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Revert "llava : add a MobileVLM_V2-1.7B backup (#6152)"
This reverts commit f8c4e745e1
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# MobileVLM
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# MobileVLM
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Currently this implementation supports [MobileVLM-1.7B](https://huggingface.co/mtgv/MobileVLM-1.7B) / [MobileVLM_V2-1.7B](https://huggingface.co/mtgv/MobileVLM_V2-1.7B) variants.
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Currently this implementation supports [MobileVLM-v1.7](https://huggingface.co/mtgv/MobileVLM-1.7B) variants.
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for more information, please go to [Meituan-AutoML/MobileVLM](https://github.com/Meituan-AutoML/MobileVLM)
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for more information, please go to [Meituan-AutoML/MobileVLM](https://github.com/Meituan-AutoML/MobileVLM)
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The implementation is based on llava, and is compatible with llava and mobileVLM. The usage is basically same as llava.
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The implementation is based on llava, and is compatible with llava and mobileVLM. The usage is basically same as llava.
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Notice: The overall process of model inference for both **MobilVLM** and **MobilVLM_V2** models is the same, but the process of model conversion is a little different. Therefore, using MobiVLM as an example, the different conversion step will be shown.
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## Usage
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## Usage
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Build with cmake or run `make llava-cli` to build it.
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Build with cmake or run `make llava-cli` to build it.
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@ -36,7 +34,7 @@ git clone https://huggingface.co/openai/clip-vit-large-patch14-336
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python ./examples/llava/llava-surgery.py -m path/to/MobileVLM-1.7B
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python ./examples/llava/llava-surgery.py -m path/to/MobileVLM-1.7B
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```
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```
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3. Use `convert-image-encoder-to-gguf.py` with `--projector-type ldp` (for **V2** the arg is `--projector-type ldpv2`) to convert the LLaVA image encoder to GGUF:
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3. Use `convert-image-encoder-to-gguf.py` with `--projector-type ldp` to convert the LLaVA image encoder to GGUF:
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```sh
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```sh
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python ./examples/llava/convert-image-encoder-to-gguf \
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python ./examples/llava/convert-image-encoder-to-gguf \
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@ -46,14 +44,6 @@ python ./examples/llava/convert-image-encoder-to-gguf \
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--projector-type ldp
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--projector-type ldp
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```
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```
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```sh
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python ./examples/llava/convert-image-encoder-to-gguf \
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-m path/to/clip-vit-large-patch14-336 \
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--llava-projector path/to/MobileVLM-1.7B_V2/llava.projector \
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--output-dir path/to/MobileVLM-1.7B_V2 \
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--projector-type ldpv2
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```
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4. Use `convert.py` to convert the LLaMA part of LLaVA to GGUF:
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4. Use `convert.py` to convert the LLaMA part of LLaVA to GGUF:
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```sh
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```sh
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@ -119,7 +119,6 @@ static std::string format(const char * fmt, ...) {
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#define TN_LLAVA_PROJ "mm.%d.%s"
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#define TN_LLAVA_PROJ "mm.%d.%s"
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#define TN_MVLM_PROJ_MLP "mm.model.mlp.%d.%s"
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#define TN_MVLM_PROJ_MLP "mm.model.mlp.%d.%s"
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#define TN_MVLM_PROJ_BLOCK "mm.model.mb_block.%d.block.%d.%s"
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#define TN_MVLM_PROJ_BLOCK "mm.model.mb_block.%d.block.%d.%s"
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#define TN_MVLM_PROJ_PEG "mm.model.peg.%d.%s"
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#define TN_IMAGE_NEWLINE "model.image_newline"
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#define TN_IMAGE_NEWLINE "model.image_newline"
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@ -127,14 +126,12 @@ enum projector_type {
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PROJECTOR_TYPE_MLP,
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PROJECTOR_TYPE_MLP,
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PROJECTOR_TYPE_MLP_NORM,
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PROJECTOR_TYPE_MLP_NORM,
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PROJECTOR_TYPE_LDP,
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PROJECTOR_TYPE_LDP,
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PROJECTOR_TYPE_LDPV2,
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PROJECTOR_TYPE_UNKNOWN,
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PROJECTOR_TYPE_UNKNOWN,
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};
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};
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static std::map<projector_type, std::string> PROJECTOR_TYPE_NAMES = {
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static std::map<projector_type, std::string> PROJECTOR_TYPE_NAMES = {
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{ PROJECTOR_TYPE_MLP, "mlp" },
