hf_text-generation-inference/server/text_generation_server/layers/fp8.py

from enum import Enum, auto

import torch
from text_generation_server.utils.import_utils import SYSTEM


def get_fp8_linear() -> torch.nn.Module:
    """
    Return an FP8 linear `Module` that is compatible with the current system.
    """

    if SYSTEM == "cuda":
        major, minor = torch.cuda.get_device_capability()
        if major == 8 and minor < 9:
            from text_generation_server.layers.marlin import GPTQMarlinFP8Linear

            return GPTQMarlinFP8Linear

    # On other systems let Torch decide if the hardware supports FP8.
    return Fp8Linear


def fp8_quantize(weight, qdtype=torch.float8_e4m3fn):
    device = weight.device
    # weight, scale = quant_weights(weight, torch.int8, False)
    finfo = torch.finfo(qdtype)
    # Calculate the scale as dtype max divided by absmax
    scale = finfo.max / weight.abs().max().clamp(min=1e-12)
    # scale and clamp the tensor to bring it to
    # the representative range of float8 data type
    # (as default cast is unsaturated)
    qweight = (weight * scale).clamp(min=finfo.min, max=finfo.max)
    # Return both float8 data and the inverse scale (as float),
    # as both required as inputs to torch._scaled_mm
    qweight = qweight.to(qdtype)
    scale = scale.float().reciprocal()
    return qweight, scale


class Fp8Linear(torch.nn.Module):
    def __init__(
        self,
        weight,
        bias,
    ) -> None:
        super().__init__()
        self.dtype = weight.dtype
        self.qweight, self.scale = fp8_quantize(weight)

        self.bias = bias if bias is not None else None

    def forward(self, input: torch.Tensor) -> torch.Tensor:
        qinput, scale = fp8_quantize(input)
        output, _ = torch._scaled_mm(
            qinput,
            self.qweight.t(),
            out_dtype=self.dtype,
            scale_a=scale,
            scale_b=self.scale,
            bias=self.bias,
        )
        return output
Add support for FP8 on compute capability >=8.0, <8.9 (#2213) Use FP8 GPTQ-Marlin kernels to enable FP8 support on CUDA GPUs with compute capability >=8.0 and <8.9. Co-authored-by: Florian Zimmermeister <flozi00.fz@gmail.com> 2024-07-11 08:03:26 -06:00			`from enum import Enum, auto`

Refactor layers. (#1866) # What does this PR do? <!-- Congratulations! You've made it this far! You're not quite done yet though. Once merged, your PR is going to appear in the release notes with the title you set, so make sure it's a great title that fully reflects the extent of your awesome contribution. Then, please replace this with a description of the change and which issue is fixed (if applicable). Please also include relevant motivation and context. List any dependencies (if any) that are required for this change. Once you're done, someone will review your PR shortly (see the section "Who can review?" below to tag some potential reviewers). They may suggest changes to make the code even better. If no one reviewed your PR after a week has passed, don't hesitate to post a new comment @-mentioning the same persons---sometimes notifications get lost. --> <!-- Remove if not applicable --> Fixes # (issue) ## Before submitting - [ ] This PR fixes a typo or improves the docs (you can dismiss the other checks if that's the case). - [ ] Did you read the [contributor guideline](https://github.com/huggingface/transformers/blob/main/CONTRIBUTING.md#start-contributing-pull-requests), Pull Request section? - [ ] Was this discussed/approved via a Github issue or the [forum](https://discuss.huggingface.co/)? Please add a link to it if that's the case. - [ ] Did you make sure to update the documentation with your changes? Here are the [documentation guidelines](https://github.com/huggingface/transformers/tree/main/docs), and [here are tips on formatting docstrings](https://github.com/huggingface/transformers/tree/main/docs#writing-source-documentation). - [ ] Did you write any new necessary tests? ## Who can review? Anyone in the community is free to review the PR once the tests have passed. Feel free to tag members/contributors who may be interested in your PR. <!-- Your PR will be replied to more quickly if you can figure out the right person to tag with @ @OlivierDehaene OR @Narsil --> 2024-05-13 04:44:30 -06:00			`import torch`
Add support for FP8 on compute capability >=8.0, <8.9 (#2213) Use FP8 GPTQ-Marlin kernels to enable FP8 support on CUDA GPUs with compute capability >=8.0 and <8.9. Co-authored-by: Florian Zimmermeister <flozi00.fz@gmail.com> 2024-07-11 08:03:26 -06:00			`from text_generation_server.utils.import_utils import SYSTEM`


