vminu.vv
No synopsis available.
This instruction is defined by:
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V, version >= 0
This instruction is included in the following profiles:
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RVA22U64 (Optional)
Decode Variables
Bits<1> vm = $encoding[25];
Bits<5> vs2 = $encoding[24:20];
Bits<5> vs1 = $encoding[19:15];
Bits<5> vd = $encoding[11:7];Execution
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IDL
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Sail
{
let SEW_pow = get_sew_pow();
let SEW = get_sew();
let LMUL_pow = get_lmul_pow();
let VLEN_pow = get_vlen_pow();
let num_elem = get_num_elem(LMUL_pow, SEW);
if illegal_normal(vd, vm) then { handle_illegal(); return RETIRE_FAIL };
let 'n = num_elem;
let 'm = SEW;
let vm_val : vector('n, dec, bool) = read_vmask(num_elem, vm, 0b00000);
let vs1_val : vector('n, dec, bits('m)) = read_vreg(num_elem, SEW, LMUL_pow, vs1);
let vs2_val : vector('n, dec, bits('m)) = read_vreg(num_elem, SEW, LMUL_pow, vs2);
let vd_val : vector('n, dec, bits('m)) = read_vreg(num_elem, SEW, LMUL_pow, vd);
result : vector('n, dec, bits('m)) = undefined;
mask : vector('n, dec, bool) = undefined;
(result, mask) = init_masked_result(num_elem, SEW, LMUL_pow, vd_val, vm_val);
foreach (i from 0 to (num_elem - 1)) {
if mask[i] then {
result[i] = match funct6 {
VV_VADD => vs2_val[i] + vs1_val[i],
VV_VSUB => vs2_val[i] - vs1_val[i],
VV_VAND => vs2_val[i] & vs1_val[i],
VV_VOR => vs2_val[i] | vs1_val[i],
VV_VXOR => vs2_val[i] ^ vs1_val[i],
VV_VSADDU => unsigned_saturation('m, zero_extend('m + 1, vs2_val[i]) + zero_extend('m + 1, vs1_val[i])),
VV_VSADD => signed_saturation('m, sign_extend('m + 1, vs2_val[i]) + sign_extend('m + 1, vs1_val[i])),
VV_VSSUBU => {
if unsigned(vs2_val[i]) < unsigned(vs1_val[i]) then zeros()
else unsigned_saturation('m, zero_extend('m + 1, vs2_val[i]) - zero_extend('m + 1, vs1_val[i]))
},
VV_VSSUB => signed_saturation('m, sign_extend('m + 1, vs2_val[i]) - sign_extend('m + 1, vs1_val[i])),
VV_VSMUL => {
let result_mul = to_bits('m * 2, signed(vs2_val[i]) * signed(vs1_val[i]));
let rounding_incr = get_fixed_rounding_incr(result_mul, 'm - 1);
let result_wide = (result_mul >> ('m - 1)) + zero_extend('m * 2, rounding_incr);
signed_saturation('m, result_wide['m..0])
},
VV_VSLL => {
let shift_amount = get_shift_amount(vs1_val[i], SEW);
vs2_val[i] << shift_amount
},
VV_VSRL => {
let shift_amount = get_shift_amount(vs1_val[i], SEW);
vs2_val[i] >> shift_amount
},
VV_VSRA => {
let shift_amount = get_shift_amount(vs1_val[i], SEW);
let v_double : bits('m * 2) = sign_extend(vs2_val[i]);
slice(v_double >> shift_amount, 0, SEW)
},
VV_VSSRL => {
let shift_amount = get_shift_amount(vs1_val[i], SEW);
let rounding_incr = get_fixed_rounding_incr(vs2_val[i], shift_amount);
(vs2_val[i] >> shift_amount) + zero_extend('m, rounding_incr)
},
VV_VSSRA => {
let shift_amount = get_shift_amount(vs1_val[i], SEW);
let rounding_incr = get_fixed_rounding_incr(vs2_val[i], shift_amount);
let v_double : bits('m * 2) = sign_extend(vs2_val[i]);
slice(v_double >> shift_amount, 0, SEW) + zero_extend('m, rounding_incr)
},
VV_VMINU => to_bits(SEW, min(unsigned(vs2_val[i]), unsigned(vs1_val[i]))),
VV_VMIN => to_bits(SEW, min(signed(vs2_val[i]), signed(vs1_val[i]))),
VV_VMAXU => to_bits(SEW, max(unsigned(vs2_val[i]), unsigned(vs1_val[i]))),
VV_VMAX => to_bits(SEW, max(signed(vs2_val[i]), signed(vs1_val[i]))),
VV_VRGATHER => {
if (vs1 == vd | vs2 == vd) then { handle_illegal(); return RETIRE_FAIL };
let idx = unsigned(vs1_val[i]);
let VLMAX = int_power(2, LMUL_pow + VLEN_pow - SEW_pow);
assert(VLMAX <= 'n);
if idx < VLMAX then vs2_val[idx] else zeros()
},
VV_VRGATHEREI16 => {
if (vs1 == vd | vs2 == vd) then { handle_illegal(); return RETIRE_FAIL };
/* vrgatherei16.vv uses SEW/LMUL for the data in vs2 but EEW=16 and EMUL = (16/SEW)*LMUL for the indices in vs1 */
let vs1_new : vector('n, dec, bits(16)) = read_vreg(num_elem, 16, 4 + LMUL_pow - SEW_pow, vs1);
let idx = unsigned(vs1_new[i]);
let VLMAX = int_power(2, LMUL_pow + VLEN_pow - SEW_pow);
assert(VLMAX <= 'n);
if idx < VLMAX then vs2_val[idx] else zeros()
}
}
}
};
write_vreg(num_elem, SEW, LMUL_pow, vd, result);
vstart = zeros();
RETIRE_SUCCESS
}