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ollama-for-amd/llama/llama.cpp/src/llama-kv-cache-unified.h
Michael Yang 1a19df1f3a update vendored llama.cpp and ggml (#11823) 
* TEMPORARY: Update the llama.cpp upstream to my fork's Granite Four branch

This will be redone once my branch is merged upstream in llama.cpp

* feat: Update all patches

There are a number that are no longer needed at all:

- 0003-embeddings: Embeddings entirely overhauled on master
- 0008-ensure-KV-cache-is-fully-defragmented: KV caching entirely
    overhauled on master
- 0019-metal-add-mean-kernel-14267: Merged upstream
- 0020-CUDA-add-mean-operation-14313: Merged upstream

* feat: Sync llama.cpp and ggml

* fix: Update rsync-filter for all moved/new/removed files

* fix: Add files missing from sync

* fix: Update ggml rsync-filter for new ggml-cpu/arch subdirs

* fix: Add ggml files missing from sync

* fix: Narrow llama.cpp rsync-filter to not include mtmd main tool cpp files

* fix: Remove mtmd main cpp files

* fix: Add missing include in sampling_ext.cpp

* fix: Update llama.go to use mtmd instead of clip/llava

* fix: Add patch for mtmd_input_text

* chore: Ignore *.patched in the patch directory

* fix: Fix support for arch-specific ggml-cpu source files with new arrangement

In https://github.com/ggml-org/llama.cpp/pull/13892, all arch-specific
implementations were split out into a nested tree structure under
ggml-cpu/arch. This conflicts with standard CGO layout where all
arch-specific source files are expected to live in the same directory as
the parent go module and use suffixes based on GOOS and GOARCH. As such,
there were really two options for getting this to work:

1. Add a patch on top of the GGML sync to rearrange the files to match the
GO layout convention
2. Use CGO directives to conditionally include the nested source files in
the compilation units

This commit does (2) in order to minimize the set of changes needed on top
of the upstream file layout. To get this to work, there are two key things
needed:

1. In cpu.go, #cgo directives are added to explicitly set __${GOARCH}__ in
the preprocessor directives
2. In arch-impls.c|cpp, use an #ifdef | #elif defined | #endif chain to
explicitly include the .c|.cpp files for the given architecture from the
nested directory

* fix: Use mtmd_helper to correctly load the bitmap for the image

* fix: Apply patch for mtmd_text_input

* fix: Add missing stb to llama.cpp rsync-filter

* fix: Add sync'ed stb vendored header

* fix: Use c++17 and include vendor for go wrapper modules

* fix: Update patch 0015 for upstream implementation of uuid

* feat: Bump to the latest tip of the branch

* fix: Update patches for bump

* feat: Bump back to the cenral repo and point at the latest master

This includes granite 4 and a number of other model architectures!

* fix: Revert changes to ggml export GPU UUID patch

* fix: Add patch for GGML_VERSION and GGML_COMMIT constants

* feat: Sync all patched code

* build: Include cmake/common.cmake in ggml sync

* build: Add top-level include for GNUINstallDirs in CMakeLists.txt

This is used to populate CMAKE_INSTALL_BINDIR

* fix: Add a patch to avoid power throttling API on non-msvc windows builds

* fix: Sync patch changes for ggml-cpu.c

* feat: Bump llama.cpp to 4a4f42

This picks up support for Kimi K2 and PLaMO-2

* feat: Sync llama.cpp

* fix: Handle multi-chunk image encodings from mtmd

* fix: Re-number patches after merge with `main`

* feat: Bump to 41e78c in the makefile

* fix: Fix Solar and argsort/copy patches after bump

* fix: Remove Gemma3n CUDA Graphs patch

It was implemented upstream:
https://github.com/ggml-org/llama.cpp/pull/14741

* feat: Sync llama.cpp / ggml after latest bump

* build: Remove unnecessary CFLAGS definitions in cpu.go

* fix: Remove unnecessary additions in the rsync-filter

* fix: Remove unused vendored code for chat template parsing

* Revert "fix: Remove Gemma3n CUDA Graphs patch"

This reverts commit d724caced3ce21f08924d4b7801f94ce6638f6ea.

* fix: Update 0020 CUDA Graphs for gemma3n to keep both llama.cpp and ollama fixes

https://github.com/ollama/ollama/pull/11195#issuecomment-3137312394

* fix: Sync ggml-cuda.cu after keeping both style cuda graph fixes for gemma3n

* unwind mxfp4 patch

Prepare to bump ggml with their impl for mxfp4

* bump

* fix windows build error

* Convert tensors at load time

Repack the mxfp4 tensors as ggmls kernels expect them to be.

