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import torch |
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from typing import Tuple |
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def precompute_freqs_cis(dim: int, end: int, theta: float = 10000.0): |
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""" |
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Precompute the frequency tensor for complex exponentials (cis) with given dimensions. |
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This function calculates a frequency tensor with complex exponentials using the given dimension 'dim' |
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and the end index 'end'. The 'theta' parameter scales the frequencies. |
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The returned tensor contains complex values in complex64 data type. |
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Args: |
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dim (int): Dimension of the frequency tensor. |
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end (int): End index for precomputing frequencies. |
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theta (float, optional): Scaling factor for frequency computation. Defaults to 10000.0. |
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Returns: |
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torch.Tensor: Precomputed frequency tensor with complex exponentials. |
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""" |
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freqs = 1.0 / (theta ** (torch.arange(0, dim, 2)[: (dim // 2)].float() / dim)) |
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t = torch.arange(end, device=freqs.device) |
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freqs = torch.outer(t, freqs).float() |
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return torch.polar(torch.ones_like(freqs), freqs) |
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def reshape_for_broadcast(freqs_cis: torch.Tensor, x: torch.Tensor): |
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""" |
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Reshape frequency tensor for broadcasting it with another tensor. |
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This function reshapes the frequency tensor to have the same shape as the target tensor 'x' |
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for the purpose of broadcasting the frequency tensor during element-wise operations. |
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Args: |
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freqs_cis (torch.Tensor): Frequency tensor to be reshaped. |
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x (torch.Tensor): Target tensor for broadcasting compatibility. |
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Returns: |
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torch.Tensor: Reshaped frequency tensor. |
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Raises: |
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AssertionError: If the frequency tensor doesn't match the expected shape. |
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AssertionError: If the target tensor 'x' doesn't have the expected number of dimensions. |
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""" |
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ndim = x.ndim |
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assert 0 <= 1 < ndim |
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assert freqs_cis.shape == (x.shape[1], x.shape[-1]) |
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shape = [d if i == 1 or i == ndim - 1 else 1 for i, d in enumerate(x.shape)] |
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return freqs_cis.view(*shape) |
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def apply_rotary_emb( |
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xq: torch.Tensor, |
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xk: torch.Tensor, |
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freqs_cis: torch.Tensor, |
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) -> Tuple[torch.Tensor, torch.Tensor]: |
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""" |
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Apply rotary embeddings to input tensors using the given frequency tensor. |
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This function applies rotary embeddings to the given query 'xq' and key 'xk' tensors using the provided |
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frequency tensor 'freqs_cis'. The input tensors are reshaped as complex numbers, and the frequency tensor |
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is reshaped for broadcasting compatibility. The resulting tensors contain rotary embeddings and are |
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returned as real tensors. |
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Args: |
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xq (torch.Tensor): Query tensor to apply rotary embeddings. |
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xk (torch.Tensor): Key tensor to apply rotary embeddings. |
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freqs_cis (torch.Tensor): Precomputed frequency tensor for complex exponentials. |
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Returns: |
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Tuple[torch.Tensor, torch.Tensor]: Tuple of modified query tensor and key tensor with rotary embeddings. |
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""" |
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xq_ = torch.view_as_complex(xq.float().reshape(*xq.shape[:-1], -1, 2)) |
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xk_ = torch.view_as_complex(xk.float().reshape(*xk.shape[:-1], -1, 2)) |
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freqs_cis = reshape_for_broadcast(freqs_cis, xq_) |
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xq_out = torch.view_as_real(xq_ * freqs_cis).flatten(3) |
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xk_out = torch.view_as_real(xk_ * freqs_cis).flatten(3) |
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return xq_out.type_as(xq), xk_out.type_as(xk) |
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