use uint8 dtype for qlora

support for configurable group and bin size for sample packing
fix xformers inference
2025-05-05 08:27:34 -04:00 · 2025-05-05 06:57:21 -04:00 · 2025-05-05 06:20:31 -04:00 · 2025-05-05 03:49:01 -04:00 · 2025-05-05 03:22:02 -04:00 · 2025-05-04 23:24:46 -04:00
82 changed files with 929 additions and 3164 deletions
--- a/.github/workflows/multi-gpu-e2e.yml
+++ b/.github/workflows/multi-gpu-e2e.yml
@@ -3,7 +3,7 @@ name: docker-multigpu-tests-biweekly
 on:
  pull_request:
    paths:
-      - 'tests/e2e/multigpu/**.py'
+      - 'tests/e2e/multigpu/*.py'
      - 'requirements.txt'
      - 'setup.py'
      - 'pyproject.toml'
--- a/.github/workflows/tests-nightly.yml
+++ b/.github/workflows/tests-nightly.yml
@@ -18,96 +18,9 @@ jobs:
        env:
          SKIP: no-commit-to-branch
  preload-cache:
    name: Preload HF cache
    runs-on: ubuntu-latest
    strategy:
      fail-fast: false
      matrix:
        python_version: ["3.11"]
        pytorch_version: ["2.6.0"]
    timeout-minutes: 20
    env:
      AXOLOTL_IS_CI_CACHE_PRELOAD: "1"
    steps:
      - name: Check out repository code
        uses: actions/checkout@v4
      - name: Restore HF cache
        id: hf-cache-restore
        uses: actions/cache/restore@v4
        with:
          path: |
            /home/runner/.cache/huggingface/hub/datasets--*
            /home/runner/.cache/huggingface/hub/models--*
          key: ${{ runner.os }}-hf-hub-cache-v2
      - name: Setup Python
        uses: actions/setup-python@v5
        with:
          python-version: ${{ matrix.python_version }}
          cache: 'pip' # caching pip dependencies
      - name: upgrade pip
        run: |
          pip3 install --upgrade pip
          pip3 install --upgrade packaging==23.2 setuptools==75.8.0 wheel
      - name: Install PyTorch
        run: |
          pip3 install torch==${{ matrix.pytorch_version }}
      - name: Install dependencies
        run: |
          pip3 show torch
          pip3 install --no-build-isolation -U -e .
          python scripts/unsloth_install.py | sh
          python scripts/cutcrossentropy_install.py | sh
          pip3 install -r requirements-dev.txt -r requirements-tests.txt
      - name: Make sure PyTorch version wasn't clobbered
        run: |
          python -c "import torch; assert '${{ matrix.pytorch_version }}' in torch.__version__"
      - name: Ensure axolotl CLI was installed
        run: |
          axolotl --help
      - name: Pre-Download dataset fixture
        run: |
          huggingface-cli download --repo-type=dataset axolotl-ai-internal/axolotl-oss-dataset-fixtures
      - name: Run tests
        run: |
          pytest -v tests/conftest.py
      - name: Upload coverage to Codecov
        uses: codecov/codecov-action@v5
        with:
          token: ${{ secrets.CODECOV_TOKEN }}
          files: ./coverage.xml
          flags: unittests,pytorch-${{ matrix.pytorch_version }}
          fail_ci_if_error: false
      - name: cleanup pip cache
        run: |
          find "$(pip cache dir)/http-v2" -type f -mtime +14 -exec rm {} \;
      - name: Save HF cache
        id: hf-cache
        uses: actions/cache/save@v4
        with:
          path: |
            /home/runner/.cache/huggingface/hub/datasets--*
            /home/runner/.cache/huggingface/hub/models--*
          key: ${{ steps.hf-cache-restore.outputs.cache-primary-key }}
  pytest:
    name: PyTest
    runs-on: ubuntu-latest
    needs: [preload-cache]
