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ADD: batch norm operator and cuda kernel. (#44) 

fix numInputs of batchNorm, add new line in file ending.

ADD: batch norm operator and cuda kernel.

add training

remove comments.

fix compile error.

add batch norm operator and cuda kernel.
This commit is contained in:
wendy12022 2022-10-15 16:29:28 +08:00 committed by GitHub
parent 1152adc94a
commit a4d6426589
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GPG Key ID: 4AEE18F83AFDEB23
74 changed files with 362 additions and 122 deletions
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2
include/cuda/cuda_common.h
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@ -121,4 +121,4 @@ inline const char *curandGetErrorString(curandStatus_t error) {
using CudaPtr = void *;
} // namespace infini
} // namespace infini

2
include/cuda/cuda_element_wise.h
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@ -3,4 +3,4 @@
namespace infini {
void div_kernel(float *a, float *b, float *c, int num);
void pow_kernel(float *a, float *b, float *c, int num);
}; // namespace infini
}; // namespace infini

2
include/cuda/cuda_kernel_wihtout_config.h
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@ -21,4 +21,4 @@ class CudaKernelWithoutConfig : public Kernel {
}
};
} // namespace infini
} // namespace infini

2
include/cuda/cuda_pad_slice.h
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@ -16,4 +16,4 @@ namespace infini {
void pad_slice_kernel(float *partData, float *wholeData,
const TransMetaData &metadata, int nDims, int num,
bool isPad);
} // namespace infini
} // namespace infini

2
include/cuda/cuda_runtime.h
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@ -74,4 +74,4 @@ class CudaRuntimeObj : public RuntimeObj {
private:
void tune(const Graph &graph, bool profiling) const;
};
} // namespace infini
} // namespace infini

2
include/cuda/cuda_split_concat.h
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@ -32,4 +32,4 @@ void split_concat_kernel(const ElementTensorMetadata &eleMeta,
const ComposedTensorMetadata &compMeta, int dim,
int batchSize, int nDims, bool isSplit);
} // namespace infini
} // namespace infini

2
include/cuda/gather.h
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@ -14,4 +14,4 @@ typedef struct {
namespace infini {
void gather_kernel(float *in, float *out, GatherMetaData metaData, int num);
}
}

2
include/cuda/operator_timer.h
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@ -13,4 +13,4 @@ double getPerfConvTransposed2dCudnn(int n, int c, int h, int w, int f, int r,
double getPerfMatmulCublas(int b, int m, int n, int k, const char *name);
} // namespace opTimer
} // namespace infini
} // namespace infini

2
include/operators/G2BMM.h
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@ -48,4 +48,4 @@ class G2BMMObj : public OperatorObj {
vector<int> getOpAttrVector() const override;
};
} // namespace infini
} // namespace infini

2
include/operators/GBMM.h
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@ -46,4 +46,4 @@ class GBMMObj : public OperatorObj {
vector<int> getOpAttrVector() const override;
};
} // namespace infini
} // namespace infini

28
include/operators/batch_norm.h Normal file
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@ -0,0 +1,28 @@
#pragma once
#include "core/operator.h"
namespace infini {
class BatchNormObj : public OperatorObj {
float momentum, eps;
bool training;
public:
BatchNormObj(GraphObj *graph, Tensor input, Tensor output, Tensor mean,
Tensor var, Tensor scale, Tensor bias, float momentum = 0.9,
float eps = 1e-5, bool training = false);
optional<vector<Shape>> inferShape(const TensorVec &inputs) const override;
std::string toString() const override;
// output size will be 3 when training
int numInputs() const override { return 5; }
int numOutputs() const override { return outputs.size(); }
float getEps() const { return eps; }
private:
vector<int> getWorkloadVector() const override;
vector<int> getOpAttrVector() const override;
vector<DataType> inferDataType(const TensorVec &inputs) const override;
};
} // namespace infini

2
include/operators/concat.h
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@ -19,4 +19,4 @@ class ConcatObj : public OperatorObj {
vector<int> getWorkloadVector() const override;
vector<int> getOpAttrVector() const override;
};
} // namespace infini
} // namespace infini

