176 lines
5.9 KiB
C++
176 lines
5.9 KiB
C++
#ifndef __DIFFUSION_MODEL_H__
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#define __DIFFUSION_MODEL_H__
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#include "flux.hpp"
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#include "mmdit.hpp"
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#include "unet.hpp"
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struct DiffusionModel {
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virtual void compute(int n_threads,
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struct ggml_tensor* x,
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struct ggml_tensor* timesteps,
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struct ggml_tensor* context,
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struct ggml_tensor* c_concat,
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struct ggml_tensor* y,
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struct ggml_tensor* guidance,
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int num_video_frames = -1,
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std::vector<struct ggml_tensor*> controls = {},
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float control_strength = 0.f,
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struct ggml_tensor** output = NULL,
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struct ggml_context* output_ctx = NULL) = 0;
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virtual void alloc_params_buffer() = 0;
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virtual void free_params_buffer() = 0;
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virtual void free_compute_buffer() = 0;
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virtual void get_param_tensors(std::map<std::string, struct ggml_tensor*>& tensors) = 0;
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virtual size_t get_params_buffer_size() = 0;
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virtual int64_t get_adm_in_channels() = 0;
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};
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struct UNetModel : public DiffusionModel {
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UNetModelRunner unet;
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UNetModel(ggml_backend_t backend,
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ggml_type wtype,
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SDVersion version = VERSION_SD1)
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: unet(backend, wtype, version) {
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}
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void alloc_params_buffer() {
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unet.alloc_params_buffer();
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}
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void free_params_buffer() {
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unet.free_params_buffer();
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}
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void free_compute_buffer() {
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unet.free_compute_buffer();
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}
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void get_param_tensors(std::map<std::string, struct ggml_tensor*>& tensors) {
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unet.get_param_tensors(tensors, "model.diffusion_model");
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}
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size_t get_params_buffer_size() {
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return unet.get_params_buffer_size();
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}
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int64_t get_adm_in_channels() {
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return unet.unet.adm_in_channels;
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}
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void compute(int n_threads,
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struct ggml_tensor* x,
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struct ggml_tensor* timesteps,
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struct ggml_tensor* context,
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struct ggml_tensor* c_concat,
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struct ggml_tensor* y,
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struct ggml_tensor* guidance,
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int num_video_frames = -1,
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std::vector<struct ggml_tensor*> controls = {},
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float control_strength = 0.f,
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struct ggml_tensor** output = NULL,
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struct ggml_context* output_ctx = NULL) {
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return unet.compute(n_threads, x, timesteps, context, c_concat, y, num_video_frames, controls, control_strength, output, output_ctx);
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}
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};
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struct MMDiTModel : public DiffusionModel {
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MMDiTRunner mmdit;
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MMDiTModel(ggml_backend_t backend,
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ggml_type wtype,
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SDVersion version = VERSION_SD3_2B)
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: mmdit(backend, wtype, version) {
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}
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void alloc_params_buffer() {
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mmdit.alloc_params_buffer();
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}
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void free_params_buffer() {
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mmdit.free_params_buffer();
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}
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void free_compute_buffer() {
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mmdit.free_compute_buffer();
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}
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void get_param_tensors(std::map<std::string, struct ggml_tensor*>& tensors) {
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mmdit.get_param_tensors(tensors, "model.diffusion_model");
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}
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size_t get_params_buffer_size() {
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return mmdit.get_params_buffer_size();
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}
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int64_t get_adm_in_channels() {
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return 768 + 1280;
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}
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void compute(int n_threads,
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struct ggml_tensor* x,
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struct ggml_tensor* timesteps,
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struct ggml_tensor* context,
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struct ggml_tensor* c_concat,
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struct ggml_tensor* y,
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struct ggml_tensor* guidance,
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int num_video_frames = -1,
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std::vector<struct ggml_tensor*> controls = {},
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float control_strength = 0.f,
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struct ggml_tensor** output = NULL,
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struct ggml_context* output_ctx = NULL) {
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return mmdit.compute(n_threads, x, timesteps, context, y, output, output_ctx);
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}
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};
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struct FluxModel : public DiffusionModel {
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Flux::FluxRunner flux;
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FluxModel(ggml_backend_t backend,
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ggml_type wtype,
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SDVersion version = VERSION_FLUX_DEV)
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: flux(backend, wtype, version) {
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}
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void alloc_params_buffer() {
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flux.alloc_params_buffer();
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}
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void free_params_buffer() {
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flux.free_params_buffer();
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}
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void free_compute_buffer() {
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flux.free_compute_buffer();
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}
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void get_param_tensors(std::map<std::string, struct ggml_tensor*>& tensors) {
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flux.get_param_tensors(tensors, "model.diffusion_model");
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}
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size_t get_params_buffer_size() {
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return flux.get_params_buffer_size();
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}
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int64_t get_adm_in_channels() {
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return 768;
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}
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void compute(int n_threads,
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struct ggml_tensor* x,
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struct ggml_tensor* timesteps,
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struct ggml_tensor* context,
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struct ggml_tensor* c_concat,
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struct ggml_tensor* y,
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struct ggml_tensor* guidance,
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int num_video_frames = -1,
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std::vector<struct ggml_tensor*> controls = {},
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float control_strength = 0.f,
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struct ggml_tensor** output = NULL,
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struct ggml_context* output_ctx = NULL) {
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return flux.compute(n_threads, x, timesteps, context, y, guidance, output, output_ctx);
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}
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};
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#endif |