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Adding seed and offset pointer support to the philox random number generator. (#1523)

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* Adding seed and offset pointer support to the philox random number generator.

* Separating seed and offset pointer checks with different condition statements.

* Changes include, adding support for device seed and offset pointers, union is used to store seed/offset values and device pointers to minimize device SGPRs.

* Correcting a typo in the readme file

* Re-format files using remod.py

* Use STL type for API parameters

* Use simpler struct design for drop_seed & drop_offset

* Undo unnecessary changes

* Sync kargs style for fmha_fwd.hpp/.cpp

* Use templated union to reduce code

* Use structured binding to make code more readable

---------

Co-authored-by: Sudhir Kylasa <sukylasa@amd.com>
Co-authored-by: Po Yen Chen <PoYen.Chen@amd.com>

[ROCm/composable_kernel commit: c24fae2346]
This commit is contained in:
kylasa
2024-10-04 11:48:47 -07:00
committed by GitHub
parent a1d3ec4b36
commit 347dd2aa7b
7 changed files with 205 additions and 34 deletions
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7
example/ck_tile/01_fmha/README.md
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@@ -70,8 +70,13 @@ args:
-seed random seed used for initializing input tensors. 0 for non-deterministic seed (default:11939)
-warmup number of iterations before benchmark the kernel (default:5)
-repeat number of iterations to benchmark the kernel (default:20)
-drop_seed seed for the random number generator for the dropout layer, default is 1
-drop_offset offset for the dropout layer which is used during random number generation, default is 0
-drop_prefs flag to indicate `drop_seed` and `drop_offset` values if present on the GPU, default is 0, 0 - host, 1 - GPU
```
Example: `./bin/tile_example_fmha_fwd -b=1 -h=16 -s=16384 -d=128` will run a fmha case with batch=1, nhead=16, sequence length=16384, hdim=128, fp16 case.
Example 1: `./bin/tile_example_fmha_fwd -b=1 -h=16 -s=16384 -d=128` will run a fmha case with batch=1, nhead=16, sequence length=16384, hdim=128, fp16 case.
Example 2: `./bin/tile_example_fmha_fwd -b=1 -h=8 -s=16384 -d=64 -drop_prefs=1 -drop_seed=10 -drop_offset=1234` will run a fmha case with
batch=1, nhead=8, sequence length=16384, hdim=64, drop_seed=0 (in GPU memory), drop_offset=1234 (in GPU memory) fp16 case
## support features
Currently we are still in rapid development stage, so more features/optimizations will be coming soon.

23
example/ck_tile/01_fmha/fmha_bwd.cpp
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@@ -85,6 +85,9 @@ auto create_args(int argc, char* argv[])
.insert("p_drop", "0", "0~1 probability of dropout")
.insert("drop_seed", "1", "seed for random number generator")
.insert("drop_offset", "0", "offset for random number generator")
.insert("drop_prefs",
"0",
"seed and offset values are present on GPU; 0 - host, 1 - device/GPU")
.insert("timer", "gpu", "gpu:gpu timer, cpu:cpu timer")
.insert("warmup", "5", "number of iterations before benchmark the kernel")
.insert("repeat", "20", "number of iterations to benchmark the kernel")
@@ -158,6 +161,8 @@ bool run(const ck_tile::ArgParser& arg_parser)
float p_drop = arg_parser.get_float("p_drop");
uint64_t drop_seed = arg_parser.get_uint64("drop_seed");
uint64_t drop_offset = arg_parser.get_uint64("drop_offset");
bool drop_prefs = arg_parser.get_bool("drop_prefs");
if(use_dbias && bias.type != bias_enum::elementwise_bias)
{
std::cerr << "dbias only exists when bias type is elementwise" << std::endl;
@@ -381,6 +386,8 @@ bool run(const ck_tile::ArgParser& arg_parser)
ck_tile::DeviceMem dbias_buf(dbias_host.get_element_space_size_in_bytes());
ck_tile::DeviceMem seqstart_q(seqstart_q_host.size() * sizeof(int32_t));
ck_tile::DeviceMem seqstart_k(seqstart_k_host.size() * sizeof(int32_t));
ck_tile::DeviceMem drop_seed_buf(drop_prefs ? sizeof(uint64_t) : 0);
ck_tile::DeviceMem drop_offset_buf(drop_prefs ? sizeof(uint64_t) : 0);
ck_tile::DeviceMem alibi_slope_buf(alibi_slope_host.get_element_space_size_in_bytes());
ck_tile::DeviceMem dq_acc_buf(dq_acc_host.get_element_space_size_in_bytes());
@@ -391,6 +398,8 @@ bool run(const ck_tile::ArgParser& arg_parser)
do_buf.ToDevice(do_host.data());
seqstart_q.ToDevice(seqstart_q_host.data());
seqstart_k.ToDevice(seqstart_k_host.data());
drop_seed_buf.ToDevice(drop_prefs ? &drop_seed : nullptr);
drop_offset_buf.ToDevice(drop_prefs ? &drop_offset : nullptr);
alibi_slope_buf.ToDevice(alibi_slope_host.data());
// clang-format off