2
include/operators/element_wise.h
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@ -30,4 +30,4 @@ DEFINE_ELEMENT_WISE_OBJ(Sub, OpType::Sub)
DEFINE_ELEMENT_WISE_OBJ(Mul, OpType::Mul)
DEFINE_ELEMENT_WISE_OBJ(Div, OpType::Div)
DEFINE_ELEMENT_WISE_OBJ(Pow, OpType::Pow)
}; // namespace infini
}; // namespace infini

2
include/operators/extend.h
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@ -20,4 +20,4 @@ class ExtendObj : public OperatorObj {
vector<int> getWorkloadVector() const override;
vector<int> getOpAttrVector() const override;
};
} // namespace infini
} // namespace infini

2
include/operators/gather.h
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@ -21,4 +21,4 @@ class GatherObj : public OperatorObj {
vector<int> getWorkloadVector() const override;
vector<int> getOpAttrVector() const override;
};
} // namespace infini
} // namespace infini

2
include/operators/pad.h
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@ -21,4 +21,4 @@ class PadObj : public OperatorObj {
vector<int> getWorkloadVector() const override;
vector<int> getOpAttrVector() const override;
};
} // namespace infini
} // namespace infini

2
include/operators/pooling.h
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@ -51,4 +51,4 @@ class AvgPoolObj : public PoolingObj {
: PoolingObj(graph, OpType::AvgPool, input, output, kh, kw, dh, dw, ph,
pw, sh, sw) {}
};
}; // namespace infini
}; // namespace infini

10
include/utils/data_generator.h
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@ -38,14 +38,14 @@ class IncrementalGenerator : public DataGenerator {
void fill(float *data, size_t size) override { fill<float>(data, size); }
};
class OneGenerator : public DataGenerator {
template <int val> class ValGenerator : public DataGenerator {
public:
virtual ~OneGenerator() {}
virtual ~ValGenerator() {}
private:
template <typename T> void fill(T *data, size_t size) {
for (size_t i = 0; i < size; i++) {
data[i] = 1;
data[i] = val;
}
}
@ -54,4 +54,6 @@ class OneGenerator : public DataGenerator {
}
void fill(float *data, size_t size) override { fill<float>(data, size); }
};
} // namespace infini
typedef ValGenerator<1> OneGenerator;
typedef ValGenerator<0> ZeroGenerator;
} // namespace infini

2
src/kernels/cuda/GBMM.cc
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@ -58,4 +58,4 @@ class GBMMCudnn : public CudaKernelWithoutConfig {
REGISTER_KERNEL(Device::CUDA, OpType::GBMM, DataType::Float32, GBMMCudnn,
"GBMM_cuDNN_CUDA_Float32");
} // namespace infini
} // namespace infini

