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9679f40146
Models may require that a set of inputs all be processed as part of the same batch. For example, if an image has multiple patches with fully connected attention between them, we should not split the batch in the middle of an image. Fixes #9697
215 lines
6.9 KiB
Go
215 lines
6.9 KiB
Go
package gemma3
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import (
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"math"
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"github.com/ollama/ollama/kvcache"
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"github.com/ollama/ollama/ml"
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"github.com/ollama/ollama/ml/nn"
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"github.com/ollama/ollama/model"
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"github.com/ollama/ollama/model/input"
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)
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type TextOptions struct {
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hiddenSize, numHeads, numKVHeads int
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attnKeyLen, attnValLen int
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eps, ropeScale float32
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ropeLocalBase, ropeGlobalBase float32
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largeModelScaling bool
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}
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type TextModel struct {
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model.Base
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model.SentencePieceModel
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TokenEmbedding *nn.Embedding `gguf:"token_embd"`
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Layers []TextLayer `gguf:"blk"`
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OutputNorm *nn.RMSNorm `gguf:"output_norm"`
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Output *nn.Linear `gguf:"output,alt:token_embd"`
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*TextOptions
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}
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const (
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gemmaGlobalCacheCount = 6
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gemma27BLayerCount = 62
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)
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const (
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cacheTypeSWA = iota
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cacheTypeCausal
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)
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func newTextModel(c ml.Config) *TextModel {
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numBlocks := int(c.Uint("block_count"))
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m := TextModel{
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SentencePieceModel: model.NewSentencePieceModel(
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c.String("tokenizer.ggml.pretokenizer", `(?i:'s|'t|'re|'ve|'m|'ll|'d)|[^\r\n\p{L}\p{N}]?\p{L}+|\p{N}{1,3}| ?[^\s\p{L}\p{N}]+[\r\n]*|\s*[\r\n]+|\s+(?!\S)|\s+`),
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&model.Vocabulary{
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Values: c.Strings("tokenizer.ggml.tokens"),
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Scores: c.Floats("tokenizer.ggml.scores"),
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Types: c.Uints("tokenizer.ggml.token_type"),
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BOS: int32(c.Uint("tokenizer.ggml.bos_token_id")),
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EOS: int32(c.Uint("tokenizer.ggml.eos_token_id")),
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},
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),
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Layers: make([]TextLayer, numBlocks),
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TextOptions: &TextOptions{
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hiddenSize: int(c.Uint("embedding_length")),
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numHeads: int(c.Uint("attention.head_count")),
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numKVHeads: int(c.Uint("attention.head_count_kv")),
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attnKeyLen: int(c.Uint("attention.key_length", 256)),
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attnValLen: int(c.Uint("attention.value_length", 256)),
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eps: c.Float("attention.layer_norm_rms_epsilon", 1e-06),
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ropeLocalBase: c.Float("rope.local.freq_base", 10000.0),
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ropeGlobalBase: c.Float("rope.global.freq_base", 1000000.0),
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ropeScale: c.Float("rope.freq_scale", 1.0),
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},
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}
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if numBlocks == gemma27BLayerCount {
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m.largeModelScaling = true
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}
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return &m
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}
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type TextSelfAttention struct {
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Query *nn.Linear `gguf:"attn_q"`
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QueryNorm *nn.RMSNorm `gguf:"attn_q_norm"`
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Key *nn.Linear `gguf:"attn_k"`
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KeyNorm *nn.RMSNorm `gguf:"attn_k_norm"`
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Value *nn.Linear `gguf:"attn_v"`
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Output *nn.Linear `gguf:"attn_output"`
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}
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func (sa *TextSelfAttention) Forward(ctx ml.Context, layer int, hiddenState, positionIDs ml.Tensor, cache kvcache.Cache, opts *TextOptions) ml.Tensor {
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batchSize := hiddenState.Dim(1)
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ropeType := uint32(2)
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ropeBase := opts.ropeLocalBase
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if (layer+1)%gemmaGlobalCacheCount == 0 {
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ropeBase = opts.ropeGlobalBase
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}
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q := sa.Query.Forward(ctx, hiddenState)
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q = q.Reshape(ctx, opts.attnKeyLen, opts.numHeads, batchSize)
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q = sa.QueryNorm.Forward(ctx, q, opts.eps)
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q = q.RoPE(ctx, positionIDs, nil, uint32(opts.attnKeyLen), ropeType, ropeBase, opts.ropeScale)
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if opts.largeModelScaling {
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q = q.Scale(ctx, 1.0/math.Sqrt(float64(opts.hiddenSize/opts.numHeads)))
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} else {
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q = q.Scale(ctx, 1.0/math.Sqrt(float64(opts.attnKeyLen)))
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}
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k := sa.Key.Forward(ctx, hiddenState)
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k = k.Reshape(ctx, opts.attnKeyLen, opts.numKVHeads, batchSize)
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k = sa.KeyNorm.Forward(ctx, k, opts.eps)
