2024-06-01 03:00:49 +00:00
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package convert
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import (
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"cmp"
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"fmt"
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2024-07-29 21:53:02 +00:00
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"math"
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2024-06-01 03:00:49 +00:00
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"strings"
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"github.com/pdevine/tensor"
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"github.com/pdevine/tensor/native"
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2024-08-01 21:52:15 +00:00
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"github.com/ollama/ollama/llm"
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2024-06-01 03:00:49 +00:00
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)
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2024-08-23 18:29:56 +00:00
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type llamaModel struct {
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ModelParameters
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NLayers uint32 `json:"n_layers"`
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NumHiddenLayers uint32 `json:"num_hidden_layers"`
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NLayer uint32 `json:"n_layer"`
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MaxPositionEmbeddings uint32 `json:"max_position_embeddings"`
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NCtx uint32 `json:"n_ctx"`
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HiddenSize uint32 `json:"hidden_size"`
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NEmbd uint32 `json:"n_embd"`
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IntermediateSize uint32 `json:"intermediate_size"`
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NInner uint32 `json:"n_inner"`
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NumAttentionHeads uint32 `json:"num_attention_heads"`
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NHead uint32 `json:"n_head"`
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NumKeyValueHeads uint32 `json:"num_key_value_heads"`
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RopeTheta float32 `json:"rope_theta"`
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RopeScaling struct {
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Type string `json:"type"`
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RopeType string `json:"rope_type"`
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Factor float32 `json:"factor"`
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LowFrequencyFactor float32 `json:"low_freq_factor"`
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HighFrequencyFactor float32 `json:"high_freq_factor"`
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OriginalMaxPositionalEmbeddings uint32 `json:"original_max_positional_embeddings"`
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factors ropeFactor
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} `json:"rope_scaling"`
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RMSNormEPS float32 `json:"rms_norm_eps"`
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LayerNormEPS float32 `json:"layer_norm_eps"`
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LayerNormEpsilon float32 `json:"layer_norm_epsilon"`
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NormEpsilon float32 `json:"norm_epsilon"`
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HeadDim uint32 `json:"head_dim"`
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}
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var _ ModelConverter = (*llamaModel)(nil)
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func (p *llamaModel) KV(t *Tokenizer) llm.KV {
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kv := p.ModelParameters.KV(t)
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kv["general.architecture"] = "llama"
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kv["llama.vocab_size"] = p.VocabSize
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kv["llama.block_count"] = cmp.Or(p.NLayers, p.NumHiddenLayers, p.NLayer)
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if contextLength := cmp.Or(p.MaxPositionEmbeddings, p.NCtx); contextLength > 0 {
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kv["llama.context_length"] = contextLength
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}
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if embeddingLength := cmp.Or(p.HiddenSize, p.NEmbd); embeddingLength > 0 {
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kv["llama.embedding_length"] = cmp.Or(p.HiddenSize, p.NEmbd)
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}
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if feedForwardLength := cmp.Or(p.IntermediateSize, p.NInner); feedForwardLength > 0 {
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kv["llama.feed_forward_length"] = cmp.Or(p.IntermediateSize, p.NInner)
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}
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if headCount := cmp.Or(p.NumAttentionHeads, p.NHead); headCount > 0 {
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kv["llama.attention.head_count"] = cmp.Or(p.NumAttentionHeads, p.NHead)
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kv["llama.rope.dimension_count"] = p.HiddenSize / headCount
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}
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if p.RopeTheta > 0 {
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kv["llama.rope.freq_base"] = p.RopeTheta
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}
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if p.RopeScaling.Type == "linear" {
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kv["llama.rope.scaling.type"] = p.RopeScaling.Type
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kv["llama.rope.scaling.factor"] = p.RopeScaling.Factor
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} else if p.RopeScaling.RopeType == "llama3" {
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dim := p.HiddenSize / p.NumAttentionHeads
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for i := uint32(0); i < dim; i += 2 {
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factor := cmp.Or(p.RopeScaling.Factor, 8.0)
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factorLow := cmp.Or(p.RopeScaling.LowFrequencyFactor, 1.0)
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factorHigh := cmp.Or(p.RopeScaling.HighFrequencyFactor, 4.0)
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original := cmp.Or(p.RopeScaling.OriginalMaxPositionalEmbeddings, 8192)
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lambdaLow := float32(original) / factorLow
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lambdaHigh := float32(original) / factorHigh
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lambda := 2 * math.Pi * math.Pow(float64(p.RopeTheta), float64(i)/float64(dim))
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if lambda < float64(lambdaHigh) {
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p.RopeScaling.factors = append(p.RopeScaling.factors, 1.0)
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} else if lambda > float64(lambdaLow) {
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p.RopeScaling.factors = append(p.RopeScaling.factors, factor)
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} else {