64
src/kernels/cuda/batch_norm.cc Normal file
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@ -0,0 +1,64 @@
#include "operators/batch_norm.h"
#include "core/kernel.h"
#include "cuda/cuda_kernel_wihtout_config.h"
#include "cuda/cuda_runtime.h"
namespace infini {
class BatchNormCudnn : public CudaKernelWithoutConfig {
void compute(const Operator &_op,
const RuntimeObj *_context) const override {
auto op = as<BatchNormObj>(_op);
auto context = dynamic_cast<const CudaRuntimeObj *>(_context);
cudnnStatus_t stat;
void *const inData = (op->getInputs(0)->getRawDataPtr<void *>());
void *const outData = (op->getOutput()->getRawDataPtr<void *>());
void *const meanData = (op->getInputs(1)->getRawDataPtr<void *>());
void *const varData = (op->getInputs(2)->getRawDataPtr<void *>());
void *const scaleData = (op->getInputs(3)->getRawDataPtr<void *>());
void *const biasData = (op->getInputs(4)->getRawDataPtr<void *>());
auto dims = op->getInputs(0)->getDims();
if (dims.size() == 2)
IT_TODO_HALT();
// Only 4D and 5D tensors are supported by
// cudnnBatchNormalizationForwardInference
IT_ASSERT(dims.size() == 4 || dims.size() == 5);
int dimArray[CUDNN_DIM_MAX], strideArray[CUDNN_DIM_MAX],
dimPArray[CUDNN_DIM_MAX], stridePArray[CUDNN_DIM_MAX];
for (size_t i = 0; i < dims.size(); ++i) {
dimArray[i] = dims[i];
strideArray[i] = op->getInputs(0)->getStride()[i];
dimPArray[i] = op->getInputs(1)->getDims()[i];
stridePArray[i] = op->getInputs(1)->getStride()[i];
}
// get inputs
cudnnTensorDescriptor_t inDesc;
checkCudnnError(cudnnCreateTensorDescriptor(&inDesc));
checkCudnnError(cudnnSetTensorNdDescriptor(
inDesc, CUDNN_DATA_FLOAT, dims.size(), dimArray, strideArray));
// get bnScaleBiasMeanVarDesc
cudnnTensorDescriptor_t paraDesc;
checkCudnnError(cudnnCreateTensorDescriptor(&paraDesc));
checkCudnnError(cudnnSetTensorNdDescriptor(
paraDesc, CUDNN_DATA_FLOAT, dims.size(), dimPArray, stridePArray));
float alpha = 1.f, beta = 0.f;
// This mode is intended for use after convolutional layers
stat = cudnnBatchNormalizationForwardInference(
context->cudnnHandle(), CUDNN_BATCHNORM_SPATIAL, &alpha, &beta,
inDesc, inData, inDesc, outData, paraDesc, scaleData, biasData,
meanData, varData, op->getEps());
if (stat != CUDNN_STATUS_SUCCESS)
return;
// Destories in CUDA does not require sync. But cuDNN does not state
// whether sync is required before destories.
checkCudnnError(cudnnDestroyTensorDescriptor(inDesc));
checkCudnnError(cudnnDestroyTensorDescriptor(paraDesc));
}
};
REGISTER_KERNEL(Device::CUDA, OpType::BatchNorm, DataType::Float32,
BatchNormCudnn, "BatchNorm_cuDNN_CUDA_Float32");
} // namespace infini

2
src/kernels/cuda/conv.cc
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@ -294,4 +294,4 @@ REGISTER_KERNEL(Device::CUDA, OpType::Conv, DataType::Float32, convCudnn,
"Conv_cuDNN_CUDA_Float32");
REGISTER_CONSTRUCTOR(1, ConvCuDnnPerfRecordObj::from_json);
} // namespace infini
} // namespace infini

2
src/kernels/cuda/conv_transposed.cc
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@ -285,4 +285,4 @@ class convBackwardDataCudnn : public Kernel {
REGISTER_KERNEL(Device::CUDA, OpType::ConvTrans, DataType::Float32,
convBackwardDataCudnn, "ConvTranposed_cuDNN_CUDA_Float32");
} // namespace infini
} // namespace infini

2
src/kernels/cuda/element_wise.cc
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@ -105,4 +105,4 @@ REGISTER_KERNEL(Device::CUDA, OpType::Div, DataType::Float32, ElementWiseCuda,
"Div_CUDA_Float32");
REGISTER_KERNEL(Device::CUDA, OpType::Pow, DataType::Float32, ElementWiseCuda,
"Pow__CUDA_Float32");
}; // namespace infini
}; // namespace infini

2
src/kernels/cuda/element_wise.cu
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@ -35,4 +35,4 @@ void pow_kernel(float *a, float *b, float *c, int num) {
_pow_kernel<<<blocksize, gridsize>>>(a, b, c, num);
}
}; // namespace infini
}; // namespace infini

2
src/kernels/cuda/extend.cu
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@ -22,4 +22,4 @@ void extend_kernel(float *in, float *out, int blockSize, int blockSizeOuter,
_extend_kernel<<<blocksize, gridsize>>>(in, out, blockSize, blockSizeOuter,
oSize);
}
} // namespace infini
} // namespace infini

