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// This file define the kelvin base isa for mpact-sim. For more info on mpact-sim
// isa format, check: go/mpact-sim-codelabs-riscv-instruction-decoder
// First disasm field is 18 char wide and left justified.
disasm widths = {-18};
// Kelvin simd instructions:
// https://opensecura.googlesource.com/sw/kelvin/+/master/docs/kelvin_isa.md
// Arithmetics/Logical instructions (func1 000/100/001)
slot kelvin_arith {
includes {
#include "sim/kelvin_instructions.h"
#include "sim/kelvin_vector_instructions.h"
#include "absl/functional/bind_front.h"
}
default size = 4;
default latency = global_latency;
opcodes {
// vadd
vadd_b_vv{: vs1, vs2 : vd},
disasm: "vadd.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadd_b_vv_m{: vs1, vs2 : vd},
disasm: "vadd.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadd_h_vv{: vs1, vs2 : vd},
disasm: "vadd.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadd_h_vv_m{: vs1, vs2 : vd},
disasm: "vadd.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadd_w_vv{: vs1, vs2 : vd},
disasm: "vadd.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadd_w_vv_m{: vs1, vs2 : vd},
disasm: "vadd.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadd_b_vx{: vs1, vs2 : vd},
disasm: "vadd.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadd_b_vx_m{: vs1, vs2 : vd},
disasm: "vadd.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadd_h_vx{: vs1, vs2 : vd},
disasm: "vadd.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadd_h_vx_m{: vs1, vs2 : vd},
disasm: "vadd.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadd_w_vx{: vs1, vs2 : vd},
disasm: "vadd.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadd_w_vx_m{: vs1, vs2 : vd},
disasm: "vadd.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vsub
vsub_b_vv{: vs1, vs2 : vd},
disasm: "vsub.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsub_b_vv_m{: vs1, vs2 : vd},
disasm: "vsub.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsub_h_vv{: vs1, vs2 : vd},
disasm: "vsub.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsub_h_vv_m{: vs1, vs2 : vd},
disasm: "vsub.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsub_w_vv{: vs1, vs2 : vd},
disasm: "vsub.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsub_w_vv_m{: vs1, vs2 : vd},
disasm: "vsub.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsub_b_vx{: vs1, vs2 : vd},
disasm: "vsub.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsub_b_vx_m{: vs1, vs2 : vd},
disasm: "vsub.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsub_h_vx{: vs1, vs2 : vd},
disasm: "vsub.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsub_h_vx_m{: vs1, vs2 : vd},
disasm: "vsub.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsub_w_vx{: vs1, vs2 : vd},
disasm: "vsub.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsub_w_vx_m{: vs1, vs2 : vd},
disasm: "vsub.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSub<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vrsub
vrsub_b_vv{: vs1, vs2 : vd},
disasm: "vrsub.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vrsub_b_vv_m{: vs1, vs2 : vd},
disasm: "vrsub.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vrsub_h_vv{: vs1, vs2 : vd},
disasm: "vrsub.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vrsub_h_vv_m{: vs1, vs2 : vd},
disasm: "vrsub.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vrsub_w_vv{: vs1, vs2 : vd},
disasm: "vrsub.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vrsub_w_vv_m{: vs1, vs2 : vd},
disasm: "vrsub.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vrsub_b_vx{: vs1, vs2 : vd},
disasm: "vrsub.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vrsub_b_vx_m{: vs1, vs2 : vd},
disasm: "vrsub.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vrsub_h_vx{: vs1, vs2 : vd},
disasm: "vrsub.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vrsub_h_vx_m{: vs1, vs2 : vd},
disasm: "vrsub.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vrsub_w_vx{: vs1, vs2 : vd},
disasm: "vrsub.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vrsub_w_vx_m{: vs1, vs2 : vd},
disasm: "vrsub.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRSub<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// veq
veq_b_vv{: vs1, vs2 : vd},
disasm: "veq.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
veq_b_vv_m{: vs1, vs2 : vd},
disasm: "veq.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
veq_h_vv{: vs1, vs2 : vd},
disasm: "veq.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
veq_h_vv_m{: vs1, vs2 : vd},
disasm: "veq.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
veq_w_vv{: vs1, vs2 : vd},
disasm: "veq.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
veq_w_vv_m{: vs1, vs2 : vd},
disasm: "veq.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
veq_b_vx{: vs1, vs2 : vd},
disasm: "veq.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
veq_b_vx_m{: vs1, vs2 : vd},
disasm: "veq.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
veq_h_vx{: vs1, vs2 : vd},
disasm: "veq.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
veq_h_vx_m{: vs1, vs2 : vd},
disasm: "veq.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
veq_w_vx{: vs1, vs2 : vd},
disasm: "veq.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
veq_w_vx_m{: vs1, vs2 : vd},
disasm: "veq.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVEq<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vne
vne_b_vv{: vs1, vs2 : vd},
disasm: "vne.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vne_b_vv_m{: vs1, vs2 : vd},
disasm: "vne.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vne_h_vv{: vs1, vs2 : vd},
disasm: "vne.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vne_h_vv_m{: vs1, vs2 : vd},
disasm: "vne.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vne_w_vv{: vs1, vs2 : vd},
disasm: "vne.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vne_w_vv_m{: vs1, vs2 : vd},
disasm: "vne.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vne_b_vx{: vs1, vs2 : vd},
disasm: "vne.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vne_b_vx_m{: vs1, vs2 : vd},
disasm: "vne.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vne_h_vx{: vs1, vs2 : vd},
disasm: "vne.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vne_h_vx_m{: vs1, vs2 : vd},
disasm: "vne.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vne_w_vx{: vs1, vs2 : vd},
disasm: "vne.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vne_w_vx_m{: vs1, vs2 : vd},
disasm: "vne.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVNe<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vlt
vlt_b_vv{: vs1, vs2 : vd},
disasm: "vlt.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vlt_b_vv_m{: vs1, vs2 : vd},
disasm: "vlt.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vlt_h_vv{: vs1, vs2 : vd},
disasm: "vlt.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vlt_h_vv_m{: vs1, vs2 : vd},
disasm: "vlt.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vlt_w_vv{: vs1, vs2 : vd},
disasm: "vlt.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vlt_w_vv_m{: vs1, vs2 : vd},