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{ PROJECTOR_TYPE_MLP, "mlp" },
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{ PROJECTOR_TYPE_LDP, "ldp" },
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{ PROJECTOR_TYPE_LDP, "ldp" },
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{ PROJECTOR_TYPE_LDPV2, "ldpv2"},
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};
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};
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@ -810,29 +807,6 @@ static ggml_cgraph * clip_image_build_graph(clip_ctx * ctx, const clip_image_f32
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}
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}
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embeddings = block_1;
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embeddings = block_1;
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}
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}
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else if (ctx->proj_type == PROJECTOR_TYPE_LDPV2)
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{
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int n_patch = 24;
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struct ggml_tensor * mlp_0 = ggml_mul_mat(ctx0, model.mm_model_mlp_0_w, embeddings);
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mlp_0 = ggml_add(ctx0, mlp_0, model.mm_model_mlp_0_b);
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mlp_0 = ggml_gelu(ctx0, mlp_0);
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struct ggml_tensor * mlp_2 = ggml_mul_mat(ctx0, model.mm_model_mlp_2_w, mlp_0);
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mlp_2 = ggml_add(ctx0, mlp_2, model.mm_model_mlp_2_b);
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// mlp_2 ne = [2048, 576, 1, 1]
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// // AVG Pool Layer 2*2, strides = 2
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mlp_2 = ggml_cont(ctx0, ggml_permute(ctx0, mlp_2, 1, 0, 2, 3));
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// mlp_2 ne = [576, 2048, 1, 1]
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mlp_2 = ggml_reshape_4d(ctx0, mlp_2, n_patch, n_patch, mlp_2->ne[1], mlp_2->ne[2]);
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// mlp_2 ne [24, 24, 2048, 1]
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mlp_2 = ggml_pool_2d(ctx0, mlp_2, GGML_OP_POOL_AVG, 2, 2, 2, 2, 0, 0);
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// weight ne = [3, 3, 2048, 1]
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struct ggml_tensor * peg_0 = ggml_conv_depthwise_2d(ctx0, model.mm_model_peg_0_w, mlp_2, 1, 1, 1, 1, 1, 1);
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peg_0 = ggml_add(ctx0, peg_0, mlp_2);
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peg_0 = ggml_cont(ctx0, ggml_permute(ctx0, peg_0, 1, 2, 0, 3));
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peg_0 = ggml_add(ctx0, peg_0, model.mm_model_peg_0_b);
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peg_0 = ggml_reshape_3d(ctx0, peg_0, peg_0->ne[0], peg_0->ne[1] * peg_0->ne[2], peg_0->ne[3]);
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embeddings = peg_0;
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}
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else {
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else {
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GGML_ASSERT(false);
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GGML_ASSERT(false);
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}
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}
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@ -1203,18 +1177,7 @@ struct clip_ctx * clip_model_load(const char * fname, const int verbosity = 1) {
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vision_model.mm_model_block_2_block_2_0_w = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_BLOCK, 2, 2, "0.weight"));
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vision_model.mm_model_block_2_block_2_0_w = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_BLOCK, 2, 2, "0.weight"));
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vision_model.mm_model_block_2_block_2_1_w = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_BLOCK, 2, 2, "1.weight"));
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vision_model.mm_model_block_2_block_2_1_w = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_BLOCK, 2, 2, "1.weight"));
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vision_model.mm_model_block_2_block_2_1_b = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_BLOCK, 2, 2, "1.bias"));
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vision_model.mm_model_block_2_block_2_1_b = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_BLOCK, 2, 2, "1.bias"));
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}
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} else {
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else if (new_clip->proj_type == PROJECTOR_TYPE_LDPV2)
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{
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// MobilVLM_V2 projection
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vision_model.mm_model_mlp_0_w = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_MLP, 0, "weight"));
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vision_model.mm_model_mlp_0_b = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_MLP, 0, "bias"));
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vision_model.mm_model_mlp_2_w = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_MLP, 2, "weight"));
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vision_model.mm_model_mlp_2_b = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_MLP, 2, "bias"));
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vision_model.mm_model_peg_0_w = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_PEG, 0, "weight"));
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vision_model.mm_model_peg_0_b = get_tensor(new_clip->ctx_data, format(TN_MVLM_PROJ_PEG, 0, "bias"));
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}
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else {
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std::string proj_type = PROJECTOR_TYPE_NAMES[new_clip->proj_type];
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std::string proj_type = PROJECTOR_TYPE_NAMES[new_clip->proj_type];
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throw std::runtime_error(format("%s: don't support projector with: %s currently\n", __func__, proj_type.c_str()));
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throw std::runtime_error(format("%s: don't support projector with: %s currently\n", __func__, proj_type.c_str()));