46
src/kernels/cuda/gather.cc
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@ -4,30 +4,30 @@
#include "cuda/gather.h"
namespace infini {
void initGatherMetaData(GatherMetaData &metaData, const Operator &_op) {
memset(&metaData, 0, sizeof(metaData));
auto op = as<GatherObj>(_op);
auto in = op->getInputs(0);
auto index = op->getInputs(1);
auto out = op->getOutput();
metaData.indexValue = index->getRawDataPtr<int *>();
metaData.axis = op->getAxis();
metaData.inNDim = in->getDims().size();
metaData.outNDim = out->getDims().size();
metaData.idxNDim = index->getDims().size();
for (int i = 0; i < metaData.outNDim; ++i)
metaData.outDim[i] = out->getDims()[i];
for (int i = 0; i < metaData.idxNDim; ++i) {
metaData.idxDim[i] = index->getDims()[i];
metaData.idxStride[i] = index->getStride()[i];
}
for (int i = 0; i < metaData.inNDim; ++i) {
metaData.inStride[i] = in->getStride()[i];
}
}
class GatherCuda : public CudaKernelWithoutConfig {
void initGatherMetaData(GatherMetaData &metaData,
const Operator &_op) const {
memset(&metaData, 0, sizeof(metaData));
auto op = as<GatherObj>(_op);
auto in = op->getInputs(0);
auto index = op->getInputs(1);
auto out = op->getOutput();
metaData.indexValue = index->getRawDataPtr<int *>();
metaData.axis = op->getAxis();
metaData.inNDim = in->getDims().size();
metaData.outNDim = out->getDims().size();
metaData.idxNDim = index->getDims().size();
for (int i = 0; i < metaData.outNDim; ++i)
metaData.outDim[i] = out->getDims()[i];
for (int i = 0; i < metaData.idxNDim; ++i) {
metaData.idxDim[i] = index->getDims()[i];
metaData.idxStride[i] = index->getStride()[i];
}
for (int i = 0; i < metaData.inNDim; ++i) {
metaData.inStride[i] = in->getStride()[i];
}
}
void compute(const Operator &op,
const RuntimeObj *_context) const override {

2
src/kernels/cuda/gather.cu
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@ -44,4 +44,4 @@ void gather_kernel(float *in, float *out, GatherMetaData metaData, int num) {
_gather_kernel<<<gridSize, blockSize>>>(in, out, metaData, num);
}
} // namespace infini
} // namespace infini

1
src/kernels/cuda/gbmm_g2bmm.cu
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@ -14,4 +14,3 @@ void _sgbmml(float *__restrict__ q, float *__restrict__ k,
}
} // namespace infini

2
src/kernels/cuda/matmul.cc
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@ -102,4 +102,4 @@ REGISTER_KERNEL(Device::CUDA, OpType::Matmul, DataType::Float32, matmulCublas,
"Matmul_cuBLAS_CUDA_Float32");
REGISTER_CONSTRUCTOR(2, MatmulCublasPerfRecordObj::from_json);
}; // namespace infini
}; // namespace infini

2
src/kernels/cuda/membound_TVM.cc
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@ -188,4 +188,4 @@ class MemboundTVM : public Kernel {
REGISTER_KERNEL(Device::CUDA, OpType::MemBound, DataType::Float32, MemboundTVM,
"Memobund_TVM_Ansor");
}; // namespace infini
}; // namespace infini

2
src/kernels/cuda/pooling.cc
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@ -72,4 +72,4 @@ REGISTER_KERNEL(Device::CUDA, OpType::MaxPool, DataType::Float32, maxPoolCudnn,
"MaxPool_cuDNN_CUDA_Float32");
REGISTER_KERNEL(Device::CUDA, OpType::AvgPool, DataType::Float32, avgPoolCudnn,
"AvgPool_cuDNN_CUDA_Float32");
}; // namespace infini
}; // namespace infini

2
src/kernels/cuda/reshape.cc
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@ -18,4 +18,4 @@ REGISTER_KERNEL(Device::CUDA, OpType::Flatten, DataType::Float32, CopyCuda,
REGISTER_KERNEL(Device::CUDA, OpType::Identity, DataType::Float32, CopyCuda,
"Identity_CUDA_Float32");
} // namespace infini
} // namespace infini