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smooth := (float32(original)/float32(lambda) - factorLow) / (factorHigh - factorLow)
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p.RopeScaling.factors = append(p.RopeScaling.factors, 1.0/((1-smooth)/factor+smooth))
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}
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}
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}
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if p.NumKeyValueHeads > 0 {
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kv["llama.attention.head_count_kv"] = p.NumKeyValueHeads
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}
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if p.RMSNormEPS > 0 {
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kv["llama.attention.layer_norm_rms_epsilon"] = p.RMSNormEPS
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}
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if layerNormEpsilon := cmp.Or(p.LayerNormEPS, p.LayerNormEpsilon, p.NormEpsilon); layerNormEpsilon > 0 {
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kv["llama.attention.layer_norm_epsilon"] = layerNormEpsilon
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}
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if p.HeadDim > 0 {
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kv["llama.attention.key_length"] = p.HeadDim
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kv["llama.attention.value_length"] = p.HeadDim
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}
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return kv
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}
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func (p *llamaModel) Tensors(ts []Tensor) []llm.Tensor {
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var out []llm.Tensor
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if p.RopeScaling.factors != nil {
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out = append(out, llm.Tensor{
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Name: "rope_freqs.weight",
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Kind: 0,
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Shape: []uint64{uint64(len(p.RopeScaling.factors))},
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WriterTo: p.RopeScaling.factors,
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})
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}
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for _, t := range ts {
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if strings.HasSuffix(t.Name(), "attn_q.weight") ||
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strings.HasSuffix(t.Name(), "attn_k.weight") {
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t.SetRepacker(p.repack)
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}
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out = append(out, llm.Tensor{
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Name: t.Name(),
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Kind: t.Kind(),
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Shape: t.Shape(),
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WriterTo: t,
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})
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}
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return out
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}
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func (p *llamaModel) Replacements() []string {
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return []string{
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"lm_head", "output",
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"model.embed_tokens", "token_embd",
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"model.norm", "output_norm",
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"model.layers", "blk",
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"input_layernorm", "attn_norm",
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"self_attn.q_proj", "attn_q",
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"self_attn.k_proj", "attn_k",
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"self_attn.v_proj", "attn_v",
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"self_attn.o_proj", "attn_output",
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"mlp.gate_proj", "ffn_gate",
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"mlp.down_proj", "ffn_down",
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"mlp.up_proj", "ffn_up",
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"post_attention_layernorm", "ffn_norm",
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}
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}
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func (p *llamaModel) repack(name string, data []float32, shape []uint64) ([]float32, error) {
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var dims []int
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for _, dim := range shape {
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dims = append(dims, int(dim))
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}
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var heads uint32
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if strings.HasSuffix(name, "attn_q.weight") {
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heads = p.NumAttentionHeads
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} else if strings.HasSuffix(name, "attn_k.weight") {
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heads = cmp.Or(p.NumKeyValueHeads, p.NumAttentionHeads)
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} else {
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return nil, fmt.Errorf("unknown tensor for repack: %s", name)
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}
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n := tensor.New(tensor.WithShape(dims...), tensor.WithBacking(data))
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if err := n.Reshape(append([]int{int(heads), 2, dims[0] / int(heads) / 2}, dims[1:]...)...); err != nil {
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return nil, err
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}
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if err := n.T(0, 2, 1, 3); err != nil {
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return nil, err
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}
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if err := n.Reshape(dims...); err != nil {
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return nil, err
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}
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if err := n.Transpose(); err != nil {
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return nil, err
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}
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ts, err := native.SelectF32(n, 1)
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if err != nil {
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return nil, err
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}
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var f32s []float32
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for _, t := range ts {
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f32s = append(f32s, t...)
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}
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return f32s, nil
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}
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