#include "cpu/cpu_engine.hpp"
#include "cpu/ncsp_group_normalization.hpp"
#include "cpu/ref_group_normalization.hpp"
#if DNNL_X64
#include "cpu/x64/jit_uni_group_normalization.hpp"
#include "cpu/x64/jit_uni_instance_normalization.hpp"
using namespace dnnl::impl::cpu::x64;
#elif DNNL_RV64
#if defined(DNNL_RISCV_USE_RVV_INTRINSICS)
#include "cpu/rv64/rvv_group_normalization.hpp"
using namespace dnnl::impl::cpu::rv64;
#endif #endif
namespace dnnl {
namespace impl {
namespace cpu {
namespace {
using namespace dnnl::impl::data_type;
using namespace dnnl::impl::prop_kind;
const std::map<pk_impl_key_t, std::vector<impl_list_item_t>> &impl_list_map() {
static const std::map<pk_impl_key_t, std::vector<impl_list_item_t>> the_map = REG_GNORM_P({
{{forward}, {
CPU_INSTANCE_X64(jit_uni_group_normalization_fwd_t)
CPU_INSTANCE_X64(jit_uni_instance_normalization_fwd_t)
CPU_INSTANCE_RV64GCV(rvv_group_normalization_fwd_t)
CPU_INSTANCE(ncsp_group_normalization_fwd_t)
CPU_INSTANCE(ref_group_normalization_fwd_t)
nullptr,
}},
{{backward}, REG_BWD_PK({
CPU_INSTANCE(ref_group_normalization_bwd_t)
nullptr,
})},
});
return the_map;
}
}
const impl_list_item_t *get_group_normalization_impl_list(
const group_normalization_desc_t *desc) {
static const impl_list_item_t empty_list[] = {nullptr};
const bool is_fwd = utils::one_of(
desc->prop_kind, forward_training, forward_inference);
prop_kind_t prop_kind = is_fwd ? forward : backward;
pk_impl_key_t key {prop_kind};
const auto impl_list_it = impl_list_map().find(key);
return impl_list_it != impl_list_map().cend() ? impl_list_it->second.data()
: empty_list;
}
} } }