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}
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}
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@ -2003,9 +1966,6 @@ int clip_n_mmproj_embd(const struct clip_ctx * ctx) {
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if (ctx->proj_type == PROJECTOR_TYPE_LDP) {
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if (ctx->proj_type == PROJECTOR_TYPE_LDP) {
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return ctx->vision_model.mm_model_block_1_block_2_1_b->ne[0];
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return ctx->vision_model.mm_model_block_1_block_2_1_b->ne[0];
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}
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}
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if (ctx->proj_type == PROJECTOR_TYPE_LDPV2) {
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return ctx->vision_model.mm_model_peg_0_b->ne[0];
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}
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if (ctx->proj_type == PROJECTOR_TYPE_MLP) {
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if (ctx->proj_type == PROJECTOR_TYPE_MLP) {
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return ctx->vision_model.mm_2_b->ne[0];
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return ctx->vision_model.mm_2_b->ne[0];
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}
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}
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import argparse
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import argparse
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import os
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import os
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import json
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import json
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import re
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import torch
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import torch
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import numpy as np
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import numpy as np
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@ -39,11 +38,9 @@ def should_skip_tensor(name: str, has_text: bool, has_vision: bool, has_llava: b
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def get_tensor_name(name: str) -> str:
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def get_tensor_name(name: str) -> str:
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if "projection" in name:
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if "projection" in name:
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return name
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return name
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if "mm_projector" in name:
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if "mm_projector" in name:
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name = name.replace("model.mm_projector", "mm")
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return name.replace("model.mm_projector", "mm")
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name = re.sub(r'mm\.mlp\.mlp', 'mm.model.mlp', name, count=1)
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name = re.sub(r'mm\.peg\.peg', 'mm.model.peg', name, count=1)
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return name
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return name.replace("text_model", "t").replace("vision_model", "v").replace("encoder.layers", "blk").replace("embeddings.", "").replace("_proj", "").replace("self_attn.", "attn_").replace("layer_norm", "ln").replace("layernorm", "ln").replace("mlp.fc1", "ffn_down").replace("mlp.fc2", "ffn_up").replace("embedding", "embd").replace("final", "post").replace("layrnorm", "ln")
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return name.replace("text_model", "t").replace("vision_model", "v").replace("encoder.layers", "blk").replace("embeddings.", "").replace("_proj", "").replace("self_attn.", "attn_").replace("layer_norm", "ln").replace("layernorm", "ln").replace("mlp.fc1", "ffn_down").replace("mlp.fc2", "ffn_up").replace("embedding", "embd").replace("final", "post").replace("layrnorm", "ln")
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@ -86,7 +83,7 @@ ap.add_argument("--clip-model-is-vision", action="store_true", required=False,
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ap.add_argument("--clip-model-is-openclip", action="store_true", required=False,
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ap.add_argument("--clip-model-is-openclip", action="store_true", required=False,
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help="The clip model is from openclip (for ViT-SO400M type))")
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help="The clip model is from openclip (for ViT-SO400M type))")
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ap.add_argument("--llava-projector", help="Path to llava.projector file. If specified, save an image encoder for LLaVA models.")
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ap.add_argument("--llava-projector", help="Path to llava.projector file. If specified, save an image encoder for LLaVA models.")
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ap.add_argument("--projector-type", help="Type of projector. Possible values: mlp, ldp, ldpv2", choices=["mlp", "ldp", "ldpv2"], default="mlp")
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ap.add_argument("--projector-type", help="Type of projector. Possible values: mlp, ldp", choices=["mlp", "ldp"], default="mlp")
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ap.add_argument("-o", "--output-dir", help="Directory to save GGUF files. Default is the original model directory", default=None)
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ap.add_argument("-o", "--output-dir", help="Directory to save GGUF files. Default is the original model directory", default=None)
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# Example --image_mean 0.48145466 0.4578275 0.40821073 --image_std 0.26862954 0.26130258 0.27577711
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# Example --image_mean 0.48145466 0.4578275 0.40821073 --image_std 0.26862954 0.26130258 0.27577711
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# Example --image_mean 0.5 0.5 0.5 --image_std 0.5 0.5 0.5
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# Example --image_mean 0.5 0.5 0.5 --image_std 0.5 0.5 0.5
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