disasm: "vlt.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vlt_b_vx{: vs1, vs2 : vd},
disasm: "vlt.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vlt_b_vx_m{: vs1, vs2 : vd},
disasm: "vlt.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vlt_h_vx{: vs1, vs2 : vd},
disasm: "vlt.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vlt_h_vx_m{: vs1, vs2 : vd},
disasm: "vlt.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vlt_w_vx{: vs1, vs2 : vd},
disasm: "vlt.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vlt_w_vx_m{: vs1, vs2 : vd},
disasm: "vlt.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vltu
vlt_u_b_vv{: vs1, vs2 : vd},
disasm: "vlt.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vlt_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vlt.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vlt_u_h_vv{: vs1, vs2 : vd},
disasm: "vlt.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vlt_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vlt.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vlt_u_w_vv{: vs1, vs2 : vd},
disasm: "vlt.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vlt_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vlt.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vlt_u_b_vx{: vs1, vs2 : vd},
disasm: "vlt.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vlt_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vlt.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vlt_u_h_vx{: vs1, vs2 : vd},
disasm: "vlt.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vlt_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vlt.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vlt_u_w_vx{: vs1, vs2 : vd},
disasm: "vlt.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vlt_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vlt.w.u.vx.m", "%vd, %vs1,V %vs2",
semfunc: "absl::bind_front(&KelvinVLt<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vle
vle_b_vv{: vs1, vs2 : vd},
disasm: "vle.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vle_b_vv_m{: vs1, vs2 : vd},
disasm: "vle.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vle_h_vv{: vs1, vs2 : vd},
disasm: "vle.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vle_h_vv_m{: vs1, vs2 : vd},
disasm: "vle.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vle_w_vv{: vs1, vs2 : vd},
disasm: "vle.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vle_w_vv_m{: vs1, vs2 : vd},
disasm: "vle.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vle_b_vx{: vs1, vs2 : vd},
disasm: "vle.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vle_b_vx_m{: vs1, vs2 : vd},
disasm: "vle.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vle_h_vx{: vs1, vs2 : vd},
disasm: "vle.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vle_h_vx_m{: vs1, vs2 : vd},
disasm: "vle.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vle_w_vx{: vs1, vs2 : vd},
disasm: "vle.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vle_w_vx_m{: vs1, vs2 : vd},
disasm: "vle.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vleu
vle_u_b_vv{: vs1, vs2 : vd},
disasm: "vle.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vle_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vle.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vle_u_h_vv{: vs1, vs2 : vd},
disasm: "vle.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vle_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vle.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vle_u_w_vv{: vs1, vs2 : vd},
disasm: "vle.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vle_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vle.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vle_u_b_vx{: vs1, vs2 : vd},
disasm: "vle.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vle_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vle.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vle_u_h_vx{: vs1, vs2 : vd},
disasm: "vle.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vle_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vle.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vle_u_w_vx{: vs1, vs2 : vd},
disasm: "vle.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vle_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vle.w.u.vx.m", "%vd, %vs1,V %vs2",
semfunc: "absl::bind_front(&KelvinVLe<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vgt
vgt_b_vv{: vs1, vs2 : vd},
disasm: "vgt.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vgt_b_vv_m{: vs1, vs2 : vd},
disasm: "vgt.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vgt_h_vv{: vs1, vs2 : vd},
disasm: "vgt.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vgt_h_vv_m{: vs1, vs2 : vd},
disasm: "vgt.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vgt_w_vv{: vs1, vs2 : vd},
disasm: "vgt.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vgt_w_vv_m{: vs1, vs2 : vd},
disasm: "vgt.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vgt_b_vx{: vs1, vs2 : vd},
disasm: "vgt.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vgt_b_vx_m{: vs1, vs2 : vd},
disasm: "vgt.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vgt_h_vx{: vs1, vs2 : vd},
disasm: "vgt.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vgt_h_vx_m{: vs1, vs2 : vd},
disasm: "vgt.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vgt_w_vx{: vs1, vs2 : vd},
disasm: "vgt.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vgt_w_vx_m{: vs1, vs2 : vd},
disasm: "vgt.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vgtu
vgt_u_b_vv{: vs1, vs2 : vd},
disasm: "vgt.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vgt_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vgt.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vgt_u_h_vv{: vs1, vs2 : vd},
disasm: "vgt.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vgt_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vgt.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vgt_u_w_vv{: vs1, vs2 : vd},
disasm: "vgt.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vgt_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vgt.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vgt_u_b_vx{: vs1, vs2 : vd},
disasm: "vgt.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vgt_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vgt.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vgt_u_h_vx{: vs1, vs2 : vd},
disasm: "vgt.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vgt_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vgt.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vgt_u_w_vx{: vs1, vs2 : vd},
disasm: "vgt.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vgt_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vgt.w.u.vx.m", "%vd, %vs1,V %vs2",
semfunc: "absl::bind_front(&KelvinVGt<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vge
vge_b_vv{: vs1, vs2 : vd},
disasm: "vge.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vge_b_vv_m{: vs1, vs2 : vd},
disasm: "vge.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vge_h_vv{: vs1, vs2 : vd},