* convert mlp bf16 to f32

* buffer the conversion better

* reshape earlier

* openai swiglu

* add ids

* split qkv, gate_up

* fix nested alt tags

* fast attention

* remove debug messages

* fix lint

* remove redundant test

* remap values only if source/target are different

* add back i32->i32 copy

* refactor cpu quants

* clean up vendor

* update patch instructions

* clean up patches

* remove webgpu

* update mem

* also handle gpt-oss

* revert convert changes

---------

Signed-off-by: Gabe Goodhart <ghart@us.ibm.com>
Co-authored-by: Gabe Goodhart <ghart@us.ibm.com>
Co-authored-by: Daniel Hiltgen <daniel@ollama.com>
2025-08-14 14:42:58 -07:00

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#pragma once
#include "llama-batch.h"
#include "llama-graph.h"
#include "llama-kv-cells.h"
#include "llama-memory.h"
#include <unordered_map>
#include <vector>
struct llama_cparams;
struct llama_hparams;
struct llama_model;
struct llama_context;
//
// llama_kv_cache_unified
//
class llama_kv_cache_unified : public llama_memory_i {
public:
static uint32_t get_padding(const llama_cparams & cparams);
// this callback is used to filter out layers that should not be included in the cache
using layer_filter_cb = std::function<bool(int32_t il)>;
struct defrag_info {
bool empty() const {
return ids.empty();
}
// contains information about which cell moves where:
// - cell i moves to ids[i]
// - if ids[i] == i || ids[i] == ids.size(), then cell i is not moved
std::vector<uint32_t> ids;
};
struct stream_copy_info {
bool empty() const {
assert(ssrc.size() == sdst.size());
return ssrc.empty();
}
std::vector<uint32_t> ssrc;
std::vector<uint32_t> sdst;
};
// for each ubatch, create a slot_info that contains information about where the ubatch should be inserted in the
// KV cells. for example, cell indices for each token, such that: token[i] -> goes to cells[idxs[i]]
struct slot_info {
// data for ggml_set_rows
using idx_vec_t = std::vector<uint32_t>;
// number of streams: ns = s1 - s0 + 1
llama_seq_id s0;
llama_seq_id s1;
std::vector<llama_seq_id> strm; // [ns]
std::vector<idx_vec_t> idxs; // [ns]
uint32_t head() const {
GGML_ASSERT(idxs.size() == 1);
GGML_ASSERT(!idxs[0].empty());
return idxs[0][0];
}
void resize(size_t n) {
strm.resize(n);
idxs.resize(n);
}
size_t size() const {
GGML_ASSERT(idxs.size() == strm.size());
GGML_ASSERT(!idxs.empty());
return idxs[0].size();
}
size_t n_stream() const {
return strm.size();
}
bool empty() const {
return idxs.empty();
}
void clear() {
idxs.clear();
}
};
using slot_info_vec_t = std::vector<slot_info>;
llama_kv_cache_unified(
const llama_model & model,
layer_filter_cb && filter,
ggml_type type_k,
ggml_type type_v,
bool v_trans,
bool offload,
bool unified,
uint32_t kv_size,
uint32_t n_seq_max,
uint32_t n_pad,
uint32_t n_swa,
llama_swa_type swa_type);
~llama_kv_cache_unified() = default;
//
// llama_memory_i
//
llama_memory_context_ptr init_batch(
llama_batch_allocr & balloc,
uint32_t n_ubatch,
bool embd_all) override;
llama_memory_context_ptr init_full() override;
llama_memory_context_ptr init_update(llama_context * lctx, bool optimize) override;
bool get_can_shift() const override;
void clear(bool data) override;
bool seq_rm (llama_seq_id seq_id, llama_pos p0, llama_pos p1) override;
void seq_cp (llama_seq_id seq_id_src, llama_seq_id seq_id_dst, llama_pos p0, llama_pos p1) override;
void seq_keep(llama_seq_id seq_id) override;
void seq_add (llama_seq_id seq_id, llama_pos p0, llama_pos p1, llama_pos shift) override;
void seq_div (llama_seq_id seq_id, llama_pos p0, llama_pos p1, int d) override;
llama_pos seq_pos_min(llama_seq_id seq_id) const override;
llama_pos seq_pos_max(llama_seq_id seq_id) const override;
// state write/load
void state_write(llama_io_write_i & io, llama_seq_id seq_id = -1) const override;
