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ollama/convert/convert.go
Daniel Hiltgen 87288ced4f
New models (#15861) 
* mlx: add laguna model support

* convert: support fp8 safetensors import

Decode HF F8_E4M3 safetensors with block scale companions into GGUF-supported tensor types, and record which output tensors came from FP8 source weights.

Use that source-precision metadata during create quantization: default FP8-sourced GGUFs to Q8_0, keep non-FP8 tensors at their original precision for Q8_0, and promote non-FP8 quantizable tensors to Q8_0 for Q4_K requests.

* ggml: add laguna model support

* server: preserve generate logprobs with builtin parsers

Generate requests were dropping logprob-only chunks whenever a builtin parser buffered visible content. Chat already handled this case, but generate only forwarded chunks with visible response, thinking, or tool-call output.

Keep generate chunks that carry logprobs even when the builtin parser has not flushed visible content yet, and add a regression test that exercises the behavior with a generic thinking parser.

* review comments - perf improvements

* ggml: implement nemotron 3 nano omni

* add poolside integration

* update poolside doc

* adapt to new cache setup

* fix test

* fix test

---------

Co-authored-by: Eva Ho <hoyyeva@gmail.com>
2026-04-28 11:50:12 -07:00

403 lines
11 KiB
Go
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package convert
import (
"cmp"
"encoding/json"
"errors"
"fmt"
"io/fs"
"iter"
"log/slog"
"maps"
"os"
"slices"
"strings"
ofs "github.com/ollama/ollama/fs"
"github.com/ollama/ollama/fs/ggml"
)
type ModelParameters struct {
Architectures []string `json:"architectures"`
VocabSize uint32 `json:"vocab_size"`
// TODO is this needed?
ModelType string `json:"model_type"`
TextModel struct {
VocabSize uint32 `json:"vocab_size"`
HiddenSize uint32 `json:"hidden_size"`
ModelType string `json:"model_type"`
} `json:"text_config"`
}
type AdapterParameters struct {
Alpha uint32 `json:"lora_alpha"`
LoraLayers uint32 `json:"lora_layers"`
LoraParameters struct {
Rank uint32 `json:"rank"`
Alpha float32 `json:"alpha"`
Scale float32 `json:"scale"`
} `json:"lora_parameters"`
}
type KV map[string]any
func (kv KV) Architecture() string {
return kv.String("general.architecture", "unknown")
}
type valueTypes interface {
uint8 | int8 | uint16 | int16 |
uint32 | int32 | uint64 | int64 |
string | float32 | float64 | bool
}
type arrayValueTypes interface {
[]uint8 | []int8 | []uint16 | []int16 |
[]uint32 | []int32 | []uint64 | []int64 |
[]string | []float32 | []float64 | []bool
}
func keyValue[T valueTypes | arrayValueTypes](kv KV, key string, defaultValue ...T) (T, bool) {
if !strings.HasPrefix(key, "tokenizer.") && !strings.HasPrefix(key, "general.") {
key = kv.Architecture() + "." + key
}
if val, ok := kv[key].(T); ok {
return val, true
}
return defaultValue[0], false
}
func (kv KV) String(key string, defaultValue ...string) string {
val, _ := keyValue(kv, key, append(defaultValue, "")...)
return val
}
func (kv KV) Uint(key string, defaultValue ...uint32) uint32 {
val, _ := keyValue(kv, key, append(defaultValue, 0)...)
return val
}
func (kv KV) Float(key string, defaultValue ...float32) float32 {
val, _ := keyValue(kv, key, append(defaultValue, 0)...)
return val
}
func (kv KV) Bool(key string, defaultValue ...bool) bool {
val, _ := keyValue(kv, key, append(defaultValue, false)...)
return val
}
func (kv KV) Strings(key string, defaultValue ...[]string) []string {
val, _ := keyValue(kv, key, append(defaultValue, []string{""})...)
return val
}
func (kv KV) Ints(key string, defaultValue ...[]int32) []int32 {
val, _ := keyValue(kv, key, append(defaultValue, []int32{0})...)
return val
}
func (kv KV) Uints(key string, defaultValue ...[]uint32) []uint32 {
val, _ := keyValue(kv, key, append(defaultValue, []uint32{0})...)
return val
}
func (kv KV) Floats(key string, defaultValue ...[]float32) []float32 {
