mirror of https://github.com/hpcaitech/ColossalAI
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255 lines
6.8 KiB
255 lines
6.8 KiB
// Adapted from turboderp exllama: https://github.com/turboderp/exllama
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#include <torch/extension.h>
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#include <c10/cuda/CUDAGuard.h>
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#include <ATen/cuda/CUDAContext.h>
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#include <cuda_runtime.h>
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#include <cuda_fp16.h>
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#include <cstdint>
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#include <cstdio>
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#include "util.cuh"
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#include "tuning.h"
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#include "cuda_buffers.cuh"
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#include "q4_matrix.cuh"
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#include "q4_matmul.cuh"
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#include "column_remap.cuh"
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// Check CUDA return code. We don't want to include Torch headers in the .cu files because parsing them adds almost a
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// minute to the compile time on a 12900K. Also passing exceptions back to Python is super tricky, so in place of
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// exceptions, CUDA functions return with a cudaError_t which we can parse and dump to the console.
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void check_cuda(cudaError_t ret)
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{
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switch (ret)
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{
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case cudaSuccess:
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break;
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case cudaUnspecified:
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printf(" **** Unspecified error\n");
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TORCH_CHECK(false, "CUDA error");
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break;
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default:
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printf(" **** CUDA error\n"); \
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printf(" **** %s\n", cudaGetErrorString(ret)); \
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TORCH_CHECK(false, "CUDA error"); \
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break;
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}
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}
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// Some decluttering macros
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#define STRINGIFY_(__x) #__x
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#define STRINGIFY(__x) STRINGIFY_(__x)
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#define TORCH_CHECK_DTYPE(__x, __dtype) TORCH_CHECK((__x).dtype() == torch::__dtype, #__x " is incorrect datatype, must be " #__dtype)
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#define TORCH_CHECK_DTYPE_OPT(__x, __dtype) TORCH_CHECK((__x).device().is_meta() || (__x).dtype() == torch::__dtype, #__x " is incorrect datatype, must be " #__dtype)
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#define TORCH_CHECK_SHAPES(__x, __dim_x, __y, __dim_y, __scale_y) TORCH_CHECK((__x).size(__dim_x) == (__y).size(__dim_y) * __scale_y, #__x " and " #__y " have incompatible shapes")
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#define TORCH_CHECK_SHAPES_OPT(__x, __dim_x, __y, __dim_y, __scale_y) TORCH_CHECK((__x).device().is_meta() || (__x).size(__dim_x) == (__y).size(__dim_y) * __scale_y, #__x " and " #__y " have incompatible shapes")
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#define TORCH_CHECK_SHAPE_MOD(__x, __dim_x, __mod) TORCH_CHECK((__x).size(__dim_x) % __mod == 0, #__x ".shape[" STRINGIFY(__dim_x) "] must be a multiple of " STRINGIFY(__mod))
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#define TORCH_CHECK_BUFFER_SIZE(__buffer, __minimum_size) TORCH_CHECK((__buffer).numel() >= __minimum_size, #__buffer " is too small")
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#define TORCH_CHECK_DEVICE_INDEX(__index) \
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do { \
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TORCH_CHECK(__index >= 0, "no device index"); \
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TORCH_CHECK(__index < CUDA_MAX_DEVICES, "invalid device index"); \
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} while(0)
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#define TORCH_CHECK_QUANT(__w, __w_scales, __w_zeros, __seq_g_idx, __x_map) \
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do { \
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TORCH_CHECK_DTYPE(__w, kInt); \
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TORCH_CHECK_DTYPE(__w_scales, kHalf); \
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TORCH_CHECK_DTYPE(__w_zeros, kInt); \
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TORCH_CHECK_DTYPE_OPT(__seq_g_idx, kShort); \
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TORCH_CHECK_DTYPE_OPT(__x_map, kInt); \
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TORCH_CHECK_SHAPES_OPT(__seq_g_idx, 0, __w, 0, 2 * 8); \
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TORCH_CHECK_SHAPES_OPT(__x_map, 0, __w, 0, 8); \
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} while(0)
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int get_groupsize(torch::Tensor w, torch::Tensor w_zeros)
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{
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int groupsize = w.size(0) * 8 / w_zeros.size(0);
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TORCH_CHECK(groupsize * w_zeros.size(0) == w.size(0) * 8, "w.shape[-2] must be a multiple of zeros.shape[-2]")
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return groupsize;
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}
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// Tuning parameters
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ExLlamaTuning tuningParams;
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void set_tuning_params
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(
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int matmul_recons_thd,
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bool matmul_fused_remap,
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bool matmul_no_half2
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)
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{
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tuningParams.matmul_recons_thd = matmul_recons_thd;
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tuningParams.matmul_fused_remap = matmul_fused_remap;
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tuningParams.matmul_no_half2 = matmul_no_half2;
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}
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// Release all unmanaged objects allocated by the extension
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void cleanup()
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{
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cleanup_buffers_cuda();
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g_q4_free_matrices();
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}
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// Prepare buffers for forward pass
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void prepare_buffers
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(
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torch::Device device,
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torch::Tensor temp_state,
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torch::Tensor temp_dq
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)
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{
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int device_index = device.index();
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TORCH_CHECK_DEVICE_INDEX(device_index);
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const at::cuda::OptionalCUDAGuard device_guard(device);
