28,U4_24,0 } /* e.g. vap */
#define INSTR_VRI_VVV0U 6, { V_8,V_12,V_16,U8_24,0,0 } /* e.g. verimb*/
#define INSTR_VRI_VVUUU 6, { V_8,V_12,U12_16,U4_32,U4_28,0 } /* e.g. vftci */
+#define INSTR_VRI_VVUUU2 6, { V_8,V_12,U8_28,U8_16,U4_24,0 } /* e.g. vpsop */
+#define INSTR_VRI_VR0UU 6, { V_8,R_12,U8_28,U4_24,0,0 } /* e.g. vcvd */
#define INSTR_VRX_VRRD 6, { V_8,D_20,X_12,B_16,0,0 } /* e.g. vl */
#define INSTR_VRX_VV 6, { V_8,V_12,0,0,0,0 } /* e.g. vlr */
-#define INSTR_VRX_VRRDU 6, { V_8,D_20,X_12,B_16,U4_32,0 } /* e.g. vlrp */
+#define INSTR_VRX_VRRDU 6, { V_8,D_20,X_12,B_16,U4_32,0 } /* e.g. vlrep */
#define INSTR_VRS_RVRDU 6, { R_8,V_12,D_20,B_16,U4_32,0 } /* e.g. vlgv */
#define INSTR_VRS_RVRD 6, { R_8,V_12,D_20,B_16,0,0 } /* e.g. vlgvb */
#define INSTR_VRS_VVRDU 6, { V_8,V_12,D_20,B_16,U4_32,0 } /* e.g. verll */
#define INSTR_VRS_VVRD 6, { V_8,V_12,D_20,B_16,0,0 } /* e.g. vlm */
#define INSTR_VRS_VRRDU 6, { V_8,R_12,D_20,B_16,U4_32,0 } /* e.g. vlvg */
#define INSTR_VRS_VRRD 6, { V_8,R_12,D_20,B_16,0,0 } /* e.g. vlvgb */
+#define INSTR_VRS_RRDV 6, { V_32,R_12,D_20,B_16,0,0 } /* e.g. vlrlr */
+#define INSTR_VRR_0V 6, { V_12,0,0,0,0,0 } /* e.g. vtp */
#define INSTR_VRR_VRR 6, { V_8,R_12,R_16,0,0,0 } /* e.g. vlvgp */
#define INSTR_VRR_VVV0U 6, { V_8,V_12,V_16,U4_32,0,0 } /* e.g. vmrh */
#define INSTR_VRR_VVV0U0 6, { V_8,V_12,V_16,U4_24,0,0 } /* e.g. vfaeb */
@@ -499,6 +508,9 @@ const struct s390_operand s390_operands[] =
#define INSTR_VRR_VV0UUU 6, { V_8,V_12,U4_32,U4_28,U4_24,0 } /* e.g. vcdg */
#define INSTR_VRR_VVVU0UV 6, { V_8,V_12,V_16,V_32,U4_28,U4_20 } /* e.g. vfma */
#define INSTR_VRR_VV0U0U 6, { V_8,V_12,U4_32,U4_24,0,0 } /* e.g. vistr */
+#define INSTR_VRR_0VV0U 6, { V_12,V_16,U4_24,0,0,0 } /* e.g. vcp */
+#define INSTR_VRR_RV0U 6, { R_8,V_12,U4_24,0,0,0 } /* e.g. vcvb */
+#define INSTR_VSI_URDV 6, { V_32,D_20,B_16,U8_8,0,0 } /* e.g. vlrl */
#define MASK_E { 0xff, 0xff, 0x00, 0x00, 0x00, 0x00 }
#define MASK_IE_UU { 0xff, 0xff, 0xff, 0x00, 0x00, 0x00 }
@@ -631,6 +643,7 @@ const struct s390_operand s390_operands[] =
#define MASK_RXY_RERRD { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
#define MASK_RXY_FRRD { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
#define MASK_RXY_URRD { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
+#define MASK_RXY_0RRD { 0xff, 0xf0, 0x00, 0x00, 0x00, 0xff }
#define MASK_RX_0RRD { 0xff, 0xf0, 0x00, 0x00, 0x00, 0x00 }
#define MASK_RX_FRRD { 0xff, 0x00, 0x00, 0x00, 0x00, 0x00 }
#define MASK_RX_FERRD { 0xff, 0x00, 0x00, 0x00, 0x00, 0x00 }
@@ -660,14 +673,18 @@ const struct s390_operand s390_operands[] =
#define MASK_VRI_V { 0xff, 0x0f, 0xff, 0xff, 0xf0, 0xff }
#define MASK_VRI_V0UUU { 0xff, 0x0f, 0x00, 0x00, 0x00, 0xff }
#define MASK_VRI_V0UU { 0xff, 0x0f, 0x00, 0x00, 0xf0, 0xff }
+#define MASK_VRI_V0UU2 { 0xff, 0x0f, 0x00, 0x00, 0x00, 0xff }
#define MASK_VRI_VVUU { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
#define MASK_VRI_VVU { 0xff, 0x00, 0x00, 0x00, 0xf0, 0xff }
#define MASK_VRI_VVU2 { 0xff, 0x00, 0x00, 0x0f, 0xf0, 0xff }
#define MASK_VRI_V0IU { 0xff, 0x0f, 0x00, 0x00, 0x00, 0xff }
#define MASK_VRI_V0I { 0xff, 0x0f, 0x00, 0x00, 0xf0, 0xff }
#define MASK_VRI_VVV0UU { 0xff, 0x00, 0x0f, 0x00, 0x00, 0xff }
+#define MASK_VRI_VVV0UU2 { 0xff, 0x00, 0x0f, 0x00, 0x00, 0xff }
#define MASK_VRI_VVV0U { 0xff, 0x00, 0x0f, 0x00, 0xf0, 0xff }
#define MASK_VRI_VVUUU { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
+#define MASK_VRI_VVUUU2 { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
+#define MASK_VRI_VR0UU { 0xff, 0x00, 0xff, 0x00, 0x00, 0xff }
#define MASK_VRX_VRRD { 0xff, 0x00, 0x00, 0x00, 0xf0, 0xff }
#define MASK_VRX_VV { 0xff, 0x00, 0xff, 0xff, 0xf0, 0xff }
#define MASK_VRX_VRRDU { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
@@ -677,6 +694,8 @@ const struct s390_operand s390_operands[] =
#define MASK_VRS_VVRD { 0xff, 0x00, 0x00, 0x00, 0xf0, 0xff }
#define MASK_VRS_VRRDU { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
#define MASK_VRS_VRRD { 0xff, 0x00, 0x00, 0x00, 0xf0, 0xff }