disasm: "vge.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vge_h_vv_m{: vs1, vs2 : vd},
disasm: "vge.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vge_w_vv{: vs1, vs2 : vd},
disasm: "vge.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vge_w_vv_m{: vs1, vs2 : vd},
disasm: "vge.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vge_b_vx{: vs1, vs2 : vd},
disasm: "vge.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vge_b_vx_m{: vs1, vs2 : vd},
disasm: "vge.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vge_h_vx{: vs1, vs2 : vd},
disasm: "vge.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vge_h_vx_m{: vs1, vs2 : vd},
disasm: "vge.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vge_w_vx{: vs1, vs2 : vd},
disasm: "vge.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vge_w_vx_m{: vs1, vs2 : vd},
disasm: "vge.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vgeu
vge_u_b_vv{: vs1, vs2 : vd},
disasm: "vge.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vge_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vge.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vge_u_h_vv{: vs1, vs2 : vd},
disasm: "vge.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vge_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vge.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vge_u_w_vv{: vs1, vs2 : vd},
disasm: "vge.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vge_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vge.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vge_u_b_vx{: vs1, vs2 : vd},
disasm: "vge.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vge_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vge.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vge_u_h_vx{: vs1, vs2 : vd},
disasm: "vge.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vge_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vge.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vge_u_w_vx{: vs1, vs2 : vd},
disasm: "vge.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vge_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vge.w.u.vx.m", "%vd, %vs1,V %vs2",
semfunc: "absl::bind_front(&KelvinVGe<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vabsd
vabsd_b_vv{: vs1, vs2 : vd},
disasm: "vabsd.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vabsd_b_vv_m{: vs1, vs2 : vd},
disasm: "vabsd.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vabsd_h_vv{: vs1, vs2 : vd},
disasm: "vabsd.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vabsd_h_vv_m{: vs1, vs2 : vd},
disasm: "vabsd.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vabsd_w_vv{: vs1, vs2 : vd},
disasm: "vabsd.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vabsd_w_vv_m{: vs1, vs2 : vd},
disasm: "vabsd.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vabsd_b_vx{: vs1, vs2 : vd},
disasm: "vabsd.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vabsd_b_vx_m{: vs1, vs2 : vd},
disasm: "vabsd.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vabsd_h_vx{: vs1, vs2 : vd},
disasm: "vabsd.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vabsd_h_vx_m{: vs1, vs2 : vd},
disasm: "vabsd.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vabsd_w_vx{: vs1, vs2 : vd},
disasm: "vabsd.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vabsd_w_vx_m{: vs1, vs2 : vd},
disasm: "vabsd.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vabsdu
vabsd_u_b_vv{: vs1, vs2 : vd},
disasm: "vabsd.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vabsd_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vabsd.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vabsd_u_h_vv{: vs1, vs2 : vd},
disasm: "vabsd.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vabsd_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vabsd.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vabsd_u_w_vv{: vs1, vs2 : vd},
disasm: "vabsd.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vabsd_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vabsd.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vabsd_u_b_vx{: vs1, vs2 : vd},
disasm: "vabsd.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vabsd_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vabsd.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vabsd_u_h_vx{: vs1, vs2 : vd},
disasm: "vabsd.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vabsd_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vabsd.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vabsd_u_w_vx{: vs1, vs2 : vd},
disasm: "vabsd.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vabsd_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vabsd.w.u.vx.m", "%vd, %vs1,V %vs2",
semfunc: "absl::bind_front(&KelvinVAbsd<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vmax
vmax_b_vv{: vs1, vs2 : vd},
disasm: "vmax.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmax_b_vv_m{: vs1, vs2 : vd},
disasm: "vmax.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmax_h_vv{: vs1, vs2 : vd},
disasm: "vmax.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmax_h_vv_m{: vs1, vs2 : vd},
disasm: "vmax.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmax_w_vv{: vs1, vs2 : vd},
disasm: "vmax.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmax_w_vv_m{: vs1, vs2 : vd},
disasm: "vmax.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmax_b_vx{: vs1, vs2 : vd},
disasm: "vmax.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmax_b_vx_m{: vs1, vs2 : vd},
disasm: "vmax.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmax_h_vx{: vs1, vs2 : vd},
disasm: "vmax.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmax_h_vx_m{: vs1, vs2 : vd},
disasm: "vmax.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmax_w_vx{: vs1, vs2 : vd},
disasm: "vmax.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmax_w_vx_m{: vs1, vs2 : vd},
disasm: "vmax.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vmaxu
vmax_u_b_vv{: vs1, vs2 : vd},
disasm: "vmax.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmax_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vmax.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmax_u_h_vv{: vs1, vs2 : vd},
disasm: "vmax.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmax_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vmax.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmax_u_w_vv{: vs1, vs2 : vd},
disasm: "vmax.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmax_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vmax.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmax_u_b_vx{: vs1, vs2 : vd},
disasm: "vmax.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmax_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vmax.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmax_u_h_vx{: vs1, vs2 : vd},
disasm: "vmax.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmax_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vmax.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmax_u_w_vx{: vs1, vs2 : vd},
disasm: "vmax.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmax_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vmax.w.u.vx.m", "%vd, %vs1,V %vs2",