    strategy:
      fail-fast: false
      max-parallel: 2
--- a/.github/workflows/tests.yml
+++ b/.github/workflows/tests.yml
@@ -44,104 +44,12 @@ jobs:
        env:
          SKIP: no-commit-to-branch
 #  preload-cache:
 #    name: Preload HF cache
 #    runs-on: ubuntu-latest
 #    strategy:
 #      fail-fast: false
 #      matrix:
 #        python_version: ["3.11"]
 #        pytorch_version: ["2.6.0"]
 #    timeout-minutes: 20
 #
 #    env:
 #      AXOLOTL_IS_CI_CACHE_PRELOAD: "1"
 #
 #    steps:
 #      - name: Check out repository code
 #        uses: actions/checkout@v4
 #
 #      - name: Restore HF cache
 #        id: hf-cache-restore
 #        uses: actions/cache/restore@v4
 #        with:
 #          path: |
 #            /home/runner/.cache/huggingface/hub/datasets--*
 #            /home/runner/.cache/huggingface/hub/models--*
 #          key: ${{ runner.os }}-hf-hub-cache-v2
 #
 #      - name: Restore Cache from S3
 #        id: hf-cache-restore-s3
 #        run: |
 #          mkdir -p /home/runner/.cache/huggingface/hub
 #          curl -L https://d1dttdx32dkk5p.cloudfront.net/hf-cache.tar.zst | tar -xf - -C /home/runner/.cache/huggingface/hub/  --use-compress-program unzstd
 #
 #      - name: Setup Python
 #        uses: actions/setup-python@v5
 #        with:
 #          python-version: ${{ matrix.python_version }}
 #          cache: 'pip' # caching pip dependencies
 #
 #      - name: upgrade pip
 #        run: |
 #          pip3 install --upgrade pip
 #          pip3 install --upgrade packaging==23.2 setuptools==75.8.0 wheel
 #
 #      - name: Install PyTorch
 #        run: |
 #          pip3 install torch==${{ matrix.pytorch_version }}
 #
 #      - name: Install dependencies
 #        run: |
 #          pip3 show torch
 #          pip3 install --no-build-isolation -U -e .
 #          python scripts/unsloth_install.py | sh
 #          python scripts/cutcrossentropy_install.py | sh
 #          pip3 install -r requirements-dev.txt -r requirements-tests.txt
 #
 #      - name: Make sure PyTorch version wasn't clobbered
 #        run: |
 #          python -c "import torch; assert '${{ matrix.pytorch_version }}' in torch.__version__"
 #
 #      - name: Ensure axolotl CLI was installed
 #        run: |
 #          axolotl --help
 #
 #      - name: Pre-Download dataset fixture
 #        run: |
 #          huggingface-cli download --repo-type=dataset axolotl-ai-internal/axolotl-oss-dataset-fixtures
 #
 #      - name: Run tests
 #        run: |
 #          pytest -v tests/conftest.py
 #
 #      - name: Upload coverage to Codecov
 #        uses: codecov/codecov-action@v5
 #        with:
 #          token: ${{ secrets.CODECOV_TOKEN }}
 #          files: ./coverage.xml
 #          flags: unittests,pytorch-${{ matrix.pytorch_version }}
 #          fail_ci_if_error: false
 #
 #      - name: cleanup pip cache
 #        run: |
 #          find "$(pip cache dir)/http-v2" -type f -mtime +14 -exec rm {} \;
 #
 #      - name: Save HF cache
 #        id: hf-cache
 #        uses: actions/cache/save@v4
 #        with:
 #          path: |
 #            /home/runner/.cache/huggingface/hub/datasets--*
 #            /home/runner/.cache/huggingface/hub/models--*
 #          key: ${{ steps.hf-cache-restore.outputs.cache-primary-key }}
  pytest:
    name: PyTest
    runs-on: ubuntu-latest
 #    needs: [preload-cache]
    strategy:
      fail-fast: false
      max-parallel: 2
      matrix:
        python_version: ["3.11"]