@@ -472,6 +481,18 @@ bool run(const ck_tile::ArgParser& arg_parser)
const ck_tile::index_t split_stride_dq_acc =
(shape_batch * nhead * shape_seqlen_q * hdim_q);
const auto drop_seed_offset = [&]() -> decltype(fmha_bwd_args::drop_seed_offset) {
if(drop_prefs)
{
return std::make_pair(drop_seed_buf.GetDeviceBuffer(),
drop_offset_buf.GetDeviceBuffer());
}
else
{
return std::make_pair(drop_seed, drop_offset);
}
}();
return fmha_bwd_args{q_buf.GetDeviceBuffer(),
k_buf.GetDeviceBuffer(),
v_buf.GetDeviceBuffer(),
@@ -545,7 +566,7 @@ bool run(const ck_tile::ArgParser& arg_parser)
static_cast<ck_tile::index_t>(mask.type),
p_drop,
p_undrop,
{drop_seed, drop_offset}};
drop_seed_offset};
}();
float ave_time = fmha_bwd(fmha_traits, fmha_args, stream_config);

6
example/ck_tile/01_fmha/fmha_bwd.hpp
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@@ -9,7 +9,10 @@
#include "ck_tile/ops/epilogue.hpp"
#include "mask.hpp"
#include "bias.hpp"
#include <type_traits>
#include <utility>
#include <variant>
template <typename DataType>
struct FmhaBwdTypeConfig;
@@ -135,7 +138,8 @@ struct fmha_bwd_args
ck_tile::index_t mask_type;
float p_drop;
float p_undrop;
std::tuple<uint64_t, uint64_t> drop_seed_offset;
std::variant<std::pair<uint64_t, uint64_t>, std::pair<const void*, const void*>>
drop_seed_offset;
};
template <typename FmhaBwdDQDKDVKernel>

23
example/ck_tile/01_fmha/fmha_fwd.cpp
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@@ -122,6 +122,9 @@ auto create_args(int argc, char* argv[])
.insert("p_drop", "0", "0~1 probability of dropout")
.insert("drop_seed", "1", "seed for random number generator")
.insert("drop_offset", "0", "offset for random number generator")
.insert("drop_prefs",
"0",
"seed and offset values are present on GPU; 0 - host, 1 - device/GPU")
.insert("timer", "gpu", "gpu:gpu timer, cpu:cpu timer")
.insert(
"rotary_dim", "0", "RoPE rotary dimension. rotary_dim <= 0 means not apply RoPE at all")
@@ -442,6 +445,8 @@ bool run(const ck_tile::ArgParser& arg_parser)
float p_drop = arg_parser.get_float("p_drop");
uint64_t drop_seed = arg_parser.get_uint64("drop_seed");
uint64_t drop_offset = arg_parser.get_uint64("drop_offset");
bool drop_prefs = arg_parser.get_bool("drop_prefs");
if(p_drop < 0.0f || p_drop > 1.0f)
{
std::cerr << "The value of p_drop should be 0~1" << std::endl;
@@ -756,6 +761,8 @@ bool run(const ck_tile::ArgParser& arg_parser)
need_append_kvcache ? cache_seqlen_ks.size() * sizeof(int32_t) : 0);
ck_tile::DeviceMem rotary_cos_buf(rotary_cos_host.get_element_space_size_in_bytes());
ck_tile::DeviceMem rotary_sin_buf(rotary_sin_host.get_element_space_size_in_bytes());
ck_tile::DeviceMem drop_seed_buf(drop_prefs ? sizeof(uint64_t) : 0);
ck_tile::DeviceMem drop_offset_buf(drop_prefs ? sizeof(uint64_t) : 0);
ck_tile::DeviceMem randval_buf(randval_host.get_element_space_size_in_bytes());
ck_tile::DeviceMem alibi_slope_buf(alibi_slope_host.get_element_space_size_in_bytes());
ck_tile::DeviceMem block_table_buf(block_table_host.get_element_space_size_in_bytes());
@@ -774,6 +781,8 @@ bool run(const ck_tile::ArgParser& arg_parser)
cache_seqlen_k_buf.ToDevice(need_append_kvcache ? cache_seqlen_ks.data() : nullptr);
rotary_cos_buf.ToDevice(rotary_cos_host.data());
rotary_sin_buf.ToDevice(rotary_sin_host.data());
drop_seed_buf.ToDevice(drop_prefs ? &drop_seed : nullptr);
drop_offset_buf.ToDevice(drop_prefs ? &drop_offset : nullptr);
alibi_slope_buf.ToDevice(alibi_slope_host.data());
block_table_buf.ToDevice(block_table_host.data());
cache_batch_idx_buf.ToDevice(cache_batch_idx_host.data());
@@ -1013,9 +1022,17 @@ bool run(const ck_tile::ArgParser& arg_parser)
args.nhead_stride_randval = nhead_stride_randval;
args.batch_stride_randval = batch_stride_randval;
args.p_drop = p_drop;
args.s_randval = s_randval;
args.drop_seed_offset = std::tie(drop_seed, drop_offset);
args.p_drop = p_drop;
args.s_randval = s_randval;
if(drop_prefs)
{
args.drop_seed_offset = std::make_pair(drop_seed_buf.GetDeviceBuffer(),
drop_offset_buf.GetDeviceBuffer());
}
else
{
args.drop_seed_offset = std::make_pair(drop_seed, drop_offset);
}
}
else if constexpr(std::is_same_v<fmha_fwd_splitkv_args, std::decay_t<decltype(args)>>)
{

6
example/ck_tile/01_fmha/fmha_fwd.hpp
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@@ -13,6 +13,8 @@
#include "rotary.hpp"
#include <type_traits>
#include <utility>
#include <variant>
template <typename DataType>
struct FmhaFwdTypeConfig;
@@ -144,7 +146,9 @@ struct fmha_fwd_args
float p_drop;
bool s_randval;
std::tuple<uint64_t, uint64_t> drop_seed_offset;
std::variant<std::pair<uint64_t, uint64_t>, std::pair<const void*, const void*>>
drop_seed_offset;
};
struct fmha_fwd_splitkv_args