void state_read (llama_io_read_i & io, llama_seq_id seq_id = -1) override;
//
// llama_kv_cache_unified specific API
//
uint32_t get_size() const;
uint32_t get_n_stream() const;
bool get_has_shift() const;
//
// graph_build API
//
uint32_t get_n_kv() const;
// TODO: temporary
bool get_supports_set_rows() const;
// get views of the current state of the cache
ggml_tensor * get_k(ggml_context * ctx, int32_t il, uint32_t n_kv, const slot_info & sinfo) const;
ggml_tensor * get_v(ggml_context * ctx, int32_t il, uint32_t n_kv, const slot_info & sinfo) const;
// store k_cur and v_cur in the cache based on the provided head location
ggml_tensor * cpy_k(ggml_context * ctx, ggml_tensor * k_cur, ggml_tensor * k_idxs, int32_t il, const slot_info & sinfo) const;
ggml_tensor * cpy_v(ggml_context * ctx, ggml_tensor * v_cur, ggml_tensor * v_idxs, int32_t il, const slot_info & sinfo) const;
//
// preparation API
//
// find places for the provided ubatches in the cache, returns the slot infos
// return empty vector on failure
slot_info_vec_t prepare(const std::vector<llama_ubatch> & ubatches);
bool update(llama_context * lctx, bool do_shift, const defrag_info & dinfo, const stream_copy_info & sc_info);
// find a slot of kv cells that can hold the ubatch
// if cont == true, then the slot must be continuous
// return empty slot_info on failure
slot_info find_slot(const llama_ubatch & ubatch, bool cont) const;
// emplace the ubatch context into slot: [sinfo.idxs[0...ubatch.n_tokens - 1]]
void apply_ubatch(const slot_info & sinfo, const llama_ubatch & ubatch);
//
// input API
//
ggml_tensor * build_input_k_idxs(ggml_context * ctx, const llama_ubatch & ubatch) const;
ggml_tensor * build_input_v_idxs(ggml_context * ctx, const llama_ubatch & ubatch) const;
void set_input_k_idxs(ggml_tensor * dst, const llama_ubatch * ubatch, const slot_info & sinfo) const;
void set_input_v_idxs(ggml_tensor * dst, const llama_ubatch * ubatch, const slot_info & sinfo) const;
void set_input_k_shift(ggml_tensor * dst) const;
void set_input_kq_mask (ggml_tensor * dst, const llama_ubatch * ubatch, bool causal_attn) const;
void set_input_pos_bucket(ggml_tensor * dst, const llama_ubatch * ubatch) const;
private:
const llama_model & model;
const llama_hparams & hparams;
struct kv_layer {
// layer index in the model
// note: can be different from the layer index in the KV cache
uint32_t il;
ggml_tensor * k;
ggml_tensor * v;
std::vector<ggml_tensor *> k_stream;
std::vector<ggml_tensor *> v_stream;
};
bool v_trans = true; // the value tensor is transposed
const uint32_t n_seq_max = 1;
const uint32_t n_stream = 1;
// required padding
const uint32_t n_pad = 1;
// SWA
const uint32_t n_swa = 0;
// env: LLAMA_KV_CACHE_DEBUG
int debug = 0;
// env: LLAMA_SET_ROWS (temporary)
// ref: https://github.com/ggml-org/llama.cpp/pull/14285
bool supports_set_rows = true;
const llama_swa_type swa_type = LLAMA_SWA_TYPE_NONE;
std::vector<ggml_context_ptr> ctxs;
std::vector<ggml_backend_buffer_ptr> bufs;
// the current index from where we start searching for a free slot in the ring buffer of KV cells (see find_slot())
// note: this is not part of the KV state and it's only used to speed-up the find_slot() method
std::vector<uint32_t> v_heads;
std::vector<llama_kv_cells_unified> v_cells;
// maps from a sequence id to a stream id
std::vector<uint32_t> seq_to_stream;
// pending stream copies that will be applied during the next update
stream_copy_info sc_info;
std::vector<kv_layer> layers;
// model layer id -> KV cache layer id
std::unordered_map<int32_t, int32_t> map_layer_ids;
// return non-empty vector if cells have been moved
defrag_info defrag_prepare(int32_t n_max_nodes) const;
size_t total_size() const;
size_t size_k_bytes() const;