semfunc: "absl::bind_front(&KelvinVMax<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vmin
vmin_b_vv{: vs1, vs2 : vd},
disasm: "vmin.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmin_b_vv_m{: vs1, vs2 : vd},
disasm: "vmin.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmin_h_vv{: vs1, vs2 : vd},
disasm: "vmin.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmin_h_vv_m{: vs1, vs2 : vd},
disasm: "vmin.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmin_w_vv{: vs1, vs2 : vd},
disasm: "vmin.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmin_w_vv_m{: vs1, vs2 : vd},
disasm: "vmin.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmin_b_vx{: vs1, vs2 : vd},
disasm: "vmin.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmin_b_vx_m{: vs1, vs2 : vd},
disasm: "vmin.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmin_h_vx{: vs1, vs2 : vd},
disasm: "vmin.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmin_h_vx_m{: vs1, vs2 : vd},
disasm: "vmin.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmin_w_vx{: vs1, vs2 : vd},
disasm: "vmin.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmin_w_vx_m{: vs1, vs2 : vd},
disasm: "vmin.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vminu
vmin_u_b_vv{: vs1, vs2 : vd},
disasm: "vmin.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmin_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vmin.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmin_u_h_vv{: vs1, vs2 : vd},
disasm: "vmin.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmin_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vmin.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmin_u_w_vv{: vs1, vs2 : vd},
disasm: "vmin.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmin_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vmin.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmin_u_b_vx{: vs1, vs2 : vd},
disasm: "vmin.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmin_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vmin.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmin_u_h_vx{: vs1, vs2 : vd},
disasm: "vmin.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmin_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vmin.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmin_u_w_vx{: vs1, vs2 : vd},
disasm: "vmin.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmin_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vmin.w.u.vx.m", "%vd, %vs1,V %vs2",
semfunc: "absl::bind_front(&KelvinVMin<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
// vadd3
vadd3_b_vv{: vs1, vs2, vd : vd},
disasm: "vadd3.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadd3_b_vv_m{: vs1, vs2, vd : vd},
disasm: "vadd3.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadd3_h_vv{: vs1, vs2, vd : vd},
disasm: "vadd3.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadd3_h_vv_m{: vs1, vs2, vd : vd},
disasm: "vadd3.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadd3_w_vv{: vs1, vs2, vd : vd},
disasm: "vadd3.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadd3_w_vv_m{: vs1, vs2, vd : vd},
disasm: "vadd3.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadd3_b_vx{: vs1, vs2, vd : vd},
disasm: "vadd3.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadd3_b_vx_m{: vs1, vs2, vd : vd},
disasm: "vadd3.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadd3_h_vx{: vs1, vs2, vd : vd},
disasm: "vadd3.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadd3_h_vx_m{: vs1, vs2, vd : vd},
disasm: "vadd3.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadd3_w_vx{: vs1, vs2, vd : vd},
disasm: "vadd3.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadd3_w_vx_m{: vs1, vs2, vd : vd},
disasm: "vadd3.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdd3<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vadds
vadds_b_vv{: vs1, vs2 : vd},
disasm: "vadds.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadds_b_vv_m{: vs1, vs2 : vd},
disasm: "vadds.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadds_h_vv{: vs1, vs2 : vd},
disasm: "vadds.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadds_h_vv_m{: vs1, vs2 : vd},
disasm: "vadds.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadds_w_vv{: vs1, vs2 : vd},
disasm: "vadds.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadds_w_vv_m{: vs1, vs2 : vd},
disasm: "vadds.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadds_b_vx{: vs1, vs2 : vd},
disasm: "vadds.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadds_b_vx_m{: vs1, vs2 : vd},
disasm: "vadds.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadds_h_vx{: vs1, vs2 : vd},
disasm: "vadds.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadds_h_vx_m{: vs1, vs2 : vd},
disasm: "vadds.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadds_w_vx{: vs1, vs2 : vd},
disasm: "vadds.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadds_w_vx_m{: vs1, vs2 : vd},
disasm: "vadds.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAdds<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vaddsu
vadds_u_b_vv{: vs1, vs2 : vd},
disasm: "vadds.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadds_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vadds.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadds_u_h_vv{: vs1, vs2 : vd},
disasm: "vadds.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadds_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vadds.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadds_u_w_vv{: vs1, vs2 : vd},
disasm: "vadds.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vadds_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vadds.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vadds_u_b_vx{: vs1, vs2 : vd},
disasm: "vadds.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadds_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vadds.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadds_u_h_vx{: vs1, vs2 : vd},
disasm: "vadds.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadds_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vadds.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vadds_u_w_vx{: vs1, vs2 : vd},
disasm: "vadds.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vadds_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vadds.w.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddsu<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vsubs
vsubs_b_vv{: vs1, vs2 : vd},
disasm: "vsubs.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubs_b_vv_m{: vs1, vs2 : vd},
disasm: "vsubs.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubs_h_vv{: vs1, vs2 : vd},
disasm: "vsubs.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubs_h_vv_m{: vs1, vs2 : vd},
disasm: "vsubs.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubs_w_vv{: vs1, vs2 : vd},
disasm: "vsubs.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubs_w_vv_m{: vs1, vs2 : vd},
disasm: "vsubs.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubs_b_vx{: vs1, vs2 : vd},
