Spaces:
Running on Zero
Running on Zero
| // | |
| // llama_kv_cache_iswa | |
| // | |
| llama_kv_cache_iswa::llama_kv_cache_iswa( | |
| const llama_model & model, | |
| ggml_type type_k, | |
| ggml_type type_v, | |
| bool v_trans, | |
| bool offload, | |
| bool swa_full, | |
| bool unified, | |
| uint32_t kv_size, | |
| uint32_t n_seq_max, | |
| uint32_t n_ubatch, | |
| uint32_t n_pad, | |
| llama_memory_t mem_other, | |
| const layer_filter_cb & filter, | |
| const layer_reuse_cb & reuse, | |
| const layer_share_cb & share) : | |
| llama_kv_cache_iswa(model, model.hparams, type_k, type_v, v_trans, offload, swa_full, unified, | |
| kv_size, n_seq_max, n_ubatch, n_pad, mem_other, filter, reuse, share) { | |
| } | |
| llama_kv_cache_iswa::llama_kv_cache_iswa( | |
| const llama_model & model, | |
| const llama_hparams & hparams, | |
| ggml_type type_k, | |
| ggml_type type_v, | |
| bool v_trans, | |
| bool offload, | |
| bool swa_full, | |
| bool unified, | |
| uint32_t kv_size, | |
| uint32_t n_seq_max, | |
| uint32_t n_ubatch, | |
| uint32_t n_pad, | |
| llama_memory_t mem_other, | |
| const layer_filter_cb & filter, | |
| const layer_reuse_cb & reuse, | |
| const layer_share_cb & share) : unified(unified) { | |
| // chain filters | |
| const layer_filter_cb filter_base = [&](int32_t il) { | |
| if (filter && !filter(il)) { | |
| return false; | |
| } | |
| return !model.hparams.is_swa(il); | |
| }; | |
| const layer_filter_cb filter_swa = [&](int32_t il) { | |
| if (filter && !filter(il)) { | |
| return false; | |
| } | |
| return model.hparams.is_swa(il); | |
| }; | |
| const uint32_t size_base = kv_size; | |
| // note: the SWA cache is always padded to 256 for performance | |
| // https://github.com/ggml-org/llama.cpp/issues/17037 | |
| uint32_t size_swa = GGML_PAD(std::min(size_base, hparams.n_swa*(unified ? n_seq_max : 1) + n_ubatch), 256); | |
| // when using full-size SWA cache, we set the SWA cache size to be equal to the base cache size | |
| if (swa_full) { | |
| LLAMA_LOG_WARN("%s: using full-size SWA cache (ref: %s)\n", | |
| __func__, "https://github.com/ggml-org/llama.cpp/pull/13194#issuecomment-2868343055"); | |
| size_swa = size_base; | |
| } | |
| LLAMA_LOG_INFO("%s: creating non-SWA KV cache, size = %u cells\n", __func__, size_base); | |
| llama_memory_t mem_other_base = nullptr; | |
| if (mem_other) { | |
| mem_other_base = static_cast<llama_kv_cache_iswa *>(mem_other)->get_base(); | |
| } | |
| llama_memory_t mem_other_swa = nullptr; | |
| if (mem_other) { | |
| mem_other_swa = static_cast<llama_kv_cache_iswa *>(mem_other)->get_swa(); | |
| } | |
| kv_base = std::make_unique<llama_kv_cache>( | |
| model, hparams, type_k, type_v, | |
| v_trans, offload, unified, size_base, n_seq_max, n_pad, | |
| 0, LLAMA_SWA_TYPE_NONE, mem_other_base, filter_base, reuse, share); | |
| LLAMA_LOG_INFO("%s: creating SWA KV cache, size = %u cells\n", __func__, size_swa); | |
| kv_swa = std::make_unique<llama_kv_cache>( | |
| model, hparams, type_k, type_v, | |
| v_trans, offload, unified, size_swa, n_seq_max, n_pad, | |
| hparams.n_swa, hparams.swa_type, mem_other_swa, filter_swa, reuse, share); | |
| } | |
| void llama_kv_cache_iswa::clear(bool data) { | |
| kv_base->clear(data); | |
| kv_swa ->clear(data); | |
| } | |
| bool llama_kv_cache_iswa::seq_rm(llama_seq_id seq_id, llama_pos p0, llama_pos p1) { | |
| bool res = true; | |
| res = res & kv_base->seq_rm(seq_id, p0, p1); | |
| res = res & kv_swa ->seq_rm(seq_id, p0, p1); | |
| return res; | |
| } | |
| void llama_kv_cache_iswa::seq_cp(llama_seq_id seq_id_src, llama_seq_id seq_id_dst, llama_pos p0, llama_pos p1) { | |
| kv_base->seq_cp(seq_id_src, seq_id_dst, p0, p1); | |
| kv_swa ->seq_cp(seq_id_src, seq_id_dst, p0, p1); | |