58
src/kernels/cuda/split_concat.cc
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@ -6,35 +6,35 @@
namespace infini {
void initComposedTensorMetadata(ComposedTensorMetadata &metadata,
Tensor tensor) {
int nDims = tensor->getDims().size();
auto strides = tensor->getStride();
IT_ASSERT(strides.size() == (size_t)nDims);
for (int i = 0; i < nDims; ++i) {
metadata.dimSize[i] = tensor->getDims().at(i);
metadata.stride[i] = strides.at(i);
}
metadata.data = tensor->getRawDataPtr<float *>();
}
void initElementTensorMetadata(ElementTensorMetadata &metadata,
TensorVec tensors, int idx, int dim,
int &dimBgIdx, int &batchCounter) {
int nTensors = tensors.size();
for (; batchCounter < BATCH_SIZE && idx + batchCounter < nTensors;
++batchCounter) {
auto tensor = tensors.at(idx + batchCounter);
auto dimSize = tensor->getDims()[dim];
metadata.data[batchCounter] = tensor->getRawDataPtr<float *>();
metadata.dimBgNo[batchCounter] = dimBgIdx;
metadata.dimSize[batchCounter] = dimSize;
metadata.nElements[batchCounter] = tensor->size();
dimBgIdx += dimSize;
}
}
class CudaCompute {
void initComposedTensorMetadata(ComposedTensorMetadata &metadata,
Tensor tensor) const {
int nDims = tensor->getDims().size();
auto strides = tensor->getStride();
IT_ASSERT(strides.size() == (size_t)nDims);
for (int i = 0; i < nDims; ++i) {
metadata.dimSize[i] = tensor->getDims().at(i);
metadata.stride[i] = strides.at(i);
}
metadata.data = tensor->getRawDataPtr<float *>();
}
void initElementTensorMetadata(ElementTensorMetadata &metadata,
TensorVec tensors, int idx, int dim,
int &dimBgIdx, int &batchCounter) const {
int nTensors = tensors.size();
for (; batchCounter < BATCH_SIZE && idx + batchCounter < nTensors;
++batchCounter) {
auto tensor = tensors.at(idx + batchCounter);
auto dimSize = tensor->getDims()[dim];
metadata.data[batchCounter] = tensor->getRawDataPtr<float *>();
metadata.dimBgNo[batchCounter] = dimBgIdx;
metadata.dimSize[batchCounter] = dimSize;
metadata.nElements[batchCounter] = tensor->size();
dimBgIdx += dimSize;
}
}
public:
void do_compute(Tensor composedTensor, TensorVec elementsTensor, int dim,
int nDims, bool isSplit) const {
@ -78,4 +78,4 @@ REGISTER_KERNEL(Device::CUDA, OpType::Concat, DataType::Float32, ConcatCuda,
"Concat_CUDA_Float32");
REGISTER_KERNEL(Device::CUDA, OpType::Split, DataType::Float32, SplitCuda,
"Split_CUDA_Float32");
} // namespace infini
} // namespace infini

2
src/kernels/cuda/split_concat.cu
View File

@ -68,4 +68,4 @@ void split_concat_kernel(const ElementTensorMetadata &eleMeta,
isSplit);
}
} // namespace infini
} // namespace infini

2
src/operators/G2BMM.cc
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@ -46,4 +46,4 @@ vector<int> G2BMMObj::getOpAttrVector() const {
return {enum_to_underlying(type), width, dilation, enum_to_underlying(act)};
}
} // namespace infini
} // namespace infini