disasm: "vsubs.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubs_b_vx_m{: vs1, vs2 : vd},
disasm: "vsubs.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsubs_h_vx{: vs1, vs2 : vd},
disasm: "vsubs.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubs_h_vx_m{: vs1, vs2 : vd},
disasm: "vsubs.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsubs_w_vx{: vs1, vs2 : vd},
disasm: "vsubs.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubs_w_vx_m{: vs1, vs2 : vd},
disasm: "vsubs.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubs<int32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vsubsu
vsubs_u_b_vv{: vs1, vs2 : vd},
disasm: "vsubs.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubs_u_b_vv_m{: vs1, vs2 : vd},
disasm: "vsubs.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubs_u_h_vv{: vs1, vs2 : vd},
disasm: "vsubs.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubs_u_h_vv_m{: vs1, vs2 : vd},
disasm: "vsubs.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubs_u_w_vv{: vs1, vs2 : vd},
disasm: "vsubs.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubs_u_w_vv_m{: vs1, vs2 : vd},
disasm: "vsubs.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubs_u_b_vx{: vs1, vs2 : vd},
disasm: "vsubs.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubs_u_b_vx_m{: vs1, vs2 : vd},
disasm: "vsubs.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsubs_u_h_vx{: vs1, vs2 : vd},
disasm: "vsubs.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubs_u_h_vx_m{: vs1, vs2 : vd},
disasm: "vsubs.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsubs_u_w_vx{: vs1, vs2 : vd},
disasm: "vsubs.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubs_u_w_vx_m{: vs1, vs2 : vd},
disasm: "vsubs.w.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubsu<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vaddw
vaddw_h_vv{: vs1, vs2 : vd},
disasm: "vaddw.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int16_t, int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vaddw_h_vv_m{: vs1, vs2 : vd},
disasm: "vaddw.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int16_t, int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vaddw_w_vv{: vs1, vs2 : vd},
disasm: "vaddw.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int32_t, int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vaddw_w_vv_m{: vs1, vs2 : vd},
disasm: "vaddw.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int32_t, int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vaddw_h_vx{: vs1, vs2 : vd},
disasm: "vaddw.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int16_t, int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vaddw_h_vx_m{: vs1, vs2 : vd},
disasm: "vaddw.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int16_t, int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vaddw_w_vx{: vs1, vs2 : vd},
disasm: "vaddw.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int32_t, int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vaddw_w_vx_m{: vs1, vs2 : vd},
disasm: "vaddw.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<int32_t, int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vaddwu
vaddw_h_u_vv{: vs1, vs2 : vd},
disasm: "vaddw.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint16_t, uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vaddw_h_u_vv_m{: vs1, vs2 : vd},
disasm: "vaddw.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint16_t, uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vaddw_w_u_vv{: vs1, vs2 : vd},
disasm: "vaddw.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint32_t, uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vaddw_w_u_vv_m{: vs1, vs2 : vd},
disasm: "vaddw.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint32_t, uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vaddw_h_u_vx{: vs1, vs2 : vd},
disasm: "vaddw.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint16_t, uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vaddw_h_u_vx_m{: vs1, vs2 : vd},
disasm: "vaddw.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint16_t, uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vaddw_w_u_vx{: vs1, vs2 : vd},
disasm: "vaddw.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint32_t, uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vaddw_w_u_vx_m{: vs1, vs2 : vd},
disasm: "vaddw.w.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAddw<uint32_t, uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vsubw
vsubw_h_vv{: vs1, vs2 : vd},
disasm: "vsubw.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int16_t, int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubw_h_vv_m{: vs1, vs2 : vd},
disasm: "vsubw.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int16_t, int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubw_w_vv{: vs1, vs2 : vd},
disasm: "vsubw.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int32_t, int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubw_w_vv_m{: vs1, vs2 : vd},
disasm: "vsubw.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int32_t, int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubw_h_vx{: vs1, vs2 : vd},
disasm: "vsubw.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int16_t, int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubw_h_vx_m{: vs1, vs2 : vd},
disasm: "vsubw.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int16_t, int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsubw_w_vx{: vs1, vs2 : vd},
disasm: "vsubw.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int32_t, int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubw_w_vx_m{: vs1, vs2 : vd},
disasm: "vsubw.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<int32_t, int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vsubwu
vsubw_h_u_vv{: vs1, vs2 : vd},
disasm: "vsubw.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint16_t, uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubw_h_u_vv_m{: vs1, vs2 : vd},
disasm: "vsubw.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint16_t, uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubw_w_u_vv{: vs1, vs2 : vd},
disasm: "vsubw.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint32_t, uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vsubw_w_u_vv_m{: vs1, vs2 : vd},
disasm: "vsubw.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint32_t, uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vsubw_h_u_vx{: vs1, vs2 : vd},
disasm: "vsubw.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint16_t, uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubw_h_u_vx_m{: vs1, vs2 : vd},
disasm: "vsubw.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint16_t, uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vsubw_w_u_vx{: vs1, vs2 : vd},
disasm: "vsubw.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint32_t, uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vsubw_w_u_vx_m{: vs1, vs2 : vd},
disasm: "vsubw.w.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVSubw<uint32_t, uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vacc
vacc_h_vv{: vs1, vs2 : vd},