+#define MASK_VRS_RRDV { 0xff, 0xf0, 0x00, 0x00, 0x00, 0xff }
+#define MASK_VRR_0V { 0xff, 0xf0, 0xff, 0xff, 0xf0, 0xff }
#define MASK_VRR_VRR { 0xff, 0x00, 0x0f, 0xff, 0xf0, 0xff }
#define MASK_VRR_VVV0U { 0xff, 0x00, 0x0f, 0xff, 0x00, 0xff }
#define MASK_VRR_VVV0U0 { 0xff, 0x00, 0x0f, 0x0f, 0xf0, 0xff }
@@ -705,36 +724,46 @@ const struct s390_operand s390_operands[] =
#define MASK_VRR_VV0UUU { 0xff, 0x00, 0xff, 0x00, 0x00, 0xff }
#define MASK_VRR_VVVU0UV { 0xff, 0x00, 0x00, 0xf0, 0x00, 0xff }
#define MASK_VRR_VV0U0U { 0xff, 0x00, 0xff, 0x0f, 0x00, 0xff }
+#define MASK_VRR_0VV0U { 0xff, 0xf0, 0x0f, 0x0f, 0xf0, 0xff }
+#define MASK_VRR_RV0U { 0xff, 0x00, 0xff, 0x0f, 0xf0, 0xff }
+#define MASK_VSI_URDV { 0xff, 0x00, 0x00, 0x00, 0x00, 0xff }
+
/* The opcode formats table (blueprints for .insn pseudo mnemonic). */
const struct s390_opcode s390_opformats[] =
{
- { "e", OP8(0x00LL), MASK_E, INSTR_E, 3, 0 ,0 },
- { "ri", OP8(0x00LL), MASK_RI_RI, INSTR_RI_RI, 3, 0 ,0 },
- { "rie", OP8(0x00LL), MASK_RIE_RRP, INSTR_RIE_RRP, 3, 0 ,0 },
- { "ril", OP8(0x00LL), MASK_RIL_RP, INSTR_RIL_RP, 3, 0 ,0 },
- { "rilu", OP8(0x00LL), MASK_RIL_RU, INSTR_RIL_RU, 3, 0 ,0 },
- { "ris", OP8(0x00LL), MASK_RIS_RURDI, INSTR_RIS_RURDI,3, 6 ,0 },
- { "rr", OP8(0x00LL), MASK_RR_RR, INSTR_RR_RR, 3, 0 ,0 },
- { "rre", OP8(0x00LL), MASK_RRE_RR, INSTR_RRE_RR, 3, 0 ,0 },
- { "rrf", OP8(0x00LL), MASK_RRF_RURR, INSTR_RRF_RURR, 3, 0 ,0 },
- { "rrs", OP8(0x00LL), MASK_RRS_RRRDU, INSTR_RRS_RRRDU,3, 6 ,0 },
- { "rs", OP8(0x00LL), MASK_RS_RRRD, INSTR_RS_RRRD, 3, 0 ,0 },
- { "rse", OP8(0x00LL), MASK_RSE_RRRD, INSTR_RSE_RRRD, 3, 0 ,0 },
- { "rsi", OP8(0x00LL), MASK_RSI_RRP, INSTR_RSI_RRP, 3, 0 ,0 },
- { "rsy", OP8(0x00LL), MASK_RSY_RRRD, INSTR_RSY_RRRD, 3, 3 ,0 },
- { "rx", OP8(0x00LL), MASK_RX_RRRD, INSTR_RX_RRRD, 3, 0 ,0 },
- { "rxe", OP8(0x00LL), MASK_RXE_RRRD, INSTR_RXE_RRRD, 3, 0 ,0 },
- { "rxf", OP8(0x00LL), MASK_RXF_RRRDR, INSTR_RXF_RRRDR,3, 0 ,0 },
- { "rxy", OP8(0x00LL), MASK_RXY_RRRD, INSTR_RXY_RRRD, 3, 3 ,0 },
- { "s", OP8(0x00LL), MASK_S_RD, INSTR_S_RD, 3, 0 ,0 },
- { "si", OP8(0x00LL), MASK_SI_URD, INSTR_SI_URD, 3, 0 ,0 },
- { "siy", OP8(0x00LL), MASK_SIY_URD, INSTR_SIY_URD, 3, 3 ,0 },
- { "sil", OP8(0x00LL), MASK_SIL_RDI, INSTR_SIL_RDI, 3, 6 ,0 },
- { "ss", OP8(0x00LL), MASK_SS_RRRDRD, INSTR_SS_RRRDRD,3, 0 ,0 },
- { "sse", OP8(0x00LL), MASK_SSE_RDRD, INSTR_SSE_RDRD, 3, 0 ,0 },
- { "ssf", OP8(0x00LL), MASK_SSF_RRDRD, INSTR_SSF_RRDRD,3, 0 ,0 },
+ { "e", OP8(0x00LL), MASK_E, INSTR_E, 3, 0 ,0 },
+ { "ri", OP8(0x00LL), MASK_RI_RI, INSTR_RI_RI, 3, 0 ,0 },
+ { "rie", OP8(0x00LL), MASK_RIE_RRP, INSTR_RIE_RRP, 3, 0 ,0 },
+ { "ril", OP8(0x00LL), MASK_RIL_RP, INSTR_RIL_RP, 3, 0 ,0 },
+ { "rilu", OP8(0x00LL), MASK_RIL_RU, INSTR_RIL_RU, 3, 0 ,0 },
+ { "ris", OP8(0x00LL), MASK_RIS_RURDI, INSTR_RIS_RURDI, 3, 6 ,0 },
+ { "rr", OP8(0x00LL), MASK_RR_RR, INSTR_RR_RR, 3, 0 ,0 },
+ { "rre", OP8(0x00LL), MASK_RRE_RR, INSTR_RRE_RR, 3, 0 ,0 },
+ { "rrf", OP8(0x00LL), MASK_RRF_RURR, INSTR_RRF_RURR, 3, 0 ,0 },
+ { "rrs", OP8(0x00LL), MASK_RRS_RRRDU, INSTR_RRS_RRRDU, 3, 6 ,0 },
+ { "rs", OP8(0x00LL), MASK_RS_RRRD, INSTR_RS_RRRD, 3, 0 ,0 },
+ { "rse", OP8(0x00LL), MASK_RSE_RRRD, INSTR_RSE_RRRD, 3, 0 ,0 },
+ { "rsi", OP8(0x00LL), MASK_RSI_RRP, INSTR_RSI_RRP, 3, 0 ,0 },
+ { "rsy", OP8(0x00LL), MASK_RSY_RRRD, INSTR_RSY_RRRD, 3, 3 ,0 },
+ { "rx", OP8(0x00LL), MASK_RX_RRRD, INSTR_RX_RRRD, 3, 0 ,0 },
+ { "rxe", OP8(0x00LL), MASK_RXE_RRRD, INSTR_RXE_RRRD, 3, 0 ,0 },
+ { "rxf", OP8(0x00LL), MASK_RXF_RRRDR, INSTR_RXF_RRRDR, 3, 0 ,0 },
+ { "rxy", OP8(0x00LL), MASK_RXY_RRRD, INSTR_RXY_RRRD, 3, 3 ,0 },
+ { "s", OP8(0x00LL), MASK_S_RD, INSTR_S_RD, 3, 0 ,0 },
+ { "si", OP8(0x00LL), MASK_SI_URD, INSTR_SI_URD, 3, 0 ,0 },
+ { "siy", OP8(0x00LL), MASK_SIY_URD, INSTR_SIY_URD, 3, 3 ,0 },
+ { "sil", OP8(0x00LL), MASK_SIL_RDI, INSTR_SIL_RDI, 3, 6 ,0 },
+ { "ss", OP8(0x00LL), MASK_SS_RRRDRD, INSTR_SS_RRRDRD, 3, 0 ,0 },
+ { "sse", OP8(0x00LL), MASK_SSE_RDRD, INSTR_SSE_RDRD, 3, 0 ,0 },
+ { "ssf", OP8(0x00LL), MASK_SSF_RRDRD, INSTR_SSF_RRDRD, 3, 0 ,0 },
+ { "vrv", OP8(0x00LL), MASK_VRV_VVXRDU, INSTR_VRV_VVXRDU, 3, 9 ,0 },
