pto.tadds¶

pto.tadds is part of the Tile Scalar And Immediate instruction set.

Summary¶

Elementwise add a scalar to a tile.

Mechanism¶

Elementwise add a scalar to a tile. It operates on tile payloads rather than scalar control state, and its legality is constrained by tile shape, layout, valid-region, and target-profile support.

For each element (i, j) in the valid region:

Syntax¶

Textual spelling is defined by the PTO ISA syntax-and-operands pages.

Synchronous form:

%dst = tadds %src, %scalar : !pto.tile<...>, f32

AS Level 1 (SSA)¶

%dst = pto.tadds %src, %scalar : (!pto.tile<...>,dtype) -> !pto.tile<...>

AS Level 2 (DPS)¶

pto.tadds ins(%src, %scalar : !pto.tile_buf<...>, dtype) outs(%dst : !pto.tile_buf<...>)

IR Level 1 (SSA)¶

%dst = pto.tadds %src, %scalar : (!pto.tile<...>,dtype) -> !pto.tile<...>

IR Level 2 (DPS)¶

pto.tadds ins(%src, %scalar : !pto.tile_buf<...>, dtype) outs(%dst : !pto.tile_buf<...>)

C++ Intrinsic¶

Declared in include/pto/common/pto_instr.hpp:

template <typename TileDataDst, typename TileDataSrc, typename... WaitEvents>
PTO_INST RecordEvent TADDS(TileDataDst &dst, TileDataSrc &src0, typename TileDataSrc::DType scalar, WaitEvents &... events);

Inputs¶

• src is the source tile.
• scalar is the scalar value broadcast to all lanes.
• dst names the destination tile.
• The operation iterates over dst's valid region.

Expected Outputs¶

dst carries the result tile or updated tile payload produced by the operation.

Side Effects¶

No architectural side effects beyond producing the destination tile. Does not implicitly fence unrelated traffic.

Constraints¶

Exceptions¶

Target-Profile Restrictions¶

Target-Profile Restrictions

• Implementation checks (A2A3):

  • TileData::DType must be one of: int32_t, int, int16_t, half, float16_t, float, float32_t.
  • Tile location must be vector (TileData::Loc == TileType::Vec).
  • Static valid bounds: TileData::ValidRow <= TileData::Rows and TileData::ValidCol <= TileData::Cols.
  • Runtime: src0.GetValidRow() == dst.GetValidRow() and src0.GetValidCol() == dst.GetValidCol().
  • Tile layout must be row-major (TileData::isRowMajor).

• Implementation checks (A5):

  • TileData::DType must be one of: uint8_t, int8_t, uint16_t, int16_t, uint32_t, int32_t, half, float, bfloat16_t.
  • Tile location must be vector (TileData::Loc == TileType::Vec).
  • Static valid bounds: TileData::ValidRow <= TileData::Rows and TileData::ValidCol <= TileData::Cols.
  • Runtime: src0.GetValidCol() == dst.GetValidCol().
  • Tile layout must be row-major (TileData::isRowMajor).

Examples¶

Auto¶

#include <pto/pto-inst.hpp>

using namespace pto;

void example_auto() {
  using TileT = Tile<TileType::Vec, float, 16, 16>;
  TileT src, dst;
  TADDS(dst, src, 1.0f);
}

Manual¶

#include <pto/pto-inst.hpp>

using namespace pto;

void example_manual() {
  using TileT = Tile<TileType::Vec, float, 16, 16>;
  TileT src, dst;
  TASSIGN(src, 0x1000);
  TASSIGN(dst, 0x2000);
  TADDS(dst, src, 1.0f);
}

Auto Mode¶

# Auto mode: compiler/runtime-managed placement and scheduling.
%dst = pto.tadds %src, %scalar : (!pto.tile<...>,dtype) -> !pto.tile<...>

Manual Mode¶

# Manual mode: bind resources explicitly before issuing the instruction.
# Optional for tile operands:
# pto.tassign %arg0, @tile(0x1000)
# pto.tassign %arg1, @tile(0x2000)
%dst = pto.tadds %src, %scalar : (!pto.tile<...>,dtype) -> !pto.tile<...>

PTO Assembly Form¶

%dst = tadds %src, %scalar : !pto.tile<...>, f32
# AS Level 2 (DPS)
pto.tadds ins(%src, %scalar : !pto.tile_buf<...>, dtype) outs(%dst : !pto.tile_buf<...>)

Related Ops / Instruction Set Links¶

• Instruction set overview: Tile Scalar And Immediate
• Previous op in instruction set: pto.tmins
• Next op in instruction set: pto.tsubs