        pytorch_version: ["2.5.1", "2.6.0", "2.7.0"]
@@ -151,20 +59,14 @@ jobs:
      - name: Check out repository code
        uses: actions/checkout@v4
-#      - name: Restore HF cache
+      - name: Restore HF cache
-#        id: hf-cache-restore
+        id: hf-cache-restore
-#        uses: actions/cache/restore@v4
+        uses: actions/cache/restore@v4
-#        with:
+        with:
-#          path: |
+          path: |
-#            /home/runner/.cache/huggingface/hub/datasets--*
+            /home/runner/.cache/huggingface/hub/datasets--*
-#            /home/runner/.cache/huggingface/hub/models--*
+            /home/runner/.cache/huggingface/hub/models--*
-#          key: ${{ runner.os }}-hf-hub-cache-v2
+          key: ${{ runner.os }}-hf-hub-cache-v2
      - name: Restore Cache from S3
        id: hf-cache-restore-s3
        run: |
          mkdir -p /home/runner/.cache/huggingface/hub
          curl -L https://d1dttdx32dkk5p.cloudfront.net/hf-cache.tar.zst | tar -xf - -C /home/runner/.cache/huggingface/hub/  --use-compress-program unzstd
      - name: Setup Python
        uses: actions/setup-python@v5
@@ -219,12 +121,21 @@ jobs:
        run: |
          find "$(pip cache dir)/http-v2" -type f -mtime +14 -exec rm {} \;
      - name: Save HF cache
        id: hf-cache
        uses: actions/cache/save@v4
        with:
          path: |
            /home/runner/.cache/huggingface/hub/datasets--*
            /home/runner/.cache/huggingface/hub/models--*
          key: ${{ steps.hf-cache-restore.outputs.cache-primary-key }}
  pytest-sdist:
    name: PyTest from Source Dist
    runs-on: ubuntu-latest
 #    needs: [preload-cache]
    strategy:
      fail-fast: false
      max-parallel: 1
      matrix:
        python_version: ["3.11"]
        pytorch_version: ["2.5.1", "2.6.0", "2.7.0"]
@@ -234,20 +145,14 @@ jobs:
      - name: Check out repository code
        uses: actions/checkout@v4
-#      - name: Restore HF cache
+      - name: Restore HF cache
-#        id: hf-cache-restore
+        id: hf-cache-restore
-#        uses: actions/cache/restore@v4
+        uses: actions/cache/restore@v4
-#        with:
+        with:
-#          path: |
+          path: |
-#            /home/runner/.cache/huggingface/hub/datasets--*
+            /home/runner/.cache/huggingface/hub/datasets--*
-#            /home/runner/.cache/huggingface/hub/models--*
+            /home/runner/.cache/huggingface/hub/models--*
-#          key: ${{ runner.os }}-hf-hub-cache-v2
+          key: ${{ runner.os }}-hf-hub-cache-v2
      - name: Restore Cache from S3
        id: hf-cache-restore-s3
        run: |
          mkdir -p /home/runner/.cache/huggingface/hub
          curl -L https://d1dttdx32dkk5p.cloudfront.net/hf-cache.tar.zst | tar -xf - -C /home/runner/.cache/huggingface/hub/  --use-compress-program unzstd
      - name: Setup Python
        uses: actions/setup-python@v5
@@ -294,6 +199,15 @@ jobs:
        run: |
          find "$(pip cache dir)/http-v2" -type f -mtime +14 -exec rm {} \;
      - name: Save HF cache
        id: hf-cache
        uses: actions/cache/save@v4
        with:
          path: |
            /home/runner/.cache/huggingface/hub/datasets--*
            /home/runner/.cache/huggingface/hub/models--*
          key: ${{ steps.hf-cache-restore.outputs.cache-primary-key }}
  docker-e2e-tests-1st:
    if: ${{ ! contains(github.event.commits[0].message, '[skip e2e]') && github.repository_owner == 'axolotl-ai-cloud' }}
