ST1D (scalar plus scalar, consecutive registers)

Contiguous store of doublewords from multiple consecutive vectors (scalar index)

This instruction performs a contiguous store of doublewords from elements of two or four consecutive vector registers to the memory address generated by a 64-bit scalar base and scalar index which is added to the base address. After each element access the index value is incremented, but the index register is not updated.

Inactive elements are not written to memory.

Encoding: Two registers

Variants: FEAT_SME2 || FEAT_SVE2p1 (FEAT_SME2 || FEAT_SVE2p1)

313029282726252423222120191817161514131211109876543210
101000000010110
RmmszPNgRnZtN

ST1D { <Zt1>.D-<Zt2>.D }, <PNg>, [<Xn|SP>, <Xm>, LSL #3]

Decoding algorithm

if !IsFeatureImplemented(FEAT_SME2) && !IsFeatureImplemented(FEAT_SVE2p1) then
    EndOfDecode(Decode_UNDEF);
constant integer n = UInt(Rn);
constant integer m = UInt(Rm);
constant integer g = UInt('1':PNg);
constant integer nreg = 2;
constant integer t = UInt(Zt:'0');
constant integer esize = 64;

Encoding: Four registers

Variants: FEAT_SME2 || FEAT_SVE2p1 (FEAT_SME2 || FEAT_SVE2p1)

313029282726252423222120191817161514131211109876543210
1010000000111100
RmmszPNgRnZtN

ST1D { <Zt1>.D-<Zt4>.D }, <PNg>, [<Xn|SP>, <Xm>, LSL #3]

Decoding algorithm

if !IsFeatureImplemented(FEAT_SME2) && !IsFeatureImplemented(FEAT_SVE2p1) then
    EndOfDecode(Decode_UNDEF);
constant integer n = UInt(Rn);
constant integer m = UInt(Rm);
constant integer g = UInt('1':PNg);
constant integer nreg = 4;
constant integer t = UInt(Zt:'00');
constant integer esize = 64;

Operation

if IsFeatureImplemented(FEAT_SVE2p1) then CheckSVEEnabled(); else CheckStreamingSVEEnabled();
constant integer VL = CurrentVL;
constant integer PL = VL DIV 8;
constant integer elements = VL DIV esize;
constant integer mbytes = esize DIV 8;
bits(64) offset;
bits(64) base;
bits(64) addr;
bits(VL) src;
constant bits(PL) pred = P[g, PL];
constant bits(PL * nreg) mask = CounterToPredicate(pred<15:0>, PL * nreg);
constant boolean contiguous = TRUE;
constant boolean nontemporal = FALSE;
constant integer transfer = t;
constant boolean tagchecked = TRUE;
constant AccessDescriptor accdesc = CreateAccDescSVE(MemOp_STORE, nontemporal, contiguous,
                                                     tagchecked);

if !AnyActiveElement(mask, esize) then
    if n == 31 && ConstrainUnpredictableBool(Unpredictable_CHECKSPNONEACTIVE) then
        CheckSPAlignment();
else
    if n == 31 then CheckSPAlignment();

base = if n == 31 then SP[64] else X[n, 64];
offset = X[m, 64];
addr = AddressAdd(base, UInt(offset) * mbytes, accdesc);

for r = 0 to nreg-1
    src = Z[transfer+r, VL];
    for e = 0 to elements-1
        if ActivePredicateElement(mask, r * elements + e, esize) then
            Mem[addr, mbytes, accdesc] = Elem[src, e, esize];
        addr = AddressIncrement(addr, mbytes, accdesc);

Explanations

<Zt1>: For the "Two registers" variant: is the name of the first scalable vector register to be transferred, encoded as "Zt" times 2.
<Zt1>: For the "Four registers" variant: is the name of the first scalable vector register to be transferred, encoded as "Zt" times 4.
<Zt2>: Is the name of the second scalable vector register to be transferred, encoded as "Zt" times 2 plus 1.
<PNg>: Is the name of the governing scalable predicate register PN8-PN15, with predicate-as-counter encoding, encoded in the "PNg" field.
<Xn|SP>: Is the 64-bit name of the general-purpose base register or stack pointer, encoded in the "Rn" field.
<Xm>: Is the 64-bit name of the general-purpose offset register, encoded in the "Rm" field.
<Zt4>: Is the name of the fourth scalable vector register to be transferred, encoded as "Zt" times 4 plus 3.

Operational Notes

If PSTATE.DIT is 1, the timing of this instruction is insensitive to the value of the data being loaded or stored when its governing predicate register contains the same value for each execution.