+ { "vri", OP8(0x00LL), MASK_VRI_VVUUU, INSTR_VRI_VVUUU, 3, 9 ,0 },
+ { "vrx", OP8(0x00LL), MASK_VRX_VRRDU, INSTR_VRX_VRRDU, 3, 9 ,0 },
+ { "vrs", OP8(0x00LL), MASK_VRS_RVRDU, INSTR_VRS_RVRDU, 3, 9 ,0 },
+ { "vrr", OP8(0x00LL), MASK_VRR_VVV0UUU, INSTR_VRR_VVV0UUU, 3, 9 ,0 },
+ { "vsi", OP8(0x00LL), MASK_VSI_URDV, INSTR_VSI_URDV, 3, 10 ,0 },
};
const int s390_num_opformats =
diff --git a/opcodes/s390-opc.txt b/opcodes/s390-opc.txt
index 1e58712..b381587 100644
--- a/opcodes/s390-opc.txt
+++ b/opcodes/s390-opc.txt
@@ -630,7 +630,7 @@ 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
+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
@@ -1584,27 +1584,27 @@ e7000230008a vstrczfs VRR_VVVU0VB3 "vector string range compare word" z13 zarch
# Chapter 24
e700000000e3 vfa VRR_VVV0UU "vector fp add" z13 zarch vx
-e700000030e3 vfadb VRR_VVV "vector fp add" z13 zarch vx
-e700000830e3 wfadb VRR_VVV "vector fp add" z13 zarch vx
+e700000030e3 vfadb VRR_VVV "vector fp add long" z13 zarch vx
+e700000830e3 wfadb VRR_VVV "vector fp add long" z13 zarch vx
e700000000cb wfc VRR_VV0UU2 "vector fp compare scalar" z13 zarch vx
-e700000030cb wfcdb VRR_VV "vector fp compare scalar" z13 zarch vx
+e700000030cb wfcdb VRR_VV "vector fp compare scalar long" z13 zarch vx
e700000000ca wfk VRR_VV0UU2 "vector fp compare and signal scalar" z13 zarch vx
-e700000030ca wfkdb VRR_VV "vector fp compare and signal scalar" z13 zarch vx
+e700000030ca wfkdb VRR_VV "vector fp compare and signal scalar long" z13 zarch vx
e700000000e8 vfce VRR_VVV0UUU "vector fp compare equal" z13 zarch vx
-e700000030e8 vfcedb VRR_VVV "vector fp compare equal" z13 zarch vx
-e700001030e8 vfcedbs VRR_VVV "vector fp compare equal" z13 zarch vx
-e700000830e8 wfcedb VRR_VVV "vector fp compare equal" z13 zarch vx
-e700001830e8 wfcedbs VRR_VVV "vector fp compare equal" z13 zarch vx
+e700000030e8 vfcedb VRR_VVV "vector fp compare equal long" z13 zarch vx
+e700001030e8 vfcedbs VRR_VVV "vector fp compare equal long" z13 zarch vx
+e700000830e8 wfcedb VRR_VVV "vector fp compare equal long" z13 zarch vx
+e700001830e8 wfcedbs VRR_VVV "vector fp compare equal long" z13 zarch vx
e700000000eb vfch VRR_VVV0UUU "vector fp compare high" z13 zarch vx
-e700000030eb vfchdb VRR_VVV "vector fp compare high" z13 zarch vx
-e700001030eb vfchdbs VRR_VVV "vector fp compare high" z13 zarch vx
-e700000830eb wfchdb VRR_VVV "vector fp compare high" z13 zarch vx
-e700001830eb wfchdbs VRR_VVV "vector fp compare high" z13 zarch vx
+e700000030eb vfchdb VRR_VVV "vector fp compare high long" z13 zarch vx
+e700001030eb vfchdbs VRR_VVV "vector fp compare high long" z13 zarch vx
+e700000830eb wfchdb VRR_VVV "vector fp compare high long" z13 zarch vx
+e700001830eb wfchdbs VRR_VVV "vector fp compare high long" z13 zarch vx
e700000000ea vfche VRR_VVV0UUU "vector fp compare high or equal" z13 zarch vx
-e700000030ea vfchedb VRR_VVV "vector fp compare high or equal" z13 zarch vx
-e700001030ea vfchedbs VRR_VVV "vector fp compare high or equal" z13 zarch vx
-e700000830ea wfchedb VRR_VVV "vector fp compare high or equal" z13 zarch vx
-e700001830ea wfchedbs VRR_VVV "vector fp compare high or equal" z13 zarch vx
+e700000030ea vfchedb VRR_VVV "vector fp compare high or equal long" z13 zarch vx
+e700001030ea vfchedbs VRR_VVV "vector fp compare high or equal long" z13 zarch vx
+e700000830ea wfchedb VRR_VVV "vector fp compare high or equal long" z13 zarch vx
+e700001830ea wfchedbs VRR_VVV "vector fp compare high or equal long" z13 zarch vx
e700000000c3 vcdg VRR_VV0UUU "vector fp convert from fixed 64 bit" z13 zarch vx
e700000030c3 vcdgb VRR_VV0UU "vector fp convert from fixed 64 bit" z13 zarch vx
e700000830c3 wcdgb VRR_VV0UU8 "vector fp convert from fixed 64 bit" z13 zarch vx
@@ -1618,41 +1618,41 @@ e700000000c0 vclgd VRR_VV0UUU "vector fp convert to logical 64 bit" z13 zarch vx
e700000030c0 vclgdb VRR_VV0UU "vector fp convert to logical 64 bit" z13 zarch vx
e700000830c0 wclgdb VRR_VV0UU8 "vector fp convert to logical 64 bit" z13 zarch vx
