#include #include "registration.h" #include "torch_binding.h" #include "new_cumsum.h" #include "new_histogram.h" #include "new_indices.h" #include "new_replicate.h" #include "new_sort.h" #include "grouped_gemm/grouped_gemm.h" // void exclusive_cumsum(torch::Tensor x, int dim, torch::Tensor out) { torch::Tensor exclusive_cumsum_wrapper(torch::Tensor x, int64_t dim, torch::Tensor out) { megablocks::exclusive_cumsum(x, dim, out); return out; } // void inclusive_cumsum(torch::Tensor x, int dim, torch::Tensor out) { torch::Tensor inclusive_cumsum_wrapper(torch::Tensor x, int64_t dim, torch::Tensor out) { megablocks::inclusive_cumsum(x, dim, out); return out; } // torch::Tensor histogram(torch::Tensor x, int num_bins); torch::Tensor histogram_wrapper(torch::Tensor x, int64_t num_bins) { return megablocks::histogram(x, num_bins); } // void indices(torch::Tensor padded_bins, // int block_size, // int output_block_rows, // int output_block_columns, // torch::Tensor out); torch::Tensor indices_wrapper(torch::Tensor padded_bins, int64_t block_size, int64_t output_block_rows, int64_t output_block_columns, torch::Tensor out) { megablocks::indices(padded_bins, block_size, output_block_rows, output_block_columns, out); return out; } // Forward pass: replicate values from x according to bin sizes // void replicate_forward(torch::Tensor x, // torch::Tensor bins, // torch::Tensor out); torch::Tensor replicate_forward_wrapper(torch::Tensor x, torch::Tensor bins, torch::Tensor out) { megablocks::replicate_forward(x, bins, out); return out; } // // Backward pass: reduce gradients back to bins using segmented reduction // void replicate_backward(torch::Tensor grad, // torch::Tensor bins, // torch::Tensor out); torch::Tensor replicate_backward_wrapper(torch::Tensor grad, torch::Tensor bins, torch::Tensor out) { megablocks::replicate_backward(grad, bins, out); return out; } // // Public interface function for radix sorting with indices // void sort(torch::Tensor x, // int end_bit, // torch::Tensor x_out, // torch::Tensor iota_out); torch::Tensor sort_wrapper(torch::Tensor x, int64_t end_bit, torch::Tensor x_out, torch::Tensor iota_out) { megablocks::sort(x, end_bit, x_out, iota_out); return x_out; } // GroupedGemm operation torch::Tensor gmm(torch::Tensor a, torch::Tensor b, torch::Tensor c, torch::Tensor batch_sizes, bool trans_a, bool trans_b) { grouped_gemm::GroupedGemm(a, b, c, batch_sizes, trans_a, trans_b); return c; } // Reference implementation: // // m.def("exclusive_cumsum", &exclusive_cumsum, "batched exclusive cumsum."); // m.def("histogram", &histogram, "even width histogram."); // m.def("inclusive_cumsum", &inclusive_cumsum, "batched inclusive cumsum"); // m.def("indices", &indices, "indices construction for sparse matrix."); // m.def("replicate_forward", &replicate_forward, "(fwd) replicate a vector dynamically."); // m.def("replicate_backward", &replicate_backward, "(bwd) replicate a vector dynamically."); // m.def("sort", &sort, "key/value sort."); TORCH_LIBRARY_EXPAND(TORCH_EXTENSION_NAME, ops) { ops.def("exclusive_cumsum(Tensor x, int dim, Tensor(a!) out) -> Tensor(a!)"); ops.impl("exclusive_cumsum", torch::kCUDA, &exclusive_cumsum_wrapper); ops.def("inclusive_cumsum(Tensor x, int dim, Tensor(a!) out) -> Tensor(a!)"); ops.impl("inclusive_cumsum", torch::kCUDA, &inclusive_cumsum_wrapper); ops.def("histogram(Tensor x, int num_bins) -> Tensor"); ops.impl("histogram", torch::kCUDA, &histogram_wrapper); ops.def("indices(Tensor padded_bins, int block_size, int output_block_rows, int output_block_columns, Tensor(a!) out) -> Tensor(a!)"); ops.impl("indices", torch::kCUDA, &indices_wrapper); ops.def("replicate_forward(Tensor x, Tensor bins, Tensor(a!) out) -> Tensor(a!)"); ops.impl("replicate_forward", torch::kCUDA, &replicate_forward_wrapper); ops.def("replicate_backward(Tensor grad, Tensor bins, Tensor(a!) out) -> Tensor(a!)"); ops.impl("replicate_backward", torch::kCUDA, &replicate_backward_wrapper); ops.def("sort(Tensor x, int end_bit, Tensor x_out, Tensor iota_out) -> Tensor(x_out)"); ops.impl("sort", torch::kCUDA, &sort_wrapper); // Register the gmm GroupedGemm operation ops.def("gmm(Tensor (a!) a, Tensor (b!) b, Tensor(c!) c, Tensor batch_sizes, bool trans_a, bool trans_b) -> Tensor(c!)"); ops.impl("gmm", torch::kCUDA, &gmm); } REGISTER_EXTENSION(TORCH_EXTENSION_NAME)