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[CK_TILE] Add Various Fusion Functions to RMSNorm (#1802)
* Add shortcut to RMSNorm * Modify test for adding shortcut for RMSNorm * Add fused parameter into tests * 1. Add YDataType. 2. rmsnorm2d_fwd_traits_ from rmsnorm2d_fwd.hpp to rmsnorm2d_fwd_api.cpp and rmsnorm2d_fwd_instance_common.hpp * 1. Supports various stride and percisions. * Add support of Epilogue * Add fuse and epilogue support to rmsnorm ref * Modify rmsnorm example * Refactor tests/examples * Bug fix for newly added tests/examples * Bug fix for new tests 2 * Modify smoke test scripts remove dbg code * Supports non-smooth dyanmic quant * Update Rmsnorm2dFwd::GetName() * rename xscale and prec_sx to smoothscale and prec_sm Bug fix after rename Remove files * change example_rmsnorm2d_fwd.cpp * update performance calculator * Fix issue in two-pass when fuse add is enabled * Remove comment of beta --------- Co-authored-by: rocking <ChunYu.Lai@amd.com>
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ruanjm
@@ -66,15 +66,15 @@ bool run(const ck_tile::ArgParser& arg_parser)
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using TypeConfig = SmoothquantTypeConfig<DataType>;
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using XDataType = typename TypeConfig::XDataType;
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using XScaleDataType = typename TypeConfig::XScaleDataType;
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using YScaleDataType = typename TypeConfig::YScaleDataType;
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using QYDataType = typename TypeConfig::QYDataType;
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using ComputeDataType = typename TypeConfig::ComputeDataType;
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using XDataType = typename TypeConfig::XDataType;
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using SmoothScaleDataType = typename TypeConfig::SmoothScaleDataType;
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using YScaleDataType = typename TypeConfig::YScaleDataType;
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using QYDataType = typename TypeConfig::QYDataType;
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using ComputeDataType = typename TypeConfig::ComputeDataType;
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// host verify
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ck_tile::HostTensor<XDataType> x_host({m, n}, {x_stride, 1});
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ck_tile::HostTensor<XScaleDataType> xscale_host({n});
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ck_tile::HostTensor<SmoothScaleDataType> smscale_host({n});
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ck_tile::HostTensor<YScaleDataType> yscale_host_ref({m}, {1});
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ck_tile::HostTensor<YScaleDataType> yscale_host_dev({m}, {1});
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@@ -83,15 +83,15 @@ bool run(const ck_tile::ArgParser& arg_parser)
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ck_tile::HostTensor<QYDataType> qy_host_dev({m, n}, {y_stride, 1});
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ck_tile::FillUniformDistribution<XDataType>{-.5f, .5f}(x_host);
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ck_tile::FillUniformDistribution<XScaleDataType>{1e-3, .5f}(xscale_host);
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ck_tile::FillUniformDistribution<SmoothScaleDataType>{1e-3, .5f}(smscale_host);
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ck_tile::DeviceMem x_buf(x_host.get_element_space_size_in_bytes());
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ck_tile::DeviceMem xscale_buf(xscale_host.get_element_space_size_in_bytes());
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ck_tile::DeviceMem smscale_buf(smscale_host.get_element_space_size_in_bytes());
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ck_tile::DeviceMem yscale_buf(yscale_host_dev.get_element_space_size_in_bytes());
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ck_tile::DeviceMem qy_buf(qy_host_dev.get_element_space_size_in_bytes());
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x_buf.ToDevice(x_host.data());
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xscale_buf.ToDevice(xscale_host.data());
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smscale_buf.ToDevice(smscale_host.data());
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std::cout << "[" << data_type << "]"
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<< " m:" << m << ", n:" << n << ", x_stride:" << x_stride << ", y_stride:" << y_stride
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@@ -100,7 +100,7 @@ bool run(const ck_tile::ArgParser& arg_parser)
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smoothquant_traits traits{data_type};
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smoothquant_args args{x_buf.GetDeviceBuffer(),
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xscale_buf.GetDeviceBuffer(),
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smscale_buf.GetDeviceBuffer(),
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yscale_buf.GetDeviceBuffer(),
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qy_buf.GetDeviceBuffer(),
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m,
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@@ -111,7 +111,7 @@ bool run(const ck_tile::ArgParser& arg_parser)
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float ave_time = smoothquant(
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traits, args, ck_tile::stream_config{nullptr, true, kname ? 1 : 0, warmup, repeat});
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std::size_t num_byte = sizeof(XDataType) * m * n + sizeof(XScaleDataType) * n +
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std::size_t num_byte = sizeof(XDataType) * m * n + sizeof(SmoothScaleDataType) * n +
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sizeof(YScaleDataType) * m + sizeof(QYDataType) * m * n;
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float gb_per_sec = num_byte / 1.E6 / ave_time;
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@@ -126,16 +126,16 @@ bool run(const ck_tile::ArgParser& arg_parser)
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// smooth outlier
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{
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auto f = [&](auto n_) {
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auto v_xscale = ck_tile::type_convert<ComputeDataType>(xscale_host(n_));
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auto v_smscale = ck_tile::type_convert<ComputeDataType>(smscale_host(n_));
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for(int m_ = 0; m_ < m; ++m_)
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{
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auto v_x = ck_tile::type_convert<ComputeDataType>(x_host(m_, n_));
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y_host(m_, n_) = v_x * v_xscale;
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y_host(m_, n_) = v_x * v_smscale;
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}
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};
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ck_tile::make_ParallelTensorFunctor(f, xscale_host.get_element_space_size())(
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ck_tile::make_ParallelTensorFunctor(f, smscale_host.get_element_space_size())(
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std::thread::hardware_concurrency());
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}
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