e700000000e5 vfd VRR_VVV0UU "vector fp divide" z13 zarch vx
-e700000030e5 vfddb VRR_VVV "vector fp divide" z13 zarch vx
-e700000830e5 wfddb VRR_VVV "vector fp divide" z13 zarch vx
+e700000030e5 vfddb VRR_VVV "vector fp divide long" z13 zarch vx
+e700000830e5 wfddb VRR_VVV "vector fp divide long" z13 zarch vx
e700000000c7 vfi VRR_VV0UUU "vector load fp integer" z13 zarch vx
-e700000030c7 vfidb VRR_VV0UU "vector load fp integer" z13 zarch vx
-e700000830c7 wfidb VRR_VV0UU8 "vector load fp integer" z13 zarch vx
+e700000030c7 vfidb VRR_VV0UU "vector load fp integer long" z13 zarch vx
+e700000830c7 wfidb VRR_VV0UU8 "vector load fp integer long" z13 zarch vx
e700000000c4 vlde VRR_VV0UU2 "vector fp load lengthened" z13 zarch vx
-e700000020c4 vldeb VRR_VV "vector fp load lengthened" z13 zarch vx
-e700000820c4 wldeb VRR_VV "vector fp load lengthened" z13 zarch vx
+e700000020c4 vldeb VRR_VV "vector fp load lengthened short to long" z13 zarch vx
+e700000820c4 wldeb VRR_VV "vector fp load lengthened short to long" z13 zarch vx
e700000000c5 vled VRR_VV0UUU "vector fp load rounded" z13 zarch vx
-e700000030c5 vledb VRR_VV0UU "vector fp load rounded" z13 zarch vx
-e700000830c5 wledb VRR_VV0UU8 "vector fp load rounded" z13 zarch vx
+e700000030c5 vledb VRR_VV0UU "vector fp load rounded long to short" z13 zarch vx
+e700000830c5 wledb VRR_VV0UU8 "vector fp load rounded long to short" z13 zarch vx
e700000000e7 vfm VRR_VVV0UU "vector fp multiply" z13 zarch vx
-e700000030e7 vfmdb VRR_VVV "vector fp multiply" z13 zarch vx
-e700000830e7 wfmdb VRR_VVV "vector fp multiply" z13 zarch vx
+e700000030e7 vfmdb VRR_VVV "vector fp multiply long" z13 zarch vx
+e700000830e7 wfmdb VRR_VVV "vector fp multiply long" z13 zarch vx
e7000000008f vfma VRR_VVVU0UV "vector fp multiply and add" z13 zarch vx
-e7000300008f vfmadb VRR_VVVV "vector fp multiply and add" z13 zarch vx
-e7000308008f wfmadb VRR_VVVV "vector fp multiply and add" z13 zarch vx
+e7000300008f vfmadb VRR_VVVV "vector fp multiply and add long" z13 zarch vx
+e7000308008f wfmadb VRR_VVVV "vector fp multiply and add long" z13 zarch vx
e7000000008e vfms VRR_VVVU0UV "vector fp multiply and subtract" z13 zarch vx
-e7000300008e vfmsdb VRR_VVVV "vector fp multiply and subtract" z13 zarch vx
-e7000308008e wfmsdb VRR_VVVV "vector fp multiply and subtract" z13 zarch vx
+e7000300008e vfmsdb VRR_VVVV "vector fp multiply and subtract long" z13 zarch vx
+e7000308008e wfmsdb VRR_VVVV "vector fp multiply and subtract long" z13 zarch vx
e700000000cc vfpso VRR_VV0UUU "vector fp perform sign operation" z13 zarch vx
-e700000030cc vfpsodb VRR_VV0U2 "vector fp perform sign operation" z13 zarch vx
-e700000830cc wfpsodb VRR_VV0U2 "vector fp perform sign operation" z13 zarch vx
-e700000030cc vflcdb VRR_VV "vector fp perform sign operation" z13 zarch vx
-e700000830cc wflcdb VRR_VV "vector fp perform sign operation" z13 zarch vx
-e700001030cc vflndb VRR_VV "vector fp perform sign operation" z13 zarch vx
-e700001830cc wflndb VRR_VV "vector fp perform sign operation" z13 zarch vx
-e700002030cc vflpdb VRR_VV "vector fp perform sign operation" z13 zarch vx
-e700002830cc wflpdb VRR_VV "vector fp perform sign operation" z13 zarch vx
+e700000030cc vfpsodb VRR_VV0U2 "vector fp perform sign operation long" z13 zarch vx
+e700000830cc wfpsodb VRR_VV0U2 "vector fp perform sign operation long" z13 zarch vx
+e700000030cc vflcdb VRR_VV "vector fp perform sign operation long" z13 zarch vx
+e700000830cc wflcdb VRR_VV "vector fp perform sign operation long" z13 zarch vx
+e700001030cc vflndb VRR_VV "vector fp perform sign operation long" z13 zarch vx
+e700001830cc wflndb VRR_VV "vector fp perform sign operation long" z13 zarch vx
+e700002030cc vflpdb VRR_VV "vector fp perform sign operation long" z13 zarch vx
+e700002830cc wflpdb VRR_VV "vector fp perform sign operation long" z13 zarch vx
e700000000ce vfsq VRR_VV0UU2 "vector fp square root" z13 zarch vx
-e700000030ce vfsqdb VRR_VV "vector fp square root" z13 zarch vx
-e700000830ce wfsqdb VRR_VV "vector fp square root" z13 zarch vx
+e700000030ce vfsqdb VRR_VV "vector fp square root long" z13 zarch vx