val, _ := keyValue(kv, key, append(defaultValue, []float32{0})...)
return val
}
func (kv KV) Bools(key string, defaultValue ...[]bool) []bool {
val, _ := keyValue(kv, key, append(defaultValue, []bool{false})...)
return val
}
func (kv KV) Len() int {
return len(kv)
}
func (kv KV) Keys() iter.Seq[string] {
return maps.Keys(kv)
}
func (kv KV) Value(key string) any {
return kv[key]
}
func (ModelParameters) KV(t *Tokenizer) KV {
kv := KV{
"general.file_type": uint32(1),
"general.quantization_version": uint32(2),
"tokenizer.ggml.pre": t.Pre,
"tokenizer.ggml.model": t.Vocabulary.Model,
"tokenizer.ggml.tokens": t.Vocabulary.Tokens,
"tokenizer.ggml.scores": t.Vocabulary.Scores,
"tokenizer.ggml.token_type": t.Vocabulary.Types,
}
if len(t.Merges) > 0 {
kv["tokenizer.ggml.merges"] = t.Merges
}
if t.Template != "" {
kv["tokenizer.chat_template"] = t.Template
}
for _, sv := range t.SpecialVocabulary {
kv[fmt.Sprintf("tokenizer.ggml.add_%s_token", sv.Key())] = sv.AddToken
kv[fmt.Sprintf("tokenizer.ggml.%s_token_id", sv.Key())] = uint32(sv.ID)
if len(sv.IDs) > 0 {
kv[fmt.Sprintf("tokenizer.ggml.%s_token_ids", sv.Key())] = sv.IDs
}
}
return kv
}
func (p AdapterParameters) KV() KV {
var alpha float32
if p.LoraParameters.Alpha == 0 {
alpha = float32(p.Alpha)
} else {
alpha = p.LoraParameters.Alpha
}
kv := KV{
"adapter.lora.alpha": alpha,
"adapter.type": "lora",
"general.file_type": uint32(1),
"general.type": "adapter",
"general.version": "v0.2",
}
return kv
}
func (ModelParameters) specialTokenTypes() []string {
return []string{
"bos", "eos", "unk", "sep", "pad", "cls", "mask",
}
}
type ModelKV interface {
// KV maps parameters to LLM key-values
KV(*Tokenizer) KV
}
type ModelConverter interface {
ModelKV
// Tensors maps input tensors to LLM tensors. Model specific modifications can be done here.
Tensors([]Tensor) []*ggml.Tensor
// Replacements returns a list of string pairs to replace in tensor names.
// See [strings.Replacer](https://pkg.go.dev/strings#Replacer) for details
Replacements() []string
// specialTokenTypes returns any special token types the model uses
specialTokenTypes() []string
}
type moreParser interface {
parseMore(fs.FS) error
}
type AdapterConverter interface {
// KV maps parameters to LLM key-values
KV(ofs.Config) KV
// Tensors maps input tensors to LLM tensors. Adapter specific modifications can be done here.
Tensors([]Tensor) []*ggml.Tensor
// Replacements returns a list of string pairs to replace in tensor names.
// See [strings.Replacer](https://pkg.go.dev/strings#Replacer) for details
Replacements() []string
}
func ConvertAdapter(fsys fs.FS, f *os.File, baseKV ofs.Config) error {
bts, err := fs.ReadFile(fsys, "adapter_config.json")
if err != nil {
return err
}
var p AdapterParameters
if err := json.Unmarshal(bts, &p); err != nil {
return err
}
arch := baseKV.Architecture()
if arch == "" {
return errors.New("architecture not set for the base model")
}
var conv AdapterConverter
switch arch {
case "llama":
conv = &llamaAdapter{}
case "gemma2":
conv = &gemma2Adapter{}
default:
return errors.New("unsupported architecture")
}
ts, err := parseTensors(fsys, strings.NewReplacer(conv.Replacements()...))
if err != nil {
return err
}
if err := json.Unmarshal(bts, conv); err != nil {
return err
}
return writeFile(f, conv.KV(baseKV), conv.Tensors(ts))
}
func LoadModelMetadata(fsys fs.FS) (ModelKV, *Tokenizer, error) {
bts, err := fs.ReadFile(fsys, "config.json")
if err != nil {
return nil, nil, err
}
bts = sanitizeNonFiniteJSON(bts)
var p ModelParameters
if err := json.Unmarshal(bts, &p); err != nil {
return nil, nil, fmt.Errorf("parse config.json: %w", err)
}
if len(p.Architectures) < 1 {
return nil, nil, errors.New("unknown architecture")
}
var conv ModelConverter
switch p.Architectures[0] {
case "LlamaForCausalLM":
conv = &llamaModel{}
case "MllamaForConditionalGeneration":
conv = &mllamaModel{}
case "Llama4ForConditionalGeneration":
conv = &llama4Model{}
case "Mistral3ForConditionalGeneration":
conv = &mistral3Model{}
