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#include "models.h"
#include <cstring>
#include <cmath>
// note: this is similar to clip_graph::resize_position_embeddings, major difference is having
// the w/h in ne[1] and ne[2] instead of assuming with sqrt. Could try storing the tensor in 2D instead
// with a w*h? Also the permute is a bit different at (2, 1, 0, 3) instead of (2, 0, 1, 3).
ggml_tensor * clip_graph_kimik25::resize_position_embeddings_3d(uint32_t interpolation_mode) {
ggml_tensor * pos_embd = model.position_embeddings;
const int height = img.ny / patch_size;
const int width = img.nx / patch_size;
const uint32_t mode = interpolation_mode;
GGML_ASSERT(pos_embd);
const int64_t stored_c = pos_embd->ne[0]; // C = 1152
const int64_t orig_w = pos_embd->ne[1]; // W = 64
const int64_t orig_h = pos_embd->ne[2]; // H = 64
GGML_ASSERT(stored_c == n_embd);
if (height == (int)orig_h && width == (int)orig_w) {
// No interpolation needed, just flatten to [C, H*W]
return ggml_cont_2d(ctx0, pos_embd, n_embd, width * height);
}
pos_embd = ggml_permute(ctx0, pos_embd, 2, 1, 0, 3);
pos_embd = ggml_interpolate(ctx0, pos_embd, height, width, n_embd, 1, mode);
pos_embd = ggml_permute(ctx0, pos_embd, 2, 1, 0, 3);
pos_embd = ggml_cont_2d(ctx0, pos_embd, n_embd, width * height);
return pos_embd;
}
ggml_cgraph * clip_graph_kimik25::build() {
ggml_tensor * pos_h = ggml_new_tensor_1d(ctx0, GGML_TYPE_I32, n_patches);
ggml_set_name(pos_h, "pos_h");
ggml_set_input(pos_h);
ggml_tensor * pos_w = ggml_new_tensor_1d(ctx0, GGML_TYPE_I32, n_patches);
ggml_set_name(pos_w, "pos_w");
ggml_set_input(pos_w);
ggml_tensor * learned_pos_embd = resize_position_embeddings_3d(GGML_SCALE_MODE_BICUBIC);
// Kimi-K2.5 uses interleaved 2D RoPE pattern natively, but
// Q / K are permuted during conversion to use split format.
auto add_pos = [&](ggml_tensor * cur, const clip_layer &) {
cur = build_rope_2d(ctx0, cur, pos_w, pos_h, hparams.rope_theta, false);
return cur;
};
ggml_tensor * inp = build_inp();
// I don't know why, but doing this in the build_vit lead to the ggml_add not occurring?
// Doing it manually here does work.
inp = ggml_add(ctx0, inp, learned_pos_embd);
ggml_tensor * cur = build_vit(
inp, n_patches,
NORM_TYPE_NORMAL,
hparams.ffn_op,
nullptr,
add_pos);
cb(cur, "vit_out", -1);
{
// patch_merger
const int scale_factor = model.hparams.n_merge;
cur = build_patch_merge_permute(cur, scale_factor);
// projection norm
int proj_inp_dim = cur->ne[0];
int n_merged_patches = cur->ne[1];
cur = ggml_view_2d(ctx0, cur,
n_embd, n_merged_patches * scale_factor * scale_factor,
ggml_row_size(cur->type, n_embd), 0);
cur = ggml_norm(ctx0, cur, hparams.eps);
cur = ggml_mul(ctx0, cur, model.mm_input_norm_w);
cur = ggml_add(ctx0, cur, model.mm_input_norm_b);
cur = ggml_view_2d(ctx0, cur,
proj_inp_dim, n_merged_patches,
ggml_row_size(cur->type, proj_inp_dim), 0);
cb(cur, "proj_inp_normed", -1);
// projection mlp
cur = build_ffn(cur,
model.mm_1_w, model.mm_1_b,
nullptr, nullptr,
model.mm_2_w, model.mm_2_b,
FFN_GELU,
-1);
cb(cur, "proj_out", -1);
}
// build the graph
ggml_build_forward_expand(gf, cur);
return gf;
}
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