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Add support for index u8/i64 and input f16/bf16 scatter-add on metal (#1849)

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* add support and tests for scatter add on metal

* add support for all datatypes
This commit is contained in:
Thomas Santerre
2024-03-17 03:09:43 -04:00
committed by GitHub
parent 74bf6994b1
commit db8b24ae92
3 changed files with 123 additions and 2 deletions
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8
candle-core/src/metal_backend.rs
View File

@ -1128,7 +1128,15 @@ impl BackendStorage for MetalStorage {
None => Err(crate::Error::RequiresContiguous { op: "scatter-add" }.bt())?,
};
let name = match (ids.dtype, self.dtype) {
(DType::U8, DType::F32) => "sa_u8_f32",
(DType::U8, DType::F16) => "sa_u8_f16",
(DType::U8, DType::BF16) => "sa_u8_bf16",
(DType::U32, DType::F32) => "sa_u32_f32",
(DType::U32, DType::F16) => "sa_u32_f16",
(DType::U32, DType::BF16) => "sa_u32_bf16",
(DType::I64, DType::F32) => "sa_i64_f32",
(DType::I64, DType::F16) => "sa_i64_f16",
(DType::I64, DType::BF16) => "sa_i64_bf16",
_ => Err(MetalError::UnexpectedDType {
msg: "scatter-add ids should be u8/u32/i64",
expected: DType::U32,

13
candle-metal-kernels/src/indexing.metal
View File

@ -167,11 +167,16 @@ kernel void NAME( \
INDEX_OP(is_u32_f32, uint, float)
INDEX_OP(is_u32_f16, uint, half)
GATHER_OP(gather_u32_f32, uint, float)
GATHER_OP(gather_u32_f16, uint, half)
SCATTER_ADD_OP(sa_u32_f32, uint, float)
SCATTER_ADD_OP(sa_u32_f16, uint, half)
SCATTER_ADD_OP(sa_u32_f32, uint32_t, float)
SCATTER_ADD_OP(sa_u8_f32, uint8_t, float)
SCATTER_ADD_OP(sa_i64_f32, int64_t, float)
SCATTER_ADD_OP(sa_u32_f16, uint32_t, half)
SCATTER_ADD_OP(sa_u8_f16, uint8_t, half)
SCATTER_ADD_OP(sa_i64_f16, int64_t, half)
#if defined(__HAVE_BFLOAT__)
INDEX_OP(is_u32_bf16, uint32_t, bfloat)
@ -180,6 +185,10 @@ INDEX_OP(is_u8_bf16, uint8_t, bfloat)
INDEX_ADD_OP(ia_i64_bf16, int64_t, bfloat)
INDEX_ADD_OP(ia_u32_bf16, uint32_t, bfloat)
INDEX_ADD_OP(ia_u8_bf16, uint8_t, bfloat)
SCATTER_ADD_OP(sa_u32_bf16, uint32_t, bfloat)
SCATTER_ADD_OP(sa_u8_bf16, uint8_t, bfloat)
SCATTER_ADD_OP(sa_i64_bf16, int64_t, bfloat)
#endif
INDEX_ADD_OP(ia_u32_f16, uint32_t, half)

104
candle-metal-kernels/src/tests.rs
View File

@ -1066,3 +1066,107 @@ fn random() {
validate_random!(f16);
validate_random!(bf16);
}
fn run_scatter_add<T: Clone, I: Clone + std::fmt::Debug>(
input: &[T],
ids: &[I],
shape: &[usize],
dim: usize,
name: &'static str,
) -> Vec<T> {
let device = device();
let kernels = Kernels::new();
let command_queue = device.new_command_queue();
let command_buffer = command_queue.new_command_buffer();
let options = MTLResourceOptions::StorageModeManaged;
let input_buffer = new_buffer(&device, input);
let ids_buffer = new_buffer(&device, ids);
let output = device.new_buffer(std::mem::size_of_val(input) as u64, options);
call_scatter_add(
&device,
command_buffer,
&kernels,
name,
shape,
shape,
dim,
&input_buffer,
0,
&ids_buffer,
0,
&output,
)
.unwrap();
command_buffer.commit();
command_buffer.wait_until_completed();
read_to_vec(&output, input.len())
}
#[test]
fn scatter_add() {
let ids_u8 = [0u8, 0, 1, 0, 2, 2, 3, 3];
let ids_u32 = [0u32, 0, 1, 0, 2, 2, 3, 3];
let ids_i64 = [0i64, 0, 1, 0, 2, 2, 3, 3];
let input_f32 = [5.0f32, 1.0, 7.0, 2.0, 3.0, 2.0, 1.0, 3.0];
let input_f16 = input_f32
.iter()
.map(|v| f16::from_f32(*v))
.collect::<Vec<_>>();
let input_bf16 = input_f32
.iter()
.map(|v| bf16::from_f32(*v))
.collect::<Vec<_>>();
let output_dim1_f32 = vec![8.0, 7.0, 5.0, 4.0, 0.0, 0.0, 0.0, 0.0];
let output_dim1_f16 = output_dim1_f32
.iter()
.map(|v| f16::from_f32(*v))
.collect::<Vec<_>>();
let output_dim1_bf16 = output_dim1_f32
.iter()
.map(|v| bf16::from_f32(*v))
.collect::<Vec<_>>();
let output_dim2_f32 = vec![5.0, 3.0, 7.0, 0.0, 3.0, 2.0, 1.0, 3.0];
let output_dim2_f16 = output_dim2_f32
.iter()
.map(|v| f16::from_f32(*v))
.collect::<Vec<_>>();
let output_dim2_bf16 = output_dim2_f32
.iter()
.map(|v| bf16::from_f32(*v))
.collect::<Vec<_>>();
for (shape, output_f32, output_f16, output_bf16) in [
(vec![8], output_dim1_f32, output_dim1_f16, output_dim1_bf16),
(
vec![4, 2],
output_dim2_f32,
output_dim2_f16,
output_dim2_bf16,
),
] {
for results in [
run_scatter_add(&input_f32, &ids_u8, &shape, 0, "sa_u8_f32"),
run_scatter_add(&input_f32, &ids_u32, &shape, 0, "sa_u32_f32"),
run_scatter_add(&input_f32, &ids_i64, &shape, 0, "sa_i64_f32"),
] {
assert_eq!(results, output_f32);
}
for results in [
run_scatter_add(&input_f16, &ids_u8, &shape, 0, "sa_u8_f16"),
run_scatter_add(&input_f16, &ids_u32, &shape, 0, "sa_u32_f16"),
run_scatter_add(&input_f16, &ids_i64, &shape, 0, "sa_i64_f16"),
] {
assert_eq!(results, output_f16);
}
for results in [
run_scatter_add(&input_bf16, &ids_u8, &shape, 0, "sa_u8_bf16"),
run_scatter_add(&input_bf16, &ids_u32, &shape, 0, "sa_u32_bf16"),
run_scatter_add(&input_bf16, &ids_i64, &shape, 0, "sa_i64_bf16"),
] {
assert_eq!(results, output_bf16);
}
}
}