    # this job needs to be run on self-hosted GPU runners...
@@ -353,6 +267,12 @@ jobs:
            pytorch: 2.6.0
            num_gpus: 1
            axolotl_extras: llmcompressor
          - cuda: 124
            cuda_version: 12.4.1
            python_version: "3.11"
            pytorch: 2.4.1
            num_gpus: 1
            axolotl_extras:
          - cuda: 124
            cuda_version: 12.4.1
            python_version: "3.11"
@@ -389,43 +309,3 @@ jobs:
      - name: Run tests job on Modal
        run: |
          modal run cicd.e2e_tests
  docker-e2e-cleanup:
    runs-on: [self-hosted, modal]
    timeout-minutes: 90
    needs: [docker-e2e-tests]
    strategy:
      fail-fast: false
      matrix:
        include:
          - cuda: 124
            cuda_version: 12.4.1
            python_version: "3.11"
            pytorch: 2.6.0
            num_gpus: 1
            axolotl_extras: vllm
    steps:
      - name: Checkout
        uses: actions/checkout@v4
      - name: Install Python
        uses: actions/setup-python@v5
        with:
          python-version: "3.11"
      - name: Install Modal
        run: |
          python -m pip install --upgrade pip
          pip install modal==0.71.8 jinja2
      - name: Update env vars
        run: |
          echo "BASE_TAG=main-base-py${{ matrix.python_version }}-cu${{ matrix.cuda }}-${{ matrix.pytorch }}" >> $GITHUB_ENV
          echo "PYTORCH_VERSION=${{ matrix.pytorch}}" >> $GITHUB_ENV
          echo "AXOLOTL_ARGS=${{ matrix.axolotl_args}}" >> $GITHUB_ENV
          echo "AXOLOTL_EXTRAS=${{ matrix.axolotl_extras}}" >> $GITHUB_ENV
          echo "CUDA=${{ matrix.cuda }}" >> $GITHUB_ENV
          echo "MODAL_IMAGE_BUILDER_VERSION=2024.10" >> $GITHUB_ENV
          echo "N_GPUS=${{ matrix.num_gpus }}" >> $GITHUB_ENV
          echo "CODECOV_TOKEN=${{ secrets.CODECOV_TOKEN }}" >> $GITHUB_ENV
      - name: Run tests job on Modal
        run: |
          modal run cicd.cleanup
--- a/.runpod/src/handler.py
+++ b/.runpod/src/handler.py
@@ -57,10 +57,8 @@ async def handler(job):
    logger.info("Training Complete.")
    # Cleanup
-    if "WANDB_API_KEY" in os.environ:
+    del os.environ["WANDB_API_KEY"]
-        del os.environ["WANDB_API_KEY"]
+    del os.environ["HF_TOKEN"]
    if "HF_TOKEN" in os.environ:
        del os.environ["HF_TOKEN"]
 runpod.serverless.start({"handler": handler, "return_aggregate_stream": True})
--- a/_quarto.yml
+++ b/_quarto.yml
@@ -48,23 +48,8 @@ quartodoc:
      contents:
        - core.trainers.base
        - core.trainers.trl
        - core.trainers.mamba
        - core.trainers.relora
        - core.trainers.dpo.trainer
        - core.trainers.grpo.trainer
        - core.trainers.grpo.sampler
        - core.trainers.utils
    - title: Mixins
      desc: Mixin classes for augmenting trainers
      contents:
        - core.trainers.mixins.optimizer
        - core.trainers.mixins.rng_state_loader
        - core.trainers.mixins.scheduler
        - core.trainers.mixins.sequence_parallel
    - title: Context Managers
      desc: Context managers for altering trainer behaviors
      contents:
        - utils.ctx_managers.sequence_parallel
    - title: Prompt Strategies
      desc: Prompt formatting strategies
      contents:
@@ -101,7 +86,7 @@ quartodoc:
        - kernels.swiglu