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k = k.RoPE(ctx, positionIDs, nil, uint32(opts.attnKeyLen), ropeType, ropeBase, opts.ropeScale)
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v := sa.Value.Forward(ctx, hiddenState)
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v = v.Reshape(ctx, opts.attnValLen, opts.numKVHeads, batchSize)
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scaleFactor := 1.0
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kqv := nn.Attention(ctx, q, k, v, scaleFactor, cache)
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kqv = kqv.Reshape(ctx, opts.attnValLen*opts.numHeads, batchSize)
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return sa.Output.Forward(ctx, kqv)
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}
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func (m *TextModel) Shift(ctx ml.Context, layer int, key, shift ml.Tensor) (ml.Tensor, error) {
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ropeBase := m.TextOptions.ropeLocalBase
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if (layer+1)%gemmaGlobalCacheCount == 0 {
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ropeBase = m.TextOptions.ropeGlobalBase
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}
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return key.RoPE(ctx, shift, nil, uint32(m.TextOptions.attnKeyLen), uint32(2), ropeBase, m.TextOptions.ropeScale), nil
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}
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type TextMLP struct {
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Up *nn.Linear `gguf:"ffn_up"`
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Down *nn.Linear `gguf:"ffn_down"`
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Gate *nn.Linear `gguf:"ffn_gate"`
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}
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func (mlp *TextMLP) Forward(ctx ml.Context, hiddenState ml.Tensor, opts *TextOptions) ml.Tensor {
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hiddenState = mlp.Gate.Forward(ctx, hiddenState).GELU(ctx).Mul(ctx, mlp.Up.Forward(ctx, hiddenState))
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return mlp.Down.Forward(ctx, hiddenState)
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}
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type TextLayer struct {
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AttentionNorm *nn.RMSNorm `gguf:"attn_norm"`
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SelfAttention *TextSelfAttention
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PostAttentionNorm *nn.RMSNorm `gguf:"post_attention_norm"`
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MLPNorm *nn.RMSNorm `gguf:"ffn_norm"`
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MLP *TextMLP
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PostMLPNorm *nn.RMSNorm `gguf:"post_ffw_norm"`
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}
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func (l *TextLayer) Forward(ctx ml.Context, layer int, hiddenState, positionIDs, outputs ml.Tensor, cache kvcache.Cache, opts *TextOptions) ml.Tensor {
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residual := hiddenState
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hiddenState = l.AttentionNorm.Forward(ctx, hiddenState, opts.eps)
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hiddenState = l.SelfAttention.Forward(ctx, layer, hiddenState, positionIDs, cache, opts)
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hiddenState = l.PostAttentionNorm.Forward(ctx, hiddenState, opts.eps)
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// In the final layer (outputs != nil), optimize by pruning to just the token positions
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// we need logits for.
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if outputs != nil {
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hiddenState = hiddenState.Rows(ctx, outputs)
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residual = residual.Rows(ctx, outputs)
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}
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hiddenState = hiddenState.Add(ctx, residual)
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residual = hiddenState
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hiddenState = l.MLPNorm.Forward(ctx, hiddenState, opts.eps)
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hiddenState = l.MLP.Forward(ctx, hiddenState, opts)
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hiddenState = l.PostMLPNorm.Forward(ctx, hiddenState, opts.eps)
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return hiddenState.Add(ctx, residual)
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}
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func (m *TextModel) Forward(ctx ml.Context, inputs, positions, outputs ml.Tensor, opts input.Options, cache kvcache.Cache) ml.Tensor {
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hiddenState := m.TokenEmbedding.Forward(ctx, inputs)
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hiddenState = hiddenState.Scale(ctx, math.Sqrt(float64(m.TextOptions.hiddenSize)))
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// set image embeddings
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var except []int
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for _, image := range opts.Multimodal {
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visionOutputs := image.Multimodal.(ml.Tensor)
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ctx.Forward(visionOutputs.Copy(ctx, hiddenState.View(ctx, image.Index*hiddenState.Stride(1), visionOutputs.Dim(0)*visionOutputs.Dim(1))))
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for i := range visionOutputs.Dim(1) {
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except = append(except, image.Index+i)
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}
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}
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for i, layer := range m.Layers {
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// gemma alternates between the sliding window (local) and causal (global)
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// kv cache every 6 layers
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cacheType := cacheTypeSWA
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if (i+1)%gemmaGlobalCacheCount == 0 {
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cacheType = cacheTypeCausal
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}
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cache.SetLayer(i)
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wc := cache.(*kvcache.WrapperCache)
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wc.SetLayerType(cacheType)
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if causal, ok := wc.UnderlyingCache().(*kvcache.Causal); ok {
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causal.SetCausal(ctx, kvcache.CausalOptions{Except: except})
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}
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var lastLayerOutputs ml.Tensor
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if i == len(m.Layers)-1 {
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lastLayerOutputs = outputs
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}
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hiddenState = layer.Forward(ctx, i, hiddenState, positions, lastLayerOutputs, cache, m.TextOptions)
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}
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hiddenState = m.OutputNorm.Forward(ctx, hiddenState, m.eps)
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return m.Output.Forward(ctx, hiddenState)
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}
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