72
src/operators/batch_norm.cc Normal file
View File

@ -0,0 +1,72 @@
#include "operators/batch_norm.h"
namespace infini {
BatchNormObj::BatchNormObj(GraphObj *graph, Tensor input, Tensor output,
Tensor mean, Tensor var, Tensor scale, Tensor bias,
float momentum, float eps, bool training)
: OperatorObj(OpType::BatchNorm, {input, mean, var, scale, bias}, {output}),
momentum(momentum), eps(eps), training(training) {
if (training)
IT_TODO_HALT();
IT_ASSERT(checkValid(graph));
}
optional<vector<Shape>>
BatchNormObj::inferShape(const TensorVec &inputs) const {
auto input = inputs[0];
auto mean = inputs[1];
auto var = inputs[2];
auto scale = inputs[3];
auto bias = inputs[4];
if (input->getDims().size() < 2)
return {};
Shape dims(input->getDims().size(), 1);
dims[1] = input->getDims()[1]; //
if (mean->getDims() != dims || var->getDims() != dims ||
scale->getDims() != dims || bias->getDims() != dims)
return {};
return {{input->getDims()}};
}
vector<DataType> BatchNormObj::inferDataType(const TensorVec &inputs) const {
IT_ASSERT(inputs.size() == 5);
auto index = inputs[1];
IT_ASSERT(inputs[1]->getDType() == DataType::Float32);
IT_ASSERT(inputs[2]->getDType() == DataType::Float32);
IT_ASSERT(inputs[3]->getDType() == DataType::Float32);
IT_ASSERT(inputs[4]->getDType() == DataType::Float32);
return {inputs[0]->getDType()};
}
std::string BatchNormObj::toString() const {
std::ostringstream os;
os << "BatchNorm[" << getGuid() << "]";
os << "(";
os << vecToString(inputs[0]->getDims()) << ",";
os << "momentum=" << momentum << ",";
os << "eps=" << eps << ",";
os << "input=" << inputs[0]->getGuid() << ",";
os << "mean=" << inputs[1]->getGuid() << ",";
os << "var=" << inputs[2]->getGuid() << ",";
os << "scale=" << inputs[3]->getGuid() << ",";
os << "bias=" << inputs[4]->getGuid() << ",";
os << "output=";
for (auto output : outputs)
os << output->getGuid() << ",";
return os.str();
}
// need eps and momentum?
vector<int> BatchNormObj::getWorkloadVector() const {
vector<int> ret = inputs[0]->getDims();
ret.emplace(ret.begin(), enum_to_underlying(type));
return ret;
}
// need eps and momentum?
vector<int> BatchNormObj::getOpAttrVector() const {
return {enum_to_underlying(type)};
}
} // namespace infini

2
src/operators/concat.cc
View File

@ -55,4 +55,4 @@ vector<int> ConcatObj::getOpAttrVector() const {
return {enum_to_underlying(type), dim};
}
} // namespace infini
} // namespace infini

2
src/operators/conv.cc
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@ -180,4 +180,4 @@ void ConvTransposed2dObj::setAuxilaryAttributes(PaddingMode mode) {
}
}
} // namespace infini
} // namespace infini

2
src/operators/element_wise.cc
View File

@ -54,4 +54,4 @@ vector<int> ElementWiseObj::getOpAttrVector() const {
return {enum_to_underlying(type)};
}
}; // namespace infini
}; // namespace infini

2
src/operators/extend.cc
View File

@ -38,4 +38,4 @@ vector<int> ExtendObj::getOpAttrVector() const {
return {enum_to_underlying(type), dim, num};
}
} // namespace infini
} // namespace infini

2
src/operators/gather.cc
View File

@ -82,4 +82,4 @@ vector<int> GatherObj::getOpAttrVector() const {
return {enum_to_underlying(type), axis};
}
} // namespace infini
} // namespace infini

2
src/operators/matmul.cc
View File

@ -46,4 +46,4 @@ vector<int> MatmulObj::getOpAttrVector() const {
return {enum_to_underlying(type), transA, transB, enum_to_underlying(act)};
}
} // namespace infini
} // namespace infini

2
src/operators/membound.cc
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@ -56,4 +56,4 @@ HashType MemBoundObj::getHash() const {
return nnet::HashVisitor().dispatch(expr);
}
} // namespace infini
} // namespace infini

2
src/operators/pooling.cc
View File

@ -49,4 +49,4 @@ vector<int> PoolingObj::getOpAttrVector() const {
return {enum_to_underlying(type), kh, kw, ph, pw, sh, sw, dh, dw};
}
}; // namespace infini
}; // namespace infini

2
src/operators/reshape.cc
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@ -101,4 +101,4 @@ vector<int> IdentityObj::getWorkloadVector() const {
vector<int> IdentityObj::getOpAttrVector() const {
return {enum_to_underlying(type)};
}
} // namespace infini
} // namespace infini

2
src/operators/split.cc
View File

@ -86,4 +86,4 @@ string SplitObj::toString() const {
return os.str();
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_GBMM.cc
View File

@ -34,4 +34,4 @@ TEST(CUDA_GBMM, ShapeInference) {
cudaRuntime->run(gCuda);
}
} // namespace infini
} // namespace infini