disasm: "vacc.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int16_t, int8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vacc_h_vv_m{: vs1, vs2 : vd},
disasm: "vacc.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int16_t, int8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vacc_w_vv{: vs1, vs2 : vd},
disasm: "vacc.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int32_t, int16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vacc_w_vv_m{: vs1, vs2 : vd},
disasm: "vacc.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int32_t, int16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vacc_h_vx{: vs1, vs2 : vd},
disasm: "vacc.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int16_t, int8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vacc_h_vx_m{: vs1, vs2 : vd},
disasm: "vacc.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int16_t, int8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vacc_w_vx{: vs1, vs2 : vd},
disasm: "vacc.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int32_t, int16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vacc_w_vx_m{: vs1, vs2 : vd},
disasm: "vacc.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<int32_t, int16_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vaccu
vacc_h_u_vv{: vs1, vs2 : vd},
disasm: "vacc.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint16_t, uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vacc_h_u_vv_m{: vs1, vs2 : vd},
disasm: "vacc.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint16_t, uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vacc_w_u_vv{: vs1, vs2 : vd},
disasm: "vacc.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint32_t, uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vacc_w_u_vv_m{: vs1, vs2 : vd},
disasm: "vacc.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint32_t, uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vacc_h_u_vx{: vs1, vs2 : vd},
disasm: "vacc.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint16_t, uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vacc_h_u_vx_m{: vs1, vs2 : vd},
disasm: "vacc.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint16_t, uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vacc_w_u_vx{: vs1, vs2 : vd},
disasm: "vacc.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint32_t, uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vacc_w_u_vx_m{: vs1, vs2 : vd},
disasm: "vacc.w.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAcc<uint32_t, uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vpadd
vpadd_h_v{: vs1 : vd},
disasm: "vpadd.h.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<int16_t, int8_t>, /*strip_mine*/ false)";
vpadd_h_v_m{: vs1 : vd},
disasm: "vpadd.h.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<int16_t, int8_t>, /*strip_mine*/ true)";
vpadd_w_v{: vs1 : vd},
disasm: "vpadd.w.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<int32_t, int16_t>, /*strip_mine*/ false)";
vpadd_w_v_m{: vs1 : vd},
disasm: "vpadd.w.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<int32_t, int16_t>, /*strip_mine*/ true)";
//vpaddu
vpadd_h_u_v{: vs1 : vd},
disasm: "vpadd.h.u.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<uint16_t, uint8_t>, /*strip_mine*/ false)";
vpadd_h_u_v_m{: vs1 : vd},
disasm: "vpadd.h.u.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<uint16_t, uint8_t>, /*strip_mine*/ true)";
vpadd_w_u_v{: vs1 : vd},
disasm: "vpadd.w.u.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<uint32_t, uint16_t>, /*strip_mine*/ false)";
vpadd_w_u_v_m{: vs1 : vd},
disasm: "vpadd.w.u.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPadd<uint32_t, uint16_t>, /*strip_mine*/ true)";
//vpsub
vpsub_h_v{: vs1 : vd},
disasm: "vpsub.h.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<int16_t, int8_t>, /*strip_mine*/ false)";
vpsub_h_v_m{: vs1 : vd},
disasm: "vpsub.h.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<int16_t, int8_t>, /*strip_mine*/ true)";
vpsub_w_v{: vs1 : vd},
disasm: "vpsub.w.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<int32_t, int16_t>, /*strip_mine*/ false)";
vpsub_w_v_m{: vs1 : vd},
disasm: "vpsub.w.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<int32_t, int16_t>, /*strip_mine*/ true)";
//vpsubu
vpsub_h_u_v{: vs1 : vd},
disasm: "vpsub.h.u.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<uint16_t, uint8_t>, /*strip_mine*/ false)";
vpsub_h_u_v_m{: vs1 : vd},
disasm: "vpsub.h.u.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<uint16_t, uint8_t>, /*strip_mine*/ true)";
vpsub_w_u_v{: vs1 : vd},
disasm: "vpsub.w.u.v", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<uint32_t, uint16_t>, /*strip_mine*/ false)";
vpsub_w_u_v_m{: vs1 : vd},
disasm: "vpsub.w.u.v.m", "%vd, %vs1",
semfunc: "absl::bind_front(&KelvinVPsub<uint32_t, uint16_t>, /*strip_mine*/ true)";
//vhadd
vhadd_b_vv{: vs1, vs2 : vd},
disasm: "vhadd.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhadd_b_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhadd_h_vv{: vs1, vs2 : vd},
disasm: "vhadd.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhadd_h_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhadd_w_vv{: vs1, vs2 : vd},
disasm: "vhadd.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhadd_w_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhadd_b_vx{: vs1, vs2 : vd},
disasm: "vhadd.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhadd_b_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhadd_h_vx{: vs1, vs2 : vd},
disasm: "vhadd.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhadd_h_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhadd_w_vx{: vs1, vs2 : vd},
disasm: "vhadd.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhadd_w_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
//vhadd.r
vhadd_b_r_vv{: vs1, vs2 : vd},
disasm: "vhadd.b.r.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhadd_b_r_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.b.r.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhadd_h_r_vv{: vs1, vs2 : vd},
disasm: "vhadd.h.r.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhadd_h_r_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.h.r.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhadd_w_r_vv{: vs1, vs2 : vd},
disasm: "vhadd.w.r.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhadd_w_r_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.w.r.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhadd_b_r_vx{: vs1, vs2 : vd},
disasm: "vhadd.b.r.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhadd_b_r_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.b.r.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhadd_h_r_vx{: vs1, vs2 : vd},
disasm: "vhadd.h.r.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhadd_h_r_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.h.r.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhadd_w_r_vx{: vs1, vs2 : vd},
disasm: "vhadd.w.r.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhadd_w_r_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.w.r.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<int32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