size_t size_v_bytes() const;
bool is_masked_swa(llama_pos p0, llama_pos p1) const;
ggml_tensor * build_rope_shift(
const llama_cparams & cparams,
ggml_context * ctx,
ggml_tensor * cur,
ggml_tensor * shift,
ggml_tensor * factors,
float freq_base,
float freq_scale) const;
ggml_cgraph * build_graph_shift(
llm_graph_result * res,
llama_context * lctx) const;
ggml_cgraph * build_graph_defrag(
llm_graph_result * res,
llama_context * lctx,
const defrag_info & dinfo) const;
struct cell_ranges_t {
uint32_t strm;
std::vector<std::pair<uint32_t, uint32_t>> data; // ranges, from inclusive, to exclusive
};
void state_write_meta(llama_io_write_i & io, const cell_ranges_t & cr, llama_seq_id seq_id = -1) const;
void state_write_data(llama_io_write_i & io, const cell_ranges_t & cr) const;
bool state_read_meta(llama_io_read_i & io, uint32_t strm, uint32_t cell_count, llama_seq_id dest_seq_id = -1);
bool state_read_data(llama_io_read_i & io, uint32_t strm, uint32_t cell_count);
};
class llama_kv_cache_unified_context : public llama_memory_context_i {
public:
// some shorthands
using slot_info_vec_t = llama_kv_cache_unified::slot_info_vec_t;
using defrag_info = llama_kv_cache_unified::defrag_info;
using stream_copy_info = llama_kv_cache_unified::stream_copy_info;
// used for errors
llama_kv_cache_unified_context(llama_memory_status status);
// used to create a full-cache context
llama_kv_cache_unified_context(
llama_kv_cache_unified * kv);
// used to create an update context
llama_kv_cache_unified_context(
llama_kv_cache_unified * kv,
llama_context * lctx,
bool do_shift,
defrag_info dinfo,
stream_copy_info sc_info);
// used to create a batch procesing context from a batch
llama_kv_cache_unified_context(
llama_kv_cache_unified * kv,
slot_info_vec_t sinfos,
std::vector<llama_ubatch> ubatches);
virtual ~llama_kv_cache_unified_context();
//
// llama_memory_context_i
//
bool next() override;
bool apply() override;
llama_memory_status get_status() const override;
const llama_ubatch & get_ubatch() const override;
//
// llama_kv_cache_unified_context specific API
//
uint32_t get_n_kv() const;
// TODO: temporary
bool get_supports_set_rows() const;
// get views of the current state of the cache
ggml_tensor * get_k(ggml_context * ctx, int32_t il) const;
ggml_tensor * get_v(ggml_context * ctx, int32_t il) const;
// store k_cur and v_cur in the cache based on the provided head location
ggml_tensor * cpy_k(ggml_context * ctx, ggml_tensor * k_cur, ggml_tensor * k_idxs, int32_t il) const;
ggml_tensor * cpy_v(ggml_context * ctx, ggml_tensor * v_cur, ggml_tensor * v_idxs, int32_t il) const;
ggml_tensor * build_input_k_idxs(ggml_context * ctx, const llama_ubatch & ubatch) const;
ggml_tensor * build_input_v_idxs(ggml_context * ctx, const llama_ubatch & ubatch) const;
void set_input_k_idxs(ggml_tensor * dst, const llama_ubatch * ubatch) const;
void set_input_v_idxs(ggml_tensor * dst, const llama_ubatch * ubatch) const;
void set_input_k_shift (ggml_tensor * dst) const;
void set_input_kq_mask (ggml_tensor * dst, const llama_ubatch * ubatch, bool causal_attn) const;
void set_input_pos_bucket(ggml_tensor * dst, const llama_ubatch * ubatch) const;
private:
llama_memory_status status;
llama_kv_cache_unified * kv;
llama_context * lctx;
//
// update context
//
bool do_shift = false;
defrag_info dinfo;
stream_copy_info sc_info;
//
// batch processing context
//
// the index of the cur ubatch to process
size_t i_cur = 0;
slot_info_vec_t sinfos;
std::vector<llama_ubatch> ubatches;
//
// data needed for building the compute graph for the current ubatch:
//
// a heuristic, to avoid attending the full cache if it is not yet utilized
// as the cache gets filled, the benefit from this heuristic disappears
int32_t n_kv;
};
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