54
test/kernels/cuda/test_cuda_batch_norm.cc Normal file
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@ -0,0 +1,54 @@
#include "core/graph.h"
#include "core/runtime.h"
#include "cuda/cuda_runtime.h"
#include "cuda/cuda_utility.h"
#include "operators/batch_norm.h"
#include "test.h"
namespace infini {
TEST(CUDA_BatchNorm, run) {
Runtime cpuRuntime = CpuRuntimeObj::getInstance();
auto cudaRuntime = make_ref<CudaRuntimeObj>();
// Build cpu graph
Graph gCpu = make_ref<GraphObj>(cpuRuntime);
auto iCpu = gCpu->addTensor(Shape{1, 3, 2, 2}, DataType::Float32);
auto meanCpu = gCpu->addTensor(Shape{1, 3, 1, 1}, DataType::Float32);
auto varCpu = gCpu->addTensor(Shape{1, 3, 1, 1}, DataType::Float32);
auto scaleCpu = gCpu->addTensor(Shape{1, 3, 1, 1}, DataType::Float32);
auto biasCpu = gCpu->addTensor(Shape{1, 3, 1, 1}, DataType::Float32);
// Build input data on CPU
gCpu->dataMalloc();
iCpu->setData(IncrementalGenerator());
meanCpu->copyData(vector<float>{1, 6, 9});
varCpu->copyData(vector<float>{4, 1, 9});
scaleCpu->setData(OneGenerator());
biasCpu->setData(ZeroGenerator());
// Build CUDA graph
Graph g = make_ref<GraphObj>(cudaRuntime);
auto i = g->cloneTensor(iCpu);
auto mean = g->cloneTensor(meanCpu);
auto var = g->cloneTensor(varCpu);
auto scale = g->cloneTensor(scaleCpu);
auto bias = g->cloneTensor(biasCpu);
auto op =
g->addOp<BatchNormObj>(i, nullptr, mean, var, scale, bias, 0.9, 0);
// allocate CUDA memory
g->dataMalloc();
// Execute on CUDA
cudaRuntime->run(g);
// clone CUDA output to CPU
auto o = op->getOutput();
auto ocpu = o->clone(cpuRuntime);
// check results on CPU
EXPECT_TRUE(ocpu->equalData(vector<float>{
-0.5, 0, 0.5, 1, -2, -1, 0, 1, -0.333333, 0, 0.333333, 0.666667}));
}
} // namespace infini

2
test/kernels/cuda/test_cuda_concat.cc
View File

@ -73,4 +73,4 @@ TEST(Concat, Cuda) {
6, 7, 8, 1, 1, 1, 9, 10, 11, 1, 1, 1}));
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_conv.cc
View File

@ -76,4 +76,4 @@ TEST(cuDNN_Conv, tune) {
bool tune = true;
cuda->run(gCuda, tune);
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_conv_transposed_2d.cc
View File

@ -86,4 +86,4 @@ TEST(cuDNN_ConvTransposed, tune) {
ASSERT_TRUE(perfData.has_value());
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_element_wise.cc
View File

@ -65,4 +65,4 @@ TEST(cuDNN_ElementWise, run) {
ExpectOutput{1, 1, 4, 27});
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_extend.cc
View File

@ -40,4 +40,4 @@ TEST(CUDA_Extend, run) {
4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19,
20, 21, 22, 23, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23}));
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_gather.cc
View File

@ -241,4 +241,4 @@ TEST(Gather, Cuda) {
}
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_matmul.cc
View File

@ -73,4 +73,4 @@ TEST(cuBLAS_Matmul, tune) {
cudaRuntime->run(gCuda, true);
}
}; // namespace infini
}; // namespace infini

2
test/kernels/cuda/test_cuda_pad.cc
View File

@ -38,4 +38,4 @@ TEST(Pad, Cuda) {
0, 1, 0, 2, 3, 0, 4, 5, 0, 6, 7, 0, 8, 9, 0, 10, 11, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}));
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_pooling.cc
View File

@ -58,4 +58,4 @@ TEST(cuDNN_AvgPool, run) {
20.444444});
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_reshape.cc
View File

@ -95,4 +95,4 @@ TEST(CUDA_Identity, run) {
// check results on CPU
EXPECT_TRUE(ocpu->equalData(icpu));
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_slice.cc
View File

@ -36,4 +36,4 @@ TEST(CUDA_Slice, run) {
// check results on CPU
EXPECT_TRUE(cpuo->equalData(vector<float>{11, 12, 13, 14, 16, 17, 18, 19}));
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_cuda_split.cc
View File