| } | |
| void llama_kv_cache_iswa::seq_keep(llama_seq_id seq_id) { | |
| kv_base->seq_keep(seq_id); | |
| kv_swa ->seq_keep(seq_id); | |
| } | |
| void llama_kv_cache_iswa::seq_add(llama_seq_id seq_id, llama_pos p0, llama_pos p1, llama_pos shift) { | |
| kv_base->seq_add(seq_id, p0, p1, shift); | |
| kv_swa ->seq_add(seq_id, p0, p1, shift); | |
| } | |
| void llama_kv_cache_iswa::seq_div(llama_seq_id seq_id, llama_pos p0, llama_pos p1, int d) { | |
| kv_base->seq_div(seq_id, p0, p1, d); | |
| kv_swa ->seq_div(seq_id, p0, p1, d); | |
| } | |
| llama_pos llama_kv_cache_iswa::seq_pos_min(llama_seq_id seq_id) const { | |
| // the base cache is a superset of the SWA cache, so we can just check the SWA cache | |
| return kv_swa->seq_pos_min(seq_id); | |
| } | |
| llama_pos llama_kv_cache_iswa::seq_pos_max(llama_seq_id seq_id) const { | |
| return kv_swa->seq_pos_max(seq_id); | |
| } | |
| std::map<ggml_backend_buffer_type_t, size_t> llama_kv_cache_iswa::memory_breakdown() const { | |
| std::map<ggml_backend_buffer_type_t, size_t> mb = kv_base->memory_breakdown(); | |
| for (const auto & buft_size : kv_swa->memory_breakdown()) { | |
| mb[buft_size.first] += buft_size.second; | |
| } | |
| return mb; | |
| } | |
| llama_memory_context_ptr llama_kv_cache_iswa::init_batch(llama_batch_allocr & balloc, uint32_t n_ubatch, bool embd_all) { | |
| GGML_UNUSED(embd_all); | |
| // first try simple split | |
| do { | |
| if (!unified) { | |
| // requires equal splits, so we skip the simple split | |
| break; | |
| } | |
| balloc.split_reset(); | |
| std::vector<llama_ubatch> ubatches; | |
| while (true) { | |
| auto ubatch = balloc.split_simple(n_ubatch); | |
| if (ubatch.n_tokens == 0) { | |
| break; | |
| } | |
| ubatches.push_back(std::move(ubatch)); // NOLINT | |
| } | |
| if (balloc.get_n_used() < balloc.get_n_tokens()) { | |
| // failed to find a suitable split | |
| break; | |
| } | |
| auto sinfos_base = kv_base->prepare(ubatches); | |
| if (sinfos_base.empty()) { | |
| break; | |
| } | |
| auto sinfos_swa = kv_swa->prepare(ubatches); | |
| if (sinfos_swa.empty()) { | |
| break; | |
| } | |
| assert(sinfos_base.size() == sinfos_swa.size()); | |
| return std::make_unique<llama_kv_cache_iswa_context>( | |
| this, std::move(sinfos_base), std::move(sinfos_swa), std::move(ubatches)); | |
| } while (false); | |
| // if it fails, try equal split | |
| do { | |
| balloc.split_reset(); | |
| std::vector<llama_ubatch> ubatches; | |
| while (true) { | |
| auto ubatch = balloc.split_equal(n_ubatch, !unified, 0); | |
| if (ubatch.n_tokens == 0) { | |
| break; | |
| } | |
| ubatches.push_back(std::move(ubatch)); // NOLINT | |
| } | |
| if (balloc.get_n_used() < balloc.get_n_tokens()) { | |
| // failed to find a suitable split | |
| break; | |
| } | |
| auto sinfos_base = kv_base->prepare(ubatches); | |
| if (sinfos_base.empty()) { | |
| break; | |
| } | |
| auto sinfos_swa = kv_swa->prepare(ubatches); | |
| if (sinfos_swa.empty()) { | |
| break; | |
| } | |
| assert(sinfos_base.size() == sinfos_swa.size()); | |
| return std::make_unique<llama_kv_cache_iswa_context>( | |
| this, std::move(sinfos_base), std::move(sinfos_swa), std::move(ubatches)); | |
| } while (false); | |
| // TODO: if we fail again, we should attempt different splitting strategies | |
| // but to do that properly, we first have to refactor the batches to be more flexible | |
| return std::make_unique<llama_kv_cache_iswa_context>(LLAMA_MEMORY_STATUS_FAILED_PREPARE); | |
| } | |
| llama_memory_context_ptr llama_kv_cache_iswa::init_full() { | |
| return std::make_unique<llama_kv_cache_iswa_context>(this); | |
| } | |
| llama_memory_context_ptr llama_kv_cache_iswa::init_update(llama_context * lctx, bool optimize) { | |
