st3
Store Multiple 3-Element Structures
ST3 { <Vt1>.<T>, <Vt2>.<T>, <Vt3>.<T> }, [<Xn|SP>]
Stores three-element structures from three registers (Interleave RGB).
Details
Stores three SIMD registers to memory, interleaving their elements into three consecutive 3-element structures. The element type T and Q field control the 64-bit (Q=0) or 128-bit (Q=1) store size per register; the base address in Xn is post-incremented by the total bytes stored. This AArch64 NEON instruction does not modify condition flags.
Pseudocode Operation
elements_per_struct ← 3; element_size ← GetElementSize(T); struct_bytes ← 3 * elements_per_struct * element_size; mem_addr ← Xn; InterleavedData ← InterleaveStore(Vt1, Vt2, Vt3, Q); [mem_addr] ← InterleavedData; Xn ← Xn + struct_bytes;
Example
ST3 [x1]
Encoding
Binary Layout
0
Q
0011000
0
000000
0100
size
Rn
Rt
Operands
-
Vt1
R -
Vt2
G -
Vt3
B -
Xn
First source / base 64-bit integer register
Reference (Arm A64 ISA)
Instruction Forms
| Encoding | Instruction | ISA | Bit pattern | ||
|---|---|---|---|---|---|
| 0x0C004000 | ST3 { <Vt>.<T>, <Vt2>.<T>, <Vt3>.<T> }, [<Xn|SP>] | A64 | 0 | Q | 0011000 | 0 | 000000 | 0100 | size | Rn | Rt | ||
| 0x0C9F4000 | ST3 { <Vt>.<T>, <Vt2>.<T>, <Vt3>.<T> }, [<Xn|SP>], <imm> | A64 | 0 | Q | 0011001 | 0 | 0 | 11111 | 0100 | size | Rn | Rt | ||
| 0x0C804000 | ST3 { <Vt>.<T>, <Vt2>.<T>, <Vt3>.<T> }, [<Xn|SP>], <Xm> | A64 | 0 | Q | 0011001 | 0 | 0 | Rm | 0100 | size | Rn | Rt | ||
| 0x0D002000 | ST3 { <Vt>.B, <Vt2>.B, <Vt3>.B }[<index>], [<Xn|SP>] | A64 | 0 | Q | 0011010 | 0 | 0 | 0000 | 0 | 001 | S | size | Rn | Rt | ||
| 0x0D006000 | ST3 { <Vt>.H, <Vt2>.H, <Vt3>.H }[<index>], [<Xn|SP>] | A64 | 0 | Q | 0011010 | 0 | 0 | 0000 | 0 | 011 | S | size | Rn | Rt | ||
| 0x0D00A000 | ST3 { <Vt>.S, <Vt2>.S, <Vt3>.S }[<index>], [<Xn|SP>] | A64 | 0 | Q | 0011010 | 0 | 0 | 0000 | 0 | 101 | S | 00 | Rn | Rt | ||
| 0x0D00A400 | ST3 { <Vt>.D, <Vt2>.D, <Vt3>.D }[<index>], [<Xn|SP>] | A64 | 0 | Q | 0011010 | 0 | 0 | 0000 | 0 | 101 | 0 | 01 | Rn | Rt | ||
| 0x0D9F2000 | ST3 { <Vt>.B, <Vt2>.B, <Vt3>.B }[<index>], [<Xn|SP>], #3 | A64 | 0 | Q | 0011011 | 0 | 0 | 11111 | 001 | S | size | Rn | Rt | ||
| 0x0D802000 | ST3 { <Vt>.B, <Vt2>.B, <Vt3>.B }[<index>], [<Xn|SP>], <Xm> | A64 | 0 | Q | 0011011 | 0 | 0 | Rm | 001 | S | size | Rn | Rt | ||
| 0x0D9F6000 | ST3 { <Vt>.H, <Vt2>.H, <Vt3>.H }[<index>], [<Xn|SP>], #6 | A64 | 0 | Q | 0011011 | 0 | 0 | 11111 | 011 | S | size | Rn | Rt | ||
| 0x0D806000 | ST3 { <Vt>.H, <Vt2>.H, <Vt3>.H }[<index>], [<Xn|SP>], <Xm> | A64 | 0 | Q | 0011011 | 0 | 0 | Rm | 011 | S | size | Rn | Rt | ||
| 0x0D9FA000 | ST3 { <Vt>.S, <Vt2>.S, <Vt3>.S }[<index>], [<Xn|SP>], #12 | A64 | 0 | Q | 0011011 | 0 | 0 | 11111 | 101 | S | 00 | Rn | Rt | ||
| 0x0D80A000 | ST3 { <Vt>.S, <Vt2>.S, <Vt3>.S }[<index>], [<Xn|SP>], <Xm> | A64 | 0 | Q | 0011011 | 0 | 0 | Rm | 101 | S | 00 | Rn | Rt | ||
| 0x0D9FA400 | ST3 { <Vt>.D, <Vt2>.D, <Vt3>.D }[<index>], [<Xn|SP>], #24 | A64 | 0 | Q | 0011011 | 0 | 0 | 11111 | 101 | 0 | 01 | Rn | Rt |
Description
Store multiple 3-element structures from three registers. This instruction stores multiple 3-element structures to memory from three SIMD&FP registers, with interleaving. Every element of each register is stored.
Depending on the settings in the CPACR_EL1, CPTR_EL2, and CPTR_EL3 registers, and the current Security state and Exception level, an attempt to execute the instruction might be trapped.
Operation
CheckFPAdvSIMDEnabled64();
bits(64) address;
bits(64) eaddr;
bits(64) offs;
bits(datasize) rval;
integer tt;
constant integer ebytes = esize DIV 8;
AccessDescriptor accdesc = CreateAccDescASIMD(memop, nontemporal, tagchecked);
if n == 31 then
CheckSPAlignment();
address = SP[];
else
address = X[n, 64];
offs = Zeros(64);
for r = 0 to rpt-1
for e = 0 to elements-1
tt = (t + r) MOD 32;
for s = 0 to selem-1
rval = V[tt, datasize];
eaddr = GenerateAddress(address, offs, accdesc);
if memop == MemOp_LOAD then
Elem[rval, e, esize] = Mem[eaddr, ebytes, accdesc];
V[tt, datasize] = rval;
else // memop == MemOp_STORE
Mem[eaddr, ebytes, accdesc] = Elem[rval, e, esize];
offs = offs + ebytes;
tt = (tt + 1) MOD 32;
if wback then
if m != 31 then
offs = X[m, 64];
address = GenerateAddress(address, offs, accdesc);
if n == 31 then
SP[] = address;
else
X[n, 64] = address;