        - kernels.quantize
        - kernels.utils
-    - title: Monkey Patches
+    - title: MonkeyPatches
      desc: Runtime patches for model optimizations
      contents:
        - monkeypatch.llama_attn_hijack_flash
--- a/cicd/cicd.sh
+++ b/cicd/cicd.sh
@@ -18,7 +18,7 @@ pytest -v --durations=10 \
  --cov-append
 # Run patched tests excluding lora kernels with coverage append
-pytest --full-trace -vvv --durations=10 \
+pytest -v --durations=10 \
  --ignore=tests/e2e/patched/lora_kernels \
  /workspace/axolotl/tests/e2e/patched \
  --cov=axolotl \
--- a/cicd/cleanup.py
+++ b/cicd/cleanup.py
@@ -1,19 +0,0 @@
 """Modal app to run axolotl GPU cleanup"""
 from .single_gpu import VOLUME_CONFIG, app, cicd_image, run_cmd
@app.function(
    image=cicd_image,
    timeout=60 * 60,
    cpu=8.0,
    memory=131072,
    volumes=VOLUME_CONFIG,
 )
 def cleanup():
    run_cmd("./cicd/cleanup.sh", "/workspace/axolotl")
@app.local_entrypoint()
 def main():
    cleanup.remote()
--- a/cicd/cleanup.sh
+++ b/cicd/cleanup.sh
@@ -1,6 +0,0 @@
 #!/bin/bash
 set -e
 # cleanup old cache files for datasets processing and intermediate mappings
 find /workspace/data/huggingface-cache/hub/datasets -name "cache-*" -type f -mtime +1 -exec rm {} \;
 find /workspace/data/huggingface-cache/hub/datasets -name "*.lock" -type f -mtime +1 -exec rm {} \;
--- a/cicd/e2e_tests.py
+++ b/cicd/e2e_tests.py
@@ -1,12 +1,75 @@
 """Modal app to run axolotl GPU tests"""
-from .single_gpu import GPU_CONFIG, VOLUME_CONFIG, app, cicd_image, run_cmd
+# pylint: disable=duplicate-code
 import os
 import pathlib
 import tempfile
 import jinja2
 import modal
 from jinja2 import select_autoescape
 from modal import App, Image
 cicd_path = pathlib.Path(__file__).parent.resolve()
 template_loader = jinja2.FileSystemLoader(searchpath=cicd_path)
 template_env = jinja2.Environment(
    loader=template_loader, autoescape=select_autoescape()
 )
 df_template = template_env.get_template("Dockerfile.jinja")
 df_args = {
    "AXOLOTL_EXTRAS": os.environ.get("AXOLOTL_EXTRAS", ""),
    "AXOLOTL_ARGS": os.environ.get("AXOLOTL_ARGS", ""),
    "PYTORCH_VERSION": os.environ.get("PYTORCH_VERSION", "2.4.1"),
    "BASE_TAG": os.environ.get("BASE_TAG", "main-base-py3.11-cu121-2.4.1"),
    "CUDA": os.environ.get("CUDA", "121"),
    "GITHUB_REF": os.environ.get("GITHUB_REF", "refs/heads/main"),
    "GITHUB_SHA": os.environ.get("GITHUB_SHA", ""),
    "NIGHTLY_BUILD": os.environ.get("NIGHTLY_BUILD", ""),
    "CODECOV_TOKEN": os.environ.get("CODECOV_TOKEN", ""),
    "HF_HOME": "/workspace/data/huggingface-cache/hub",
 }
 dockerfile_contents = df_template.render(**df_args)
 temp_dir = tempfile.mkdtemp()
 with open(pathlib.Path(temp_dir) / "Dockerfile", "w", encoding="utf-8") as f:
    f.write(dockerfile_contents)
 cicd_image = Image.from_dockerfile(
    pathlib.Path(temp_dir) / "Dockerfile",
    context_mount=None,
    force_build=True,
    gpu="A10G",
 ).env(df_args)
 app = App("Axolotl CI/CD", secrets=[])
 hf_cache_volume = modal.Volume.from_name(
    "axolotl-ci-hf-hub-cache", create_if_missing=True
 )
 VOLUME_CONFIG = {
    "/workspace/data/huggingface-cache/hub": hf_cache_volume,
 }
 N_GPUS = int(os.environ.get("N_GPUS", 1))
 GPU_CONFIG = modal.gpu.L40S(count=N_GPUS)
 def run_cmd(cmd: str, run_folder: str):