			`def get_fp8_linear() -> torch.nn.Module:`
			`"""`
			Return an FP8 linear `Module` that is compatible with the current system.
			`"""`

			`if SYSTEM == "cuda":`
			`major, minor = torch.cuda.get_device_capability()`
			`if major == 8 and minor < 9:`
			`from text_generation_server.layers.marlin import GPTQMarlinFP8Linear`

			`return GPTQMarlinFP8Linear`

			`# On other systems let Torch decide if the hardware supports FP8.`
			`return Fp8Linear`
Refactor layers. (#1866) # What does this PR do? <!-- Congratulations! You've made it this far! You're not quite done yet though. Once merged, your PR is going to appear in the release notes with the title you set, so make sure it's a great title that fully reflects the extent of your awesome contribution. Then, please replace this with a description of the change and which issue is fixed (if applicable). Please also include relevant motivation and context. List any dependencies (if any) that are required for this change. Once you're done, someone will review your PR shortly (see the section "Who can review?" below to tag some potential reviewers). They may suggest changes to make the code even better. If no one reviewed your PR after a week has passed, don't hesitate to post a new comment @-mentioning the same persons---sometimes notifications get lost. --> <!-- Remove if not applicable --> Fixes # (issue) ## Before submitting - [ ] This PR fixes a typo or improves the docs (you can dismiss the other checks if that's the case). - [ ] Did you read the [contributor guideline](https://github.com/huggingface/transformers/blob/main/CONTRIBUTING.md#start-contributing-pull-requests), Pull Request section? - [ ] Was this discussed/approved via a Github issue or the [forum](https://discuss.huggingface.co/)? Please add a link to it if that's the case. - [ ] Did you make sure to update the documentation with your changes? Here are the [documentation guidelines](https://github.com/huggingface/transformers/tree/main/docs), and [here are tips on formatting docstrings](https://github.com/huggingface/transformers/tree/main/docs#writing-source-documentation). - [ ] Did you write any new necessary tests? ## Who can review? Anyone in the community is free to review the PR once the tests have passed. Feel free to tag members/contributors who may be interested in your PR. <!-- Your PR will be replied to more quickly if you can figure out the right person to tag with @ @OlivierDehaene OR @Narsil --> 2024-05-13 04:44:30 -06:00

			`def fp8_quantize(weight, qdtype=torch.float8_e4m3fn):`
			`device = weight.device`
			`# weight, scale = quant_weights(weight, torch.int8, False)`
			`finfo = torch.finfo(qdtype)`
			`# Calculate the scale as dtype max divided by absmax`
			`scale = finfo.max / weight.abs().max().clamp(min=1e-12)`
			`# scale and clamp the tensor to bring it to`
			`# the representative range of float8 data type`
			`# (as default cast is unsaturated)`
			`qweight = (weight * scale).clamp(min=finfo.min, max=finfo.max)`
			`# Return both float8 data and the inverse scale (as float),`
			`# as both required as inputs to torch._scaled_mm`
			`qweight = qweight.to(qdtype)`
			`scale = scale.float().reciprocal()`
			`return qweight, scale`


			`class Fp8Linear(torch.nn.Module):`
			`def __init__(`
			`self,`
			`weight,`
			`bias,`
			`) -> None:`
			`super().__init__()`
			`self.dtype = weight.dtype`
			`self.qweight, self.scale = fp8_quantize(weight)`

			`self.bias = bias if bias is not None else None`

			`def forward(self, input: torch.Tensor) -> torch.Tensor:`
			`qinput, scale = fp8_quantize(input)`
			`output, _ = torch._scaled_mm(`
			`qinput,`
			`self.qweight.t(),`
			`out_dtype=self.dtype,`
			`scale_a=scale,`
			`scale_b=self.scale,`
			`bias=self.bias,`
			`)`
			`return output`