+e700000830ce wfsqdb VRR_VV "vector fp square root long" z13 zarch vx
e700000000e2 vfs VRR_VVV0UU "vector fp subtract" z13 zarch vx
-e700000030e2 vfsdb VRR_VVV "vector fp subtract" z13 zarch vx
-e700000830e2 wfsdb VRR_VVV "vector fp subtract" z13 zarch vx
+e700000030e2 vfsdb VRR_VVV "vector fp subtract long" z13 zarch vx
+e700000830e2 wfsdb VRR_VVV "vector fp subtract long" z13 zarch vx
e7000000004a vftci VRI_VVUUU "vector fp test data class immediate" z13 zarch vx
e7000000304a vftcidb VRI_VVU2 "vector fp test data class immediate" z13 zarch vx
e7000008304a wftcidb VRI_VVU2 "vector fp test data class immediate" z13 zarch vx
@@ -1679,3 +1679,200 @@ e3000000003a llzrgf RXY_RRRD "load logical and zero rightmost bytes 32->64" z13
e3000000003b lzrf RXY_RRRD "load and zero rightmost byte 32->32" z13 zarch
e3000000002a lzrg RXY_RRRD "load and zero rightmost byte 64->64" z13 zarch
b93c ppno RRE_RR "perform pseudorandom number operation" z13 zarch
+
+# arch12 instructions
+
+# Vector Enhancements Facility 1
+
+e70000000085 vbperm VRR_VVV "vector bit permute" arch12 zarch
+e70000006004 vllezlf VRX_VRRD "vector load logical word element and zero - left aligned" arch12 zarch vx2
+e700000000b8 vmsl VRR_VVVUU0V "vector multiply sum logical" arch12 zarch vx2
+e700030000b8 vmslg VRR_VVVU0VB "vector multiply sum logical double word" arch12 zarch vx2
+e7000000006c vnx VRR_VVV "vector not exclusive or" arch12 zarch vx2
+e7000000006e vnn VRR_VVV "vector nand" arch12 zarch
+e7000000006f voc VRR_VVV "vector or with complement" arch12 zarch vx2
+e70000000050 vpopctb VRR_VV "vector population count byte" arch12 zarch vx2
+e70000001050 vpopcth VRR_VV "vector population count halfword" arch12 zarch vx2
+e70000002050 vpopctf VRR_VV "vector population count word" arch12 zarch vx2
+e70000003050 vpopctg VRR_VV "vector population count double word" arch12 zarch vx2
+e700000020e3 vfasb VRR_VVV "vector fp add short" arch12 zarch vx2
+e700000820e3 wfasb VRR_VVV "scalar vector fp add scalar short" arch12 zarch vx2
+e700000840e3 wfaxb VRR_VVV "scalar vector fp add scalar extended" arch12 zarch vx2
+e700000020cb wfcsb VRR_VV "scalar vector fp compare scalar short" arch12 zarch vx2
+e700000040cb wfcxb VRR_VV "scalar vector fp compare scalar extended" arch12 zarch vx2
+e700000020ca wfksb VRR_VV "scalar vector fp compare and signal scalar short" arch12 zarch vx2
+e700000040ca wfkxb VRR_VV "scalar vector fp compare and signal scalar extended" arch12 zarch vx2
+
+e700000020e8 vfcesb VRR_VVV "vector fp compare equal short" arch12 zarch vx2
+e700001020e8 vfcesbs VRR_VVV "vector fp compare equal short" arch12 zarch vx2
+e700000820e8 wfcesb VRR_VVV "scalar vector fp compare equal scalar short" arch12 zarch vx2
+e700001820e8 wfcesbs VRR_VVV "scalar fp compare equal scalar short" arch12 zarch vx2
+e700000840e8 wfcexb VRR_VVV "scalar vector fp compare equal scalar extended" arch12 zarch vx2
+e700001840e8 wfcexbs VRR_VVV "scalar vector fp compare equal scalar extended" arch12 zarch vx2
+
+e700000420e8 vfkesb VRR_VVV "vector fp compare and signal equal short" arch12 zarch vx2
+e700001420e8 vfkesbs VRR_VVV "vector fp compare and signal equal short" arch12 zarch vx2
+e700000c20e8 wfkesb VRR_VVV "scalar vector fp compare and signal equal scalar short" arch12 zarch vx2
+e700001c20e8 wfkesbs VRR_VVV "scalar fp compare and signal equal scalar short" arch12 zarch vx2
+e700000430e8 vfkedb VRR_VVV "vector fp compare and signal equal long" arch12 zarch vx
+e700001430e8 vfkedbs VRR_VVV "vector fp compare and signal equal long" arch12 zarch vx
+e700000c30e8 wfkedb VRR_VVV "vector fp compare and signal equal long" arch12 zarch vx
+e700001c30e8 wfkedbs VRR_VVV "vector fp compare and signal equal long" arch12 zarch vx
+e700000c40e8 wfkexb VRR_VVV "scalar vector fp compare and signal equal scalar extended" arch12 zarch vx2
+e700001c40e8 wfkexbs VRR_VVV "scalar vector fp compare and signal equal scalar extended" arch12 zarch vx2
+
+e700000020eb vfchsb VRR_VVV "vector fp compare high short" arch12 zarch vx2