//vhadd.u
vhadd_b_u_vv{: vs1, vs2 : vd},
disasm: "vhadd.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhadd_b_u_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhadd_h_u_vv{: vs1, vs2 : vd},
disasm: "vhadd.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhadd_h_u_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhadd_w_u_vv{: vs1, vs2 : vd},
disasm: "vhadd.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhadd_w_u_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhadd_b_u_vx{: vs1, vs2 : vd},
disasm: "vhadd.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhadd_b_u_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhadd_h_u_vx{: vs1, vs2 : vd},
disasm: "vhadd.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhadd_h_u_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhadd_w_u_vx{: vs1, vs2 : vd},
disasm: "vhadd.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhadd_w_u_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.w.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
//vhadd.ru
vhadd_b_ur_vv{: vs1, vs2 : vd},
disasm: "vhadd.b.ur.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhadd_b_ur_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.b.ur.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhadd_h_ur_vv{: vs1, vs2 : vd},
disasm: "vhadd.h.ur.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhadd_h_ur_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.h.ur.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhadd_w_ur_vv{: vs1, vs2 : vd},
disasm: "vhadd.w.ur.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhadd_w_ur_vv_m{: vs1, vs2 : vd},
disasm: "vhadd.w.ur.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhadd_b_ur_vx{: vs1, vs2 : vd},
disasm: "vhadd.b.ur.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhadd_b_ur_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.b.ur.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhadd_h_ur_vx{: vs1, vs2 : vd},
disasm: "vhadd.h.ur.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhadd_h_ur_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.h.ur.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhadd_w_ur_vx{: vs1, vs2 : vd},
disasm: "vhadd.w.ur.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhadd_w_ur_vx_m{: vs1, vs2 : vd},
disasm: "vhadd.w.ur.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHadd<uint32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
//vhsub
vhsub_b_vv{: vs1, vs2 : vd},
disasm: "vhsub.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhsub_b_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhsub_h_vv{: vs1, vs2 : vd},
disasm: "vhsub.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhsub_h_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhsub_w_vv{: vs1, vs2 : vd},
disasm: "vhsub.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhsub_w_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhsub_b_vx{: vs1, vs2 : vd},
disasm: "vhsub.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhsub_b_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhsub_h_vx{: vs1, vs2 : vd},
disasm: "vhsub.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhsub_h_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhsub_w_vx{: vs1, vs2 : vd},
disasm: "vhsub.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhsub_w_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
//vhsub.r
vhsub_b_r_vv{: vs1, vs2 : vd},
disasm: "vhsub.b.r.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhsub_b_r_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.b.r.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhsub_h_r_vv{: vs1, vs2 : vd},
disasm: "vhsub.h.r.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhsub_h_r_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.h.r.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhsub_w_r_vv{: vs1, vs2 : vd},
disasm: "vhsub.w.r.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhsub_w_r_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.w.r.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhsub_b_r_vx{: vs1, vs2 : vd},
disasm: "vhsub.b.r.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhsub_b_r_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.b.r.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhsub_h_r_vx{: vs1, vs2 : vd},
disasm: "vhsub.h.r.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhsub_h_r_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.h.r.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhsub_w_r_vx{: vs1, vs2 : vd},
disasm: "vhsub.w.r.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhsub_w_r_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.w.r.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<int32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
//vhsub.u
vhsub_b_u_vv{: vs1, vs2 : vd},
disasm: "vhsub.b.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhsub_b_u_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.b.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhsub_h_u_vv{: vs1, vs2 : vd},
disasm: "vhsub.h.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhsub_h_u_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.h.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhsub_w_u_vv{: vs1, vs2 : vd},
disasm: "vhsub.w.u.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ false)";
vhsub_w_u_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.w.u.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ false)";
vhsub_b_u_vx{: vs1, vs2 : vd},
disasm: "vhsub.b.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhsub_b_u_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.b.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhsub_h_u_vx{: vs1, vs2 : vd},
disasm: "vhsub.h.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhsub_h_u_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.h.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
vhsub_w_u_vx{: vs1, vs2 : vd},
disasm: "vhsub.w.u.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ false)";
vhsub_w_u_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.w.u.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ false)";
//vhsub.ru
vhsub_b_ur_vv{: vs1, vs2 : vd},
disasm: "vhsub.b.ur.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhsub_b_ur_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.b.ur.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhsub_h_ur_vv{: vs1, vs2 : vd},
disasm: "vhsub.h.ur.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhsub_h_ur_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.h.ur.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhsub_w_ur_vv{: vs1, vs2 : vd},
disasm: "vhsub.w.ur.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ false, /*strip_mine*/ false, /* round */ true)";
vhsub_w_ur_vv_m{: vs1, vs2 : vd},
disasm: "vhsub.w.ur.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ false, /*strip_mine*/ true, /* round */ true)";
vhsub_b_ur_vx{: vs1, vs2 : vd},
