SVE Instruction List by Dougall Johnson
# UDOT (4-way, indexed): Unsigned integer indexed dot product

UDOT Zda.S, Zn.B, Zm.B[imm] (SVE (SME

svuint32_t svdot_lane[_u32](svuint32_t op1, svuint8_t op2, svuint8_t op3, uint64_t imm_index)

## 128-bit SVE

For each group of four unsigned 8-bit integers from (1) and (2), compute the dot-product, then add the result to the corresponding 16-bit integer accumulator from (3), setting (4) to the total. Within each 128-bit segment, the group of four values used from (1) is specified by `imm`

.

## 256-bit SVE

For each group of four unsigned 8-bit integers from (1) and (2), compute the dot-product, then add the result to the corresponding 16-bit integer accumulator from (3), setting (4) to the total. Within each 128-bit segment, the group of four values used from (1) is specified by `imm`

.

## 512-bit SVE

For each group of four unsigned 8-bit integers from (1) and (2), compute the dot-product, then add the result to the corresponding 16-bit integer accumulator from (3), setting (4) to the total. Within each 128-bit segment, the group of four values used from (1) is specified by `imm`

.

## Larger sizes

## 1024-bit SVE

For each group of four unsigned 8-bit integers from (1) and (2), compute the dot-product, then add the result to the corresponding 16-bit integer accumulator from (3), setting (4) to the total. Within each 128-bit segment, the group of four values used from (1) is specified by `imm`

.

## 2048-bit SVE

For each group of four unsigned 8-bit integers from (1) and (2), compute the dot-product, then add the result to the corresponding 16-bit integer accumulator from (3), setting (4) to the total. Within each 128-bit segment, the group of four values used from (1) is specified by `imm`

.

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Inspired by and based on the x86/x64 SIMD Instruction List by Daytime.