@ -37,4 +37,4 @@ TEST(Split, Cuda) {
12, 13, 14, 15, 16, 17, 18, 19, 32, 33, 34, 35, 36, 37, 38, 39}));
}
} // namespace infini
} // namespace infini

2
test/kernels/cuda/test_perfengine.cc
View File

@ -47,4 +47,4 @@ TEST(PerfEngine, save_and_load) {
std::cout << j1 << std::endl;
EXPECT_TRUE(j0 == j1);
}
} // namespace infini
} // namespace infini

21
test/operators/test_batch_norm.cc Normal file
View File

@ -0,0 +1,21 @@
#include "core/graph.h"
#include "core/runtime.h"
#include "operators/batch_norm.h"
#include "test.h"
namespace infini {
TEST(BatchNorm, ShapeInference) {
Runtime cpuRuntime = CpuRuntimeObj::getInstance();
{
Graph g = make_ref<GraphObj>(cpuRuntime);
Tensor i = g->addTensor({1, 3, 2, 2}, DataType::UInt32);
Tensor mean = g->addTensor({1, 3, 1, 1}, DataType::Float32);
Tensor var = g->addTensor({1, 3, 1, 1}, DataType::Float32);
Tensor scaler = g->addTensor({1, 3, 1, 1}, DataType::Float32);
Tensor bias = g->addTensor({1, 3, 1, 1}, DataType::Float32);
auto op = g->addOp<BatchNormObj>(i, nullptr, mean, var, scaler, bias,
0.9, 1e-5);
EXPECT_EQ(op->getOutput()->getDims(), (Shape{1, 3, 2, 2}));
}
}
} // namespace infini

2
test/operators/test_concat.cc
View File

@ -14,4 +14,4 @@ TEST(Concat, ShapeInfer) {
EXPECT_EQ(op->getOutput()->getDims(), (Shape{1, 3, 2, 9}));
}
} // namespace infini
} // namespace infini

2
test/operators/test_conv.cc
View File

@ -66,4 +66,4 @@ TEST(Conv, NaiveCPU) {
EXPECT_TRUE(conv->getOutput()->equalData(ans));
}
} // namespace infini
} // namespace infini

2
test/operators/test_conv_transposed_2d.cc
View File

@ -34,4 +34,4 @@ TEST(ConvTransposed, ShapeInference) {
}
}
} // namespace infini
} // namespace infini

2
test/operators/test_element_wise.cc
View File

@ -19,4 +19,4 @@ TEST(ElementWise, ShapeInference) {
}
}
} // namespace infini
} // namespace infini

2
test/operators/test_extend.cc
View File

@ -17,4 +17,4 @@ TEST(Extend, ShapeInference) {
}
}
} // namespace infini
} // namespace infini

2
test/operators/test_gather.cc
View File

@ -16,4 +16,4 @@ TEST(Gather, ShapeInference) {
auto op = g->addOp<GatherObj>(i, index, nullptr, 1);
EXPECT_EQ(op->getOutput()->getDims(), (Shape{1, 2, 1, 2, 4, 4}));
}
} // namespace infini
} // namespace infini

2
test/operators/test_matmul.cc
View File

@ -29,4 +29,4 @@ TEST(Matmul, ShapeInference) {
}
}
}; // namespace infini
}; // namespace infini

2
test/operators/test_pad.cc
View File

@ -22,4 +22,4 @@ TEST(Pad, ShapeInference) {
}
}
} // namespace infini
} // namespace infini

2
test/operators/test_pooling.cc
View File

@ -68,4 +68,4 @@ TEST(AvgPool, NaiveCPU) {
EXPECT_LT(perfTime, 5);
}
} // namespace infini
} // namespace infini

2
test/operators/test_reshape.cc
View File

@ -36,4 +36,4 @@ TEST(Identity, ShapeInference) {
}
}
} // namespace infini
} // namespace infini

2
test/operators/test_slice.cc
View File

@ -24,4 +24,4 @@ TEST(Slice, ShapeInference) {
}
}
} // namespace infini
} // namespace infini

2
test/operators/test_split.cc
View File

@ -35,4 +35,4 @@ TEST(Split, ShapeInfer) {
}
}
} // namespace infini
} // namespace infini