disasm: "vhsub.b.ur.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhsub_b_ur_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.b.ur.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint8_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhsub_h_ur_vx{: vs1, vs2 : vd},
disasm: "vhsub.h.ur.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhsub_h_ur_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.h.ur.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint16_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
vhsub_w_ur_vx{: vs1, vs2 : vd},
disasm: "vhsub.w.ur.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ true, /*strip_mine*/ false, /* round */ true)";
vhsub_w_ur_vx_m{: vs1, vs2 : vd},
disasm: "vhsub.w.ur.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVHsub<uint32_t>, /*scalar*/ true, /*strip_mine*/ true, /* round */ true)";
//vand
vand_vv{: vs1, vs2 : vd},
disasm: "vand.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vand_vv_m{: vs1, vs2 : vd},
disasm: "vand.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vand_b_vx{: vs1, vs2 : vd},
disasm: "vand.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vand_b_vx_m{: vs1, vs2 : vd},
disasm: "vand.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vand_h_vx{: vs1, vs2 : vd},
disasm: "vand.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vand_h_vx_m{: vs1, vs2 : vd},
disasm: "vand.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vand_w_vx{: vs1, vs2 : vd},
disasm: "vand.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vand_w_vx_m{: vs1, vs2 : vd},
disasm: "vand.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVAnd<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vor
vor_vv{: vs1, vs2 : vd},
disasm: "vor.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vor_vv_m{: vs1, vs2 : vd},
disasm: "vor.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vor_b_vx{: vs1, vs2 : vd},
disasm: "vor.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vor_b_vx_m{: vs1, vs2 : vd},
disasm: "vor.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vor_h_vx{: vs1, vs2 : vd},
disasm: "vor.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vor_h_vx_m{: vs1, vs2 : vd},
disasm: "vor.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vor_w_vx{: vs1, vs2 : vd},
disasm: "vor.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vor_w_vx_m{: vs1, vs2 : vd},
disasm: "vor.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVOr<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vxor
vxor_vv{: vs1, vs2 : vd},
disasm: "vxor.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vxor_vv_m{: vs1, vs2 : vd},
disasm: "vxor.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vxor_b_vx{: vs1, vs2 : vd},
disasm: "vxor.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vxor_b_vx_m{: vs1, vs2 : vd},
disasm: "vxor.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vxor_h_vx{: vs1, vs2 : vd},
disasm: "vxor.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vxor_h_vx_m{: vs1, vs2 : vd},
disasm: "vxor.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vxor_w_vx{: vs1, vs2 : vd},
disasm: "vxor.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vxor_w_vx_m{: vs1, vs2 : vd},
disasm: "vxor.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVXor<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vrev
vrev_b_vv{: vs1, vs2 : vd},
disasm: "vrev.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vrev_b_vx{: vs1, vs2 : vd},
disasm: "vrev.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vrev_b_vv_m{: vs1, vs2 : vd},
disasm: "vrev.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vrev_b_vx_m{: vs1, vs2 : vd},
disasm: "vrev.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vrev_h_vv{: vs1, vs2 : vd},
disasm: "vrev.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vrev_h_vx{: vs1, vs2 : vd},
disasm: "vrev.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vrev_h_vv_m{: vs1, vs2 : vd},
disasm: "vrev.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vrev_h_vx_m{: vs1, vs2 : vd},
disasm: "vrev.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vrev_w_vv{: vs1, vs2 : vd},
disasm: "vrev.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vrev_w_vx{: vs1, vs2 : vd},
disasm: "vrev.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vrev_w_vv_m{: vs1, vs2 : vd},
disasm: "vrev.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vrev_w_vx_m{: vs1, vs2 : vd},
disasm: "vrev.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRev<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vror
vror_b_vv{: vs1, vs2 : vd},
disasm: "vror.b.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint8_t>, /*scalar*/ false, /*strip_mine*/ false)";
vror_b_vx{: vs1, vs2 : vd},
disasm: "vror.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vror_b_vv_m{: vs1, vs2 : vd},
disasm: "vror.b.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint8_t>, /*scalar*/ false, /*strip_mine*/ true)";
vror_b_vx_m{: vs1, vs2 : vd},
disasm: "vror.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vror_h_vv{: vs1, vs2 : vd},
disasm: "vror.h.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint16_t>, /*scalar*/ false, /*strip_mine*/ false)";
vror_h_vx{: vs1, vs2 : vd},
disasm: "vror.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vror_h_vv_m{: vs1, vs2 : vd},
disasm: "vror.h.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint16_t>, /*scalar*/ false, /*strip_mine*/ true)";
vror_h_vx_m{: vs1, vs2 : vd},
disasm: "vror.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vror_w_vv{: vs1, vs2 : vd},
disasm: "vror.w.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vror_w_vx{: vs1, vs2 : vd},
disasm: "vror.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vror_w_vv_m{: vs1, vs2 : vd},
disasm: "vror.w.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vror_w_vx_m{: vs1, vs2 : vd},
disasm: "vror.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVRor<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
//vmvp
vmvp_vv{: vs1, vs2 : vd},
disasm: "vmvp.vv", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint32_t>, /*scalar*/ false, /*strip_mine*/ false)";
vmvp_vv_m{: vs1, vs2 : vd},
disasm: "vmvp.vv.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint32_t>, /*scalar*/ false, /*strip_mine*/ true)";
vmvp_b_vx{: vs1, vs2 : vd},
disasm: "vmvp.b.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint8_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmvp_b_vx_m{: vs1, vs2 : vd},
disasm: "vmvp.b.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint8_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmvp_h_vx{: vs1, vs2 : vd},
disasm: "vmvp.h.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint16_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmvp_h_vx_m{: vs1, vs2 : vd},
disasm: "vmvp.h.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint16_t>, /*scalar*/ true, /*strip_mine*/ true)";
vmvp_w_vx{: vs1, vs2 : vd},
disasm: "vmvp.w.vx", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint32_t>, /*scalar*/ true, /*strip_mine*/ false)";
vmvp_w_vx_m{: vs1, vs2 : vd},
disasm: "vmvp.w.vx.m", "%vd, %vs1, %vs2",
semfunc: "absl::bind_front(&KelvinVMvp<uint32_t>, /*scalar*/ true, /*strip_mine*/ true)";
}
}