    import subprocess  # nosec
    # Propagate errors from subprocess.
    if exit_code := subprocess.call(cmd.split(), cwd=run_folder):  # nosec
        exit(exit_code)  # pylint: disable=consider-using-sys-exit
@app.function(
    image=cicd_image,
    gpu=GPU_CONFIG,
-    timeout=90 * 60,  # 90 min
+    timeout=60 * 60,
    cpu=8.0,
    memory=131072,
    volumes=VOLUME_CONFIG,
--- a/cicd/single_gpu.py
+++ b/cicd/single_gpu.py
@@ -1,66 +0,0 @@
 """Modal app to run axolotl GPU tests"""
 # pylint: disable=duplicate-code
 import os
 import pathlib
 import tempfile
 import jinja2
 import modal
 from jinja2 import select_autoescape
 from modal import App, Image
 cicd_path = pathlib.Path(__file__).parent.resolve()
 template_loader = jinja2.FileSystemLoader(searchpath=cicd_path)
 template_env = jinja2.Environment(
    loader=template_loader, autoescape=select_autoescape()
 )
 df_template = template_env.get_template("Dockerfile.jinja")
 df_args = {
    "AXOLOTL_EXTRAS": os.environ.get("AXOLOTL_EXTRAS", ""),
    "AXOLOTL_ARGS": os.environ.get("AXOLOTL_ARGS", ""),
    "PYTORCH_VERSION": os.environ.get("PYTORCH_VERSION", "2.4.1"),
    "BASE_TAG": os.environ.get("BASE_TAG", "main-base-py3.11-cu121-2.4.1"),
    "CUDA": os.environ.get("CUDA", "121"),
    "GITHUB_REF": os.environ.get("GITHUB_REF", "refs/heads/main"),
    "GITHUB_SHA": os.environ.get("GITHUB_SHA", ""),
    "NIGHTLY_BUILD": os.environ.get("NIGHTLY_BUILD", ""),
    "CODECOV_TOKEN": os.environ.get("CODECOV_TOKEN", ""),
    "HF_HOME": "/workspace/data/huggingface-cache/hub",
 }
 dockerfile_contents = df_template.render(**df_args)
 temp_dir = tempfile.mkdtemp()
 with open(pathlib.Path(temp_dir) / "Dockerfile", "w", encoding="utf-8") as f:
    f.write(dockerfile_contents)
 cicd_image = Image.from_dockerfile(
    pathlib.Path(temp_dir) / "Dockerfile",
    context_mount=None,
    force_build=True,
    gpu="A10G",
 ).env(df_args)
 app = App("Axolotl CI/CD", secrets=[])
 hf_cache_volume = modal.Volume.from_name(
    "axolotl-ci-hf-hub-cache", create_if_missing=True
 )
 VOLUME_CONFIG = {
    "/workspace/data/huggingface-cache/hub": hf_cache_volume,
 }
 N_GPUS = int(os.environ.get("N_GPUS", 1))
 GPU_CONFIG = modal.gpu.L40S(count=N_GPUS)
 def run_cmd(cmd: str, run_folder: str):