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prepare_buffers_cuda
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(
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device_index,
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// buffer size used for sanity checks
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temp_state.numel(),
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(half*) temp_state.data_ptr(),
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(half*) temp_dq.data_ptr()
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);
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}
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// Create Q4Matrix, return handle
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uintptr_t make_q4
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(
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torch::Tensor qweight,
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torch::Tensor qzeros,
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torch::Tensor scales,
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torch::Tensor g_idx,
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int device
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)
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{
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TORCH_CHECK_DTYPE(qweight, kInt);
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TORCH_CHECK_DTYPE(qzeros, kInt);
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TORCH_CHECK_DTYPE(scales, kHalf);
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TORCH_CHECK_DTYPE_OPT(g_idx, kInt);
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TORCH_CHECK_SHAPES(qweight, 1, qzeros, 1, 8);
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TORCH_CHECK_SHAPES(scales, 1, qweight, 1, 1);
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TORCH_CHECK_SHAPES(qzeros, 0, scales, 0, 1);
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int width = qweight.size(1);
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int height = qweight.size(0) * 8;
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int groups = qzeros.size(0);
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Q4Matrix* m = new Q4Matrix
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(
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height,
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width,
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groups,
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(uint32_t*) qweight.data_ptr(),
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(uint32_t*) qzeros.data_ptr(),
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(half*) scales.data_ptr(),
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g_idx.device().is_meta() ? NULL : (uint32_t*) g_idx.data_ptr(),
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device
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);
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g_q4_keep_matrix(m);
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return reinterpret_cast<uintptr_t> (m);
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}
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// Matmul half @ quant -> half
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void q4_matmul
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(
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torch::Tensor x,
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uintptr_t w,
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torch::Tensor out
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)
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{
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Q4Matrix* wm = reinterpret_cast<Q4Matrix*> (w);
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TORCH_CHECK_DTYPE(x, kHalf);
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TORCH_CHECK_DTYPE(out, kHalf);
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TORCH_CHECK_SHAPES(x, 0, out, 0, 1);
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TORCH_CHECK(wm->height == x.size(-1), "x and w have incompatible shapes")
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const at::cuda::OptionalCUDAGuard device_guard(device_of(x));
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int x_height = x.size(0);
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if (tuningParams.matmul_recons_thd == 0 || x_height < tuningParams.matmul_recons_thd)
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{
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q4_matmul_cuda
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(
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&tuningParams,
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(half*) x.data_ptr(),
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x_height,
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wm,
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(half*) out.data_ptr()
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);
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}
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else
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{
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q4_matmul_recons_cuda
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(
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&tuningParams,
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(half*) x.data_ptr(),
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x_height,
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wm,
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(half*) out.data_ptr(),
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at::cuda::getCurrentCUDABlasHandle()
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);
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}
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}
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// Remap columns in half tensor
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void column_remap
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(
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torch::Tensor x,
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torch::Tensor x_new,
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torch::Tensor x_map
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)
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{
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TORCH_CHECK_DTYPE(x, kHalf);
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TORCH_CHECK_DTYPE(x_new, kHalf);
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TORCH_CHECK_DTYPE(x_map, kInt);
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TORCH_CHECK_SHAPES(x_map, 0, x, 1, 1);
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int height = x.size(0);
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int width = x.size(1);
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TORCH_CHECK_BUFFER_SIZE(x_new, height * width);
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const at::cuda::OptionalCUDAGuard device_guard(device_of(x));
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column_remap_cuda
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(
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(half*) x.data_ptr(),
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(half*) x_new.data_ptr(),
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height,
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width,
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(uint32_t*) x_map.data_ptr()
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);
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}
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PYBIND11_MODULE(TORCH_EXTENSION_NAME, m)
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{
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m.def("set_tuning_params", &set_tuning_params, "set_tuning_params");
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m.def("prepare_buffers", &prepare_buffers, "prepare_buffers");
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m.def("cleanup", &cleanup, "cleanup");
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m.def("make_q4", &make_q4, "make_q4");
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m.def("q4_matmul", &q4_matmul, "q4_matmul");
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}
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