+e700001020eb vfchsbs VRR_VVV "vector fp compare high short" arch12 zarch vx2
+e700000820eb wfchsb VRR_VVV "scalar vector fp compare high scalar short" arch12 zarch vx2
+e700001820eb wfchsbs VRR_VVV "scalar vector fp compare high scalar short" arch12 zarch vx2
+e700000840eb wfchxb VRR_VVV "scalar vector fp compare high scalar extended" arch12 zarch vx2
+e700001840eb wfchxbs VRR_VVV "scalar vector fp compare high scalar extended" arch12 zarch vx2
+
+e700000420eb vfkhsb VRR_VVV "vector fp compare and signal high short" arch12 zarch vx2
+e700001420eb vfkhsbs VRR_VVV "vector fp compare and signal high short" arch12 zarch vx2
+e700000c20eb wfkhsb VRR_VVV "scalar vector fp compare and signal high scalar short" arch12 zarch vx2
+e700001c20eb wfkhsbs VRR_VVV "scalar vector fp compare and signal high scalar short" arch12 zarch vx2
+e700000430eb vfkhdb VRR_VVV "vector fp compare and signal high long" arch12 zarch vx
+e700001430eb vfkhdbs VRR_VVV "vector fp compare and signal high long" arch12 zarch vx
+e700000c30eb wfkhdb VRR_VVV "vector fp compare and signal high long" arch12 zarch vx
+e700001c30eb wfkhdbs VRR_VVV "vector fp compare and signal high long" arch12 zarch vx
+e700000c40eb wfkhxb VRR_VVV "scalar vector fp compare and signal high scalar extended" arch12 zarch vx2
+e700001c40eb wfkhxbs VRR_VVV "scalar vector fp compare and signal high scalar extended" arch12 zarch vx2
+
+e700000020ea vfchesb VRR_VVV "vector fp compare high or equal short" arch12 zarch vx2
+e700001020ea vfchesbs VRR_VVV "vector fp compare high or equal short" arch12 zarch vx2
+e700000820ea wfchesb VRR_VVV "scalar vector fp compare high or equal scalar short" arch12 zarch vx2
+e700001820ea wfchesbs VRR_VVV "scalar vector fp compare high or equal scalar short" arch12 zarch vx2
+e700000840ea wfchexb VRR_VVV "scalar vector fp compare high or equal scalar extended" arch12 zarch vx2
+e700001840ea wfchexbs VRR_VVV "scalar vector fp compare high or equal scalar extended" arch12 zarch vx2
+
+e700000420ea vfkhesb VRR_VVV "vector fp compare and signal high or equal short" arch12 zarch vx2
+e700001420ea vfkhesbs VRR_VVV "vector fp compare and signal high or equal short" arch12 zarch vx2
+e700000c20ea wfkhesb VRR_VVV "scalar vector fp compare and signal high or equal scalar short" arch12 zarch vx2
+e700001c20ea wfkhesbs VRR_VVV "scalar vector fp compare and signal high or equal scalar short" arch12 zarch vx2
+e700000430ea vfkhedb VRR_VVV "vector fp compare and signal high or equal long" arch12 zarch vx
+e700001430ea vfkhedbs VRR_VVV "vector fp compare and signal high or equal long" arch12 zarch vx
+e700000c30ea wfkhedb VRR_VVV "vector fp compare and signal high or equal long" arch12 zarch vx
+e700001c30ea wfkhedbs VRR_VVV "vector fp compare and signal high or equal long" arch12 zarch vx
+e700000c40ea wfkhexb VRR_VVV "scalar vector fp compare and signal high or equal scalar extended" arch12 zarch vx2
+e700001c40ea wfkhexbs VRR_VVV "scalar vector fp compare and signal high or equal scalar extended" arch12 zarch vx2
+
+e700000020e5 vfdsb VRR_VVV "vector fp divide short" arch12 zarch vx2
+e700000820e5 wfdsb VRR_VVV "scalar vector fp divide scalar short" arch12 zarch vx2
+e700000840e5 wfdxb VRR_VVV "scalar vector fp divide scalar extended" arch12 zarch vx2
+e700000020c7 vfisb VRR_VV0UU "vector load fp integer short" arch12 zarch vx2
+e700000820c7 wfisb VRR_VV0UU8 "scalar vector load fp integer scalar short" arch12 zarch vx2
+e700000840c7 wfixb VRR_VV0UU8 "scalar vector load fp integer scalar extended" arch12 zarch vx2
+e700000000c4 vfll VRR_VV0UU2 "vector fp load lengthened" arch12 zarch vx2
+e700000020c4 vflls VRR_VV "vector fp load lengthened" arch12 zarch vx2
+e700000820c4 wflls VRR_VV "scalar vector fp load lengthened short" arch12 zarch vx2
+e700000830c4 wflld VRR_VV "scalar vector fp load lengthened long" arch12 zarch vx2
+e700000000c5 vflr VRR_VV0UUU "vector fp load rounded" arch12 zarch vx2
+e700000030c5 vflrd VRR_VV0UU "vector fp load rounded long" arch12 zarch vx2
+e700000830c5 wflrd VRR_VV0UU8 "scalar vector fp load rounded long" arch12 zarch vx2