    import subprocess  # nosec
    # Propagate errors from subprocess.
    if exit_code := subprocess.call(cmd.split(), cwd=run_folder):  # nosec
        exit(exit_code)  # pylint: disable=consider-using-sys-exit
--- a/codecov.yml
+++ b/codecov.yml
@@ -19,7 +19,7 @@ coverage:
        if_no_uploads: error
        if_not_found: success
        if_ci_failed: error
-        only_pulls: true
+        only_pulls: false
        flags: null
        paths: null
    patch:
--- a/docs/config.qmd
+++ b/docs/config.qmd
@@ -32,8 +32,6 @@ tokenizer_legacy:
 resize_token_embeddings_to_32x:
 # Optional[bool] Whether to shrink the embeddings to len(tokenizer). By default, we won't shrink.
 shrink_embeddings:
 # Optional[bool] Don't upcast the embeddings to float32 when using PEFT. Useful for low-VRAM GPUs
 embeddings_skip_upcast:
 # Whether to load the model with randomly initialized weights. Useful for
 # pre-training a model from scratch or debugging purposes.
 random_init_weights:
@@ -75,12 +73,11 @@ load_in_8bit: true
 load_in_4bit:
 # Use CUDA bf16
-bf16: true # bool or 'full' for `bf16_full_eval`, or 'auto' for automatic detection. require >=ampere
+bf16: true # bool or 'full' for `bf16_full_eval`. require >=ampere
 # Use CUDA fp16
 fp16: true
 # Use CUDA tf32
 tf32: true # require >=ampere
 # Note: if bf16 is set to 'auto', and fp16 is set to true, we will prefer the explict fp16 setting
 # No AMP (automatic mixed precision)
 bfloat16: true # require >=ampere
@@ -187,8 +184,8 @@ datasets:
    # adding a system turn with empty content.
    drop_system_message:
-    # Optional[bool]. (for Qwen3 template only) Whether to split the assistant content based on a reasoning trace inside delimited tags
+    # Optional[bool]. Whether to split the assistant turn based on a reasoning trace inside delimited tags
-    # See example at `docs/dataset-formats/conversation.qmd`
+    # defaults to False
    split_thinking:
    # IMPORTANT: The following fields determine which parts of the conversation to train on.
@@ -505,7 +502,6 @@ save_strategy: # Set to `"no"` to skip checkpoint saves, `"epoch"` at end of eac
 save_steps: # Leave empty to save at each epoch, integer for every N steps. float for fraction of total steps
 saves_per_epoch: # number of times per epoch to save a checkpoint, mutually exclusive with save_steps
 save_total_limit: # Checkpoints saved at a time
 save_only_model: # Save only the model weights, skipping the optimizer. Using this means you can't resume from checkpoints.
 # Maximum number of iterations to train for. It precedes num_epochs which means that
 # if both are set, num_epochs will not be guaranteed.
 # e.g., when 1 epoch is 1000 steps => `num_epochs: 2` and `max_steps: 100` will train for 100 steps
@@ -551,7 +547,7 @@ gradient_checkpointing: false
 early_stopping_patience: 3
 # Specify a scheduler and kwargs to use with the optimizer
-lr_scheduler: # 'one_cycle' | 'rex' | 'log_sweep' | 'linear' | 'cosine_with_restarts' | 'polynomial' | 'constant' | 'constant_with_warmup' | 'inverse_sqrt' | 'reduce_lr_on_plateau' | 'cosine_with_min_lr' | 'warmup_stable_decay' | empty for cosine
+lr_scheduler: # 'one_cycle' | 'rex' | 'log_sweep' | empty for cosine
 lr_scheduler_kwargs:
 cosine_min_lr_ratio: # decay lr to some percentage of the peak lr, e.g. cosine_min_lr_ratio=0.1 for 10% of peak lr
 cosine_constant_lr_ratio: # freeze lr at some percentage of the step, e.g. cosine_constant_lr_ratio=0.8 means start cosine_min_lr at 80% of training step (https://arxiv.org/pdf/2308.04014.pdf)
@@ -613,7 +609,6 @@ lr_div_factor: # Learning rate div factor
 # - optimi_adamw
 # - ao_adamw_8bit
 # - ao_adamw_fp8
 # - came_pytorch
 optimizer:
 # Dictionary of arguments to pass to the optimizer
 optim_args:
--- a/docs/dataset-formats/conversation.qmd
+++ b/docs/dataset-formats/conversation.qmd
@@ -196,34 +196,6 @@ datasets:
 It is not necessary to set both `message_field_training` and `message_field_training_detail` at once.