case "Ministral3ForCausalLM":
conv = &mistral3CausalModel{}
case "MixtralForCausalLM":
conv = &mixtralModel{}
case "GemmaForCausalLM":
conv = &gemmaModel{}
case "Gemma2ForCausalLM":
conv = &gemma2Model{}
case "Gemma3ForCausalLM", "Gemma3ForConditionalGeneration":
conv = &gemma3Model{Architecture: p.Architectures[0]}
case "Gemma3nForConditionalGeneration":
conv = &gemma3nModel{}
case "Gemma4ForCausalLM", "Gemma4ForConditionalGeneration":
conv = &gemma4Model{Architecture: p.Architectures[0]}
case "Phi3ForCausalLM":
conv = &phi3Model{}
case "Qwen2ForCausalLM":
conv = &qwen2Model{}
case "Qwen2_5_VLForConditionalGeneration":
conv = &qwen25VLModel{}
case "Qwen3VLForConditionalGeneration", "Qwen3VLMoeForConditionalGeneration":
conv = &qwen3VLModel{}
case "Olmo3ForCausalLM":
conv = &olmoModel{}
case "BertModel":
conv = &bertModel{}
case "NomicBertModel", "NomicBertMoEModel":
conv = &nomicbertModel{}
case "CohereForCausalLM":
conv = &commandrModel{}
case "GptOssForCausalLM":
conv = &gptossModel{}
case "DeepseekOCRForCausalLM":
conv = &deepseekocr{}
case "DeepseekV3ForCausalLM":
conv = &deepseek2Model{}
case "Glm4MoeLiteForCausalLM":
conv = &glm4MoeLiteModel{}
case "LagunaForCausalLM":
conv = &lagunaModel{}
case "GlmOcrForConditionalGeneration":
conv = &glmOcrModel{}
case "Lfm2ForCausalLM", "Lfm2MoeForCausalLM":
conv = &lfm2Model{}
case "Lfm2VlForConditionalGeneration":
conv = &lfm2VLTextModel{}
case "Qwen3NextForCausalLM", "Qwen3_5ForConditionalGeneration", "Qwen3_5MoeForConditionalGeneration":
conv = &qwen3NextModel{}
case "NemotronH_Nano_VL_V2", "NemotronH_Nano_Omni_Reasoning_V3":
conv = &nemotronHNanoVLModel{}
case "NemotronHForCausalLM":
conv = &nemotronHModel{}
default:
return nil, nil, fmt.Errorf("unsupported architecture %q", p.Architectures[0])
}
if err := json.Unmarshal(bts, conv); err != nil {
return nil, nil, fmt.Errorf("parse config.json for %q: %w", p.Architectures[0], err)
}
if t, ok := conv.(moreParser); ok {
if err := t.parseMore(fsys); err != nil {
return nil, nil, err
}
}
t, err := parseTokenizer(fsys, conv.specialTokenTypes())
if err != nil {
return nil, nil, err
}
vocabSize := int(cmp.Or(p.VocabSize, p.TextModel.VocabSize))
switch {
case vocabSize == 0:
slog.Debug("vocabulary size was not explicitly set by the model", "default size", len(t.Vocabulary.Tokens))
case vocabSize > len(t.Vocabulary.Tokens):
slog.Debug("vocabulary is smaller than expected, padding with dummy tokens", "expect", vocabSize, "actual", len(t.Vocabulary.Tokens))
for i := range vocabSize - len(t.Vocabulary.Tokens) {
t.Vocabulary.Tokens = append(t.Vocabulary.Tokens, fmt.Sprintf("[PAD%d]", i))
t.Vocabulary.Scores = append(t.Vocabulary.Scores, -1)
t.Vocabulary.Types = append(t.Vocabulary.Types, tokenTypeUserDefined)
}
case vocabSize < len(t.Vocabulary.Tokens):
slog.Debug("vocabulary is larger than expected", "want", vocabSize, "got", len(t.Vocabulary.Tokens))
p.VocabSize = uint32(len(t.Vocabulary.Tokens))
p.TextModel.VocabSize = uint32(len(t.Vocabulary.Tokens))
default:
slog.Debug("vocabulary", "size", len(t.Vocabulary.Tokens))
}
return conv, t, nil
}
// Convert writes an Ollama compatible model to the provided io.WriteSeeker based on configurations
// and files it finds in the input path.
// Supported input model formats include safetensors.
// Supported input tokenizers files include tokenizer.json (preferred) and tokenizer.model.
func ConvertModel(fsys fs.FS, f *os.File) error {
kv, t, err := LoadModelMetadata(fsys)
if err != nil {
return err
}
conv := kv.(ModelConverter)
ts, err := parseTensors(fsys, strings.NewReplacer(conv.Replacements()...))
if err != nil {
return err
}
return writeFile(f, conv.KV(t), conv.Tensors(ts))
}
func writeFile(f *os.File, kv KV, ts []*ggml.Tensor) error {
for k, v := range sourceTensorKV(ts) {
kv[k] = v
}
for i := range ts {
ts[i].Shape = slices.Clone(ts[i].Shape)
slices.Reverse(ts[i].Shape)
}
return ggml.WriteGGUF(f, kv, ts)
}
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