+e700000840c5 wflrx VRR_VV0UU8 "scalar vector fp load rounded extended" arch12 zarch vx2
+e700000000ef vfmax VRR_VVV0UUU "vector fp maximum" arch12 zarch vx2
+e700000020ef vfmaxsb VRR_VVV0U0 "vector fp maximum short" arch12 zarch vx2
+e700000030ef vfmaxdb VRR_VVV0U0 "vector fp maximum long" arch12 zarch vx2
+e700000820ef wfmaxsb VRR_VVV0U0 "scalar fp maximum scalar short" arch12 zarch vx2
+e700000830ef wfmaxdb VRR_VVV0U0 "scalar fp maximum scalar long" arch12 zarch vx2
+e700000840ef wfmaxxb VRR_VVV0U0 "scalar fp maximum scalar extended" arch12 zarch vx2
+e700000000ee vfmin VRR_VVV0UUU "vector fp minimum" arch12 zarch vx2
+e700000020ee vfminsb VRR_VVV0U0 "vector fp minimum short" arch12 zarch vx2
+e700000030ee vfmindb VRR_VVV0U0 "vector fp minimum long" arch12 zarch vx2
+e700000820ee wfminsb VRR_VVV0U0 "scalar fp minimum scalar short" arch12 zarch vx2
+e700000830ee wfmindb VRR_VVV0U0 "scalar fp minimum scalar long" arch12 zarch vx2
+e700000840ee wfminxb VRR_VVV0U0 "scalar fp minimum scalar extended" arch12 zarch vx2
+e700000020e7 vfmsb VRR_VVV "vector fp multiply short" arch12 zarch vx2
+e700000820e7 wfmsb VRR_VVV "scalar vector fp multiply scalar short" arch12 zarch vx2
+e700000840e7 wfmxb VRR_VVV "scalar vector fp multiply scalar extended" arch12 zarch vx2
+e7000200008f vfmasb VRR_VVVV "vector fp multiply and add short" arch12 zarch vx2
+e7000208008f wfmasb VRR_VVVV "scalar vector fp multiply and add scalar short" arch12 zarch vx2
+e7000408008f wfmaxb VRR_VVVV "scalar vector fp multiply and add scalar extended" arch12 zarch vx2
+e7000200008e vfmssb VRR_VVVV "vector fp multiply and subtract short" arch12 zarch vx2
+e7000208008e wfmssb VRR_VVVV "scalar vector fp multiply and subtract scalar short" arch12 zarch vx2
+e7000408008e wfmsxb VRR_VVVV "scalar vector fp multiply and subtract scalar extended" arch12 zarch vx2
+e7000000009f vfnma VRR_VVVU0UV "vector fp negative multiply and add" arch12 zarch vx2
+e7000200009f vfnmasb VRR_VVVV "vector fp negative multiply and add short" arch12 zarch vx2
+e7000208009f wfnmasb VRR_VVVV "scalar vector fp negative multiply and add scalar short" arch12 zarch vx2
+e7000300009f vfnmadb VRR_VVVV "vector fp negative multiply and add long" arch12 zarch vx2
+e7000308009f wfnmadb VRR_VVVV "scalar vector fp negative multiply and add scalar long" arch12 zarch vx2
+e7000408009f wfnmaxb VRR_VVVV "scalar vector fp negative multiply and add scalar extended" arch12 zarch vx2
+e7000000009e vfnms VRR_VVVU0UV "vector fp negative multiply and subtract" arch12 zarch vx2
+e7000200009e vfnmssb VRR_VVVV "vector fp negative multiply and subtract short" arch12 zarch vx2
+e7000208009e wfnmssb VRR_VVVV "scalar vector fp negative multiply and subtract scalar short" arch12 zarch vx2
+e7000300009e vfnmsdb VRR_VVVV "vector fp negative multiply and subtract long" arch12 zarch vx2
+e7000308009e wfnmsdb VRR_VVVV "scalar vector fp negative multiply and subtract scalar long" arch12 zarch vx2
+e7000408009e wfnmsxb VRR_VVVV "scalar vector fp negative multiply and subtract scalar extended" arch12 zarch vx2
+e700000020cc vfpsosb VRR_VV0U2 "vector fp perform sign operation short" arch12 zarch vx2
+e700000820cc wfpsosb VRR_VV0U2 "scalar vector fp perform sign operation scalar short" arch12 zarch vx2
+e700000020cc vflcsb VRR_VV "vector fp perform sign operation short" arch12 zarch vx2
+e700000820cc wflcsb VRR_VV "scalar vector fp perform sign operation scalar short" arch12 zarch vx2
+e700001020cc vflnsb VRR_VV "vector fp perform sign operation short" arch12 zarch vx2
+e700001820cc wflnsb VRR_VV "scalar vector fp perform sign operation scalar short" arch12 zarch vx2
+e700002020cc vflpsb VRR_VV "vector fp perform sign operation short" arch12 zarch vx2
+e700002820cc wflpsb VRR_VV "scalar vector fp perform sign operation scalar short" arch12 zarch vx2
+e700000840cc wfpsoxb VRR_VV0U2 "scalar vector fp perform sign operation scalar extended" arch12 zarch vx2
+e700000840cc wflcxb VRR_VV "scalar vector fp perform sign operation scalar extended" arch12 zarch vx2
