GEN_OPIVX_TRANS(vmax_vx, opivx_check)
/* Vector Single-Width Integer Multiply Instructions */
+
+static bool vmulh_vv_check(DisasContext *s, arg_rmrr *a)
+{
+ /*
+ * All Zve* extensions support all vector integer instructions,
+ * except that the vmulh integer multiply variants
+ * that return the high word of the product
+ * (vmulh.vv, vmulh.vx, vmulhu.vv, vmulhu.vx, vmulhsu.vv, vmulhsu.vx)
+ * are not included for EEW=64 in Zve64*. (Section 18.2)
+ */
+ return opivv_check(s, a) &&
+ (!has_ext(s, RVV) && s->ext_zve64f ? s->sew != MO_64 : true);
+}
+
+static bool vmulh_vx_check(DisasContext *s, arg_rmrr *a)
+{
+ /*
+ * All Zve* extensions support all vector integer instructions,
+ * except that the vmulh integer multiply variants
+ * that return the high word of the product
+ * (vmulh.vv, vmulh.vx, vmulhu.vv, vmulhu.vx, vmulhsu.vv, vmulhsu.vx)
+ * are not included for EEW=64 in Zve64*. (Section 18.2)
+ */
+ return opivx_check(s, a) &&
+ (!has_ext(s, RVV) && s->ext_zve64f ? s->sew != MO_64 : true);
+}
+
GEN_OPIVV_GVEC_TRANS(vmul_vv, mul)
-GEN_OPIVV_TRANS(vmulh_vv, opivv_check)
-GEN_OPIVV_TRANS(vmulhu_vv, opivv_check)
-GEN_OPIVV_TRANS(vmulhsu_vv, opivv_check)
+GEN_OPIVV_TRANS(vmulh_vv, vmulh_vv_check)
+GEN_OPIVV_TRANS(vmulhu_vv, vmulh_vv_check)
+GEN_OPIVV_TRANS(vmulhsu_vv, vmulh_vv_check)
GEN_OPIVX_GVEC_TRANS(vmul_vx, muls)
-GEN_OPIVX_TRANS(vmulh_vx, opivx_check)
-GEN_OPIVX_TRANS(vmulhu_vx, opivx_check)
-GEN_OPIVX_TRANS(vmulhsu_vx, opivx_check)
+GEN_OPIVX_TRANS(vmulh_vx, vmulh_vx_check)
+GEN_OPIVX_TRANS(vmulhu_vx, vmulh_vx_check)
+GEN_OPIVX_TRANS(vmulhsu_vx, vmulh_vx_check)
/* Vector Integer Divide Instructions */
GEN_OPIVV_TRANS(vdivu_vv, opivv_check)
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