MOV (tile to vector, four registers)

Move four ZA tile slices to four vector registers

The instruction operates on four consecutive horizontal or vertical slices within a named ZA tile of the specified element size.

The consecutive slice numbers within the tile are selected starting from the sum of the slice index register and immediate offset, modulo the number of such elements in a vector. The immediate offset is a multiple of 4 in the range 0 to the number of elements in a 128-bit vector segment minus 4.

This instruction is unpredicated.

This is an alias of MOVA (tile to vector, four registers). This means:

It has encodings from 4 classes: 8-bit , 16-bit , 32-bit and 64-bit

8-bit

313029282726252423222120191817161514131211109876543210
1100000000000110VRs001000off2Zd00
size<1>size<0>

MOV { <Zd1>.B-<Zd4>.B }, ZA0<HV>.B[<Ws>, <offsf>:<offsl>]

is equivalent to

MOVA { <Zd1>.B-<Zd4>.B }, ZA0<HV>.B[<Ws>, <offsf>:<offsl>]

and is always the preferred disassembly.

16-bit

313029282726252423222120191817161514131211109876543210
1100000001000110VRs001000ZAno1Zd00
size<1>size<0>

MOV { <Zd1>.H-<Zd4>.H }, <ZAn><HV>.H[<Ws>, <offsf>:<offsl>]

is equivalent to

MOVA { <Zd1>.H-<Zd4>.H }, <ZAn><HV>.H[<Ws>, <offsf>:<offsl>]

and is always the preferred disassembly.

32-bit

313029282726252423222120191817161514131211109876543210
1100000010000110VRs001000ZAnZd00
size<1>size<0>

MOV { <Zd1>.S-<Zd4>.S }, <ZAn><HV>.S[<Ws>, <offsf>:<offsl>]

is equivalent to

MOVA { <Zd1>.S-<Zd4>.S }, <ZAn><HV>.S[<Ws>, <offsf>:<offsl>]

and is always the preferred disassembly.

64-bit

313029282726252423222120191817161514131211109876543210
1100000011000110VRs00100ZAnZd00
size<1>size<0>

MOV { <Zd1>.D-<Zd4>.D }, <ZAn><HV>.D[<Ws>, <offsf>:<offsl>]

is equivalent to

MOVA { <Zd1>.D-<Zd4>.D }, <ZAn><HV>.D[<Ws>, <offsf>:<offsl>]

and is always the preferred disassembly.

Assembler Symbols

<Zd1>

Is the name of the first destination scalable vector register of a multi-vector sequence, encoded as "Zd" times 4.

<Zd4>

Is the name of the fourth destination scalable vector register of a multi-vector sequence, encoded as "Zd" times 4 plus 3.

<ZAn>

For the 16-bit variant: is the name of the ZA tile ZA0-ZA1 to be accessed, encoded in the "ZAn" field.

For the 32-bit variant: is the name of the ZA tile ZA0-ZA3 to be accessed, encoded in the "ZAn" field.

For the 64-bit variant: is the name of the ZA tile ZA0-ZA7 to be accessed, encoded in the "ZAn" field.

<HV>

Is the horizontal or vertical slice indicator, encoded in V:

V <HV>
0 H
1 V
<Ws>

Is the 32-bit name of the slice index register W12-W15, encoded in the "Rs" field.

<offsf>

For the 8-bit variant: is the slice index offset, pointing to first of four consecutive slices, encoded as "off2" field times 4.

For the 16-bit variant: is the slice index offset, pointing to first of four consecutive slices, encoded as "o1" field times 4.

For the 32-bit and 64-bit variant: is the slice index offset, pointing to first of four consecutive slices, with implicit value 0.

<offsl>

For the 8-bit variant: is the slice index offset, pointing to last of four consecutive slices, encoded as "off2" field times 4 plus 3.

For the 16-bit variant: is the slice index offset, pointing to last of four consecutive slices, encoded as "o1" field times 4 plus 3.

For the 32-bit and 64-bit variant: is the slice index offset, pointing to last of four consecutive slices, with implicit value 3.

Operation

The description of MOVA (tile to vector, four registers) gives the operational pseudocode for this instruction.

Operational information

If FEAT_SVE2 is implemented or FEAT_SME is implemented, then when PSTATE.DIT is 1:


Internal version only: isa v33.53, AdvSIMD v29.11, pseudocode v2022-09_rel, sve v2022-09_rel ; Build timestamp: 2022-09-30T16:37

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