+e700001840cc wflnxb VRR_VV "scalar vector fp perform sign operation scalar extended" arch12 zarch vx2
+e700002840cc wflpxb VRR_VV "scalar vector fp perform sign operation scalar extended" arch12 zarch vx2
+e700000020ce vfsqsb VRR_VV "vector fp square root short" arch12 zarch vx2
+e700000820ce wfsqsb VRR_VV "scalar vector fp square root scalar short" arch12 zarch vx2
+e700000840ce wfsqxb VRR_VV "scalar vector fp square root scalar extended" arch12 zarch vx2
+e700000020e2 vfssb VRR_VVV "vector fp subtract short" arch12 zarch vx2
+e700000820e2 wfssb VRR_VVV "scalar vector fp subtract scalar short" arch12 zarch vx2
+e700000840e2 wfsxb VRR_VVV "scalar vector fp subtract scalar extended" arch12 zarch vx2
+e7000000204a vftcisb VRI_VVU2 "vector fp test data class immediate short" arch12 zarch vx2
+e7000008204a wftcisb VRI_VVU2 "scalar vector fp test data class immediate scalar short" arch12 zarch vx2
+e7000008404a wftcixb VRI_VVU2 "scalar vector fp test data class immediate scalar extended" arch12 zarch vx2
+
+# Miscellaneous Instruction Extensions Facility 2
+
+e30000000038 agh RXY_RRRD "add halfword to 64 bit value" arch12 zarch
+e30000000047 bic RXY_URRD "branch indirect on condition" arch12 zarch
+e3f000000047 bi RXY_0RRD "unconditional indirect branch" arch12 zarch
+e30000000047 bi*8 RXY_0RRD "branch indirect on condition" arch12 zarch
+b9ec mgrk RRF_R0RR2 "multiply 64x64reg -> 128" arch12 zarch
+e30000000084 mg RXY_RRRD "multiply 64x64mem -> 128" arch12 zarch
+e3000000003c mgh RXY_RRRD "multiply halfword 64x16mem -> 64" arch12 zarch
+b9fd msrkc RRF_R0RR2 "multiply single 32x32 -> 32" arch12 zarch
+b9ed msgrkc RRF_R0RR2 "multiply single 64x64 -> 64" arch12 zarch
+e30000000053 msc RXY_RRRD "multiply single 32x32mem -> 32" arch12 zarch
+e30000000083 msgc RXY_RRRD "multiply single 64x64mem -> 64" arch12 zarch
+e30000000039 sgh RXY_RRRD "subtract halfword from 64 bit value" arch12 zarch
+
+# Vector packed decimal facility
+
+e60000000037 vlrlr VRS_RRDV "vector load rightmost with length" arch12 zarch vx2
+e60000000035 vlrl VSI_URDV "vector load rightmost with immediate length" arch12 zarch vx2
+e6000000003f vstrlr VRS_RRDV "vector store rightmost with length" arch12 zarch vx2
+e6000000003d vstrl VSI_URDV "vector store rightmost with immediate length" arch12 zarch vx2
+e60000000071 vap VRI_VVV0UU2 "vector add decimal" arch12 zarch vx2
+e60000000077 vcp VRR_0VV0U "vector compare decimal" arch12 zarch vx2
+e60000000050 vcvb VRR_RV0U "vector convert to binary 32 bit" arch12 zarch vx2
+e60000000052 vcvbg VRR_RV0U "vector convert to binary 64 bit" arch12 zarch vx2
+e60000000058 vcvd VRI_VR0UU "vector convert to decimal 32 bit" arch12 zarch vx2
+e6000000005a vcvdg VRI_VR0UU "vector convert to decimal 64 bit" arch12 zarch vx2
+e6000000007a vdp VRI_VVV0UU2 "vector divide decimal" arch12 zarch vx2
+e60000000049 vlip VRI_V0UU2 "vector load immediate decimal" arch12 zarch vx2
+e60000000078 vmp VRI_VVV0UU2 "vector multiply decimal" arch12 zarch vx2
+e60000000079 vmsp VRI_VVV0UU2 "vector multiply and shift decimal" arch12 zarch vx2
+e60000000034 vpkz VSI_URDV "vector pack zoned" arch12 zarch vx2
+e6000000005b vpsop VRI_VVUUU2 "vector perform sign operation decimal" arch12 zarch vx2
+e6000000007b vrp VRI_VVV0UU2 "vector remainder decimal" arch12 zarch vx2
+e6000000007e vsdp VRI_VVV0UU2 "vector shift and divide decimal" arch12 zarch vx2
+e60000000059 vsrp VRI_VVUUU2 "vector shift and round decimal" arch12 zarch vx2
+e60000000073 vsp VRI_VVV0UU2 "vector subtract decimal" arch12 zarch vx2
+e6000000005f vtp VRR_0V "vector test decimal" arch12 zarch vx2
+e6000000003c vupkz VSI_URDV "vector unpack zoned" arch12 zarch vx2
+
+# Guarded storage facility
+
+e3000000004c lgg RXY_RRRD "load guarded 64 bit" arch12 zarch
+e30000000048 llgfsg RXY_RRRD "load logical and shift guarded 64 bit" arch12 zarch
+e3000000004d lgsc RXY_RRRD "load guarded storage controls" arch12 zarch
+e30000000049 stgsc RXY_RRRD "store guarded storage controls" arch12 zarch
+
+# Message-Security-Assist Extension 8
+
+b929 kma RRF_R0RR "cipher message with galois counter mode" arch12 zarch