| return std::make_unique<llama_kv_cache_iswa_context>(this, lctx, optimize); | |
| } | |
| bool llama_kv_cache_iswa::get_can_shift() const { | |
| return kv_base->get_can_shift() && | |
| kv_swa->get_can_shift() && | |
| kv_base->get_size() == kv_swa->get_size(); | |
| } | |
| void llama_kv_cache_iswa::state_write(llama_io_write_i & io, llama_seq_id seq_id, llama_state_seq_flags flags) const { | |
| if ((flags & LLAMA_STATE_SEQ_FLAGS_PARTIAL_ONLY) == 0) { | |
| kv_base->state_write(io, seq_id, flags); | |
| } | |
| kv_swa->state_write(io, seq_id, flags); | |
| } | |
| void llama_kv_cache_iswa::state_read(llama_io_read_i & io, llama_seq_id seq_id, llama_state_seq_flags flags) { | |
| if ((flags & LLAMA_STATE_SEQ_FLAGS_PARTIAL_ONLY) == 0) { | |
| kv_base->state_read(io, seq_id, flags); | |
| } | |
| kv_swa->state_read(io, seq_id, flags); | |
| } | |
| llama_kv_cache * llama_kv_cache_iswa::get_base() const { | |
| return kv_base.get(); | |
| } | |
| llama_kv_cache * llama_kv_cache_iswa::get_swa() const { | |
| return kv_swa.get(); | |
| } | |
| // | |
| // llama_kv_cache_iswa_context | |
| // | |
| llama_kv_cache_iswa_context::llama_kv_cache_iswa_context(llama_memory_status status) : status(status) {} | |
| llama_kv_cache_iswa_context::llama_kv_cache_iswa_context( | |
| llama_kv_cache_iswa * kv) : | |
| ctx_base(kv->get_base()->init_full()), | |
| ctx_swa (kv->get_swa ()->init_full()), | |
| status(llama_memory_status_combine(ctx_base->get_status(), ctx_swa->get_status())) { | |
| } | |
| llama_kv_cache_iswa_context::llama_kv_cache_iswa_context( | |
| llama_kv_cache_iswa * kv, | |
| llama_context * lctx, | |
| bool optimize) : | |
| ctx_base(kv->get_base()->init_update(lctx, optimize)), | |
| ctx_swa (kv->get_swa ()->init_update(lctx, optimize)), | |
| status(llama_memory_status_combine(ctx_base->get_status(), ctx_swa->get_status())) { | |
| } | |
| llama_kv_cache_iswa_context::llama_kv_cache_iswa_context( | |
| llama_kv_cache_iswa * kv, | |
| slot_info_vec_t sinfos_base, | |
| slot_info_vec_t sinfos_swa, | |
| std::vector<llama_ubatch> ubatches) : | |
| ubatches(std::move(ubatches)), | |
| // note: here we copy the ubatches. not sure if this is ideal | |
| ctx_base(new llama_kv_cache_context(kv->get_base(), std::move(sinfos_base), this->ubatches)), | |
| ctx_swa (new llama_kv_cache_context(kv->get_swa (), std::move(sinfos_swa), this->ubatches)), | |
| status(llama_memory_status_combine(ctx_base->get_status(), ctx_swa->get_status())) { | |
| } | |
| llama_kv_cache_iswa_context:: ~llama_kv_cache_iswa_context() = default; | |
| bool llama_kv_cache_iswa_context::next() { | |
| assert(status == LLAMA_MEMORY_STATUS_SUCCESS); | |
| ctx_base->next(); | |
| ctx_swa ->next(); | |
| if (++i_next >= ubatches.size()) { | |
| return false; | |
| } | |
| return true; | |
| } | |
| bool llama_kv_cache_iswa_context::apply() { | |
| assert(!llama_memory_status_is_fail(status)); | |
| bool res = true; | |
| res = res & ctx_base->apply(); | |
| res = res & ctx_swa ->apply(); | |
| return res; | |
| } | |
| llama_memory_status llama_kv_cache_iswa_context::get_status() const { | |
| return status; | |
| } | |
| const llama_ubatch & llama_kv_cache_iswa_context::get_ubatch() const { | |
| assert(status == LLAMA_MEMORY_STATUS_SUCCESS); | |
| return ubatches[i_next]; | |
| } | |
| const llama_kv_cache_context * llama_kv_cache_iswa_context::get_base() const { | |
| assert(status == LLAMA_MEMORY_STATUS_SUCCESS); | |
| return static_cast<const llama_kv_cache_context *>(ctx_base.get()); | |
| } | |
| const llama_kv_cache_context * llama_kv_cache_iswa_context::get_swa() const { | |
| assert(status == LLAMA_MEMORY_STATUS_SUCCESS); | |
| return static_cast<const llama_kv_cache_context *>(ctx_swa.get()); | |
| } | |