 :::
 8. (For Qwen3 template only) Enable reasoning split, where the reasoning is split from the content and passed as a separate field into the template.
 ```yaml
 datasets:
  - path: ...
    type: chat_template
    chat_template: qwen3
    split_thinking: true
 ```
 For example, a content can look like:
 ```json
 {
  "content": "<think>Some thinking outputs</think>Output after thinking."
 }
 ```
 After split, it will look like:
 ```json
 {
  "reasoning_content": "Some thinking outputs",
  "content": "Output after thinking..."
 }
 ```
 ## sharegpt
 ::: {.callout-important}
--- a/docs/sequence_parallelism.qmd
+++ b/docs/sequence_parallelism.qmd
@@ -3,6 +3,8 @@ title: Sequence Parallelism
 description: Train with long sequences split across multiple GPUs.
 ---
 # Sequence Parallelism
 Sequence parallelism is a technique that splits sequences across multiple GPUs,
 allowing you to train with very long sequences that wouldn't fit on a single GPU. Each
 GPU processes a different portion of the sequence, and the results are aggregated
@@ -25,7 +27,7 @@ To enable sequence parallelism, add the following to your configuration file:
 sequence_parallel_degree: 4  # Split sequences across 4 GPUs
 # Optional; strides across the key dimension. Larger values use more memory but should make training faster.
 heads_k_stride: 1
-# Optional; one of "varlen_llama3" or "batch_ring". Defaults to
+# Optional; one of "varlen_llama3", "batch_ring", "batch_zigzag", "batch_stripe". Defaults to
 # "varlen_llama3" when `sample_packing: true`, and "batch_ring" otherwise.
 ring_attn_func:
 ```
--- a/examples/llama-4/README.md
+++ b/examples/llama-4/README.md
@@ -34,5 +34,3 @@ We provide a script to delinearize Llama 4 linearized models into regular Huggin
 ```bash
 axolotl delinearize-llama4 --model path/to/model_dir --output path/to/output_dir
 ```
 Note: This only works with the non-quantized linearized model. If you have an adapter, merge it with the *non-quantized linearized* model before delinearizing.
--- a/examples/orpheus/README.md
+++ b/examples/orpheus/README.md
@@ -1,341 +0,0 @@
 # Finetuning LLMs to output audio
 In this example, we finetune Orpcanopylabs/orpheus-tts-0.1-pretrained (a LLaMA 3.2 3b model) to output audio.
 The `finetune.yml` withe current settings will run on any Nvidia GPU with 45GB VRAM or more. If you adjust the batch size it can easily run on any GPU under 24GB.
 ## Dataset pre-processing for pre-training
 If you are adding another voice in English, please jump ahead to finetuning pre-processing.
 For this to work, we need to preprocess our dataset. Since we are expecting to output audio, we will need to add tokens to the tokenizer.
 Using this code, it will download the SNAC model and add the correct tokens and upload the final dataset.
 ```python
 import torch
 from snac import SNAC
 from datasets import load_dataset
 from huggingface_hub import snapshot_download
 from datasets import load_dataset
 import random
 import torchaudio.transforms as T
 from transformers import AutoTokenizer
 import os
 my_original_dataset_name = "<huggingface-id-of-dataset-that-we-want-to-preprocess>"
 name_to_push_dataset_to = "<huggingface-id-of-where-to-save-dataset>"
 dsn = my_original_dataset_name
 snapshot_download(
    repo_id=dsn,
    repo_type="dataset",
    revision="main",
    max_workers=64,
 )
 ds = load_dataset(dsn, split="train")
 ds_sample_rate = ds[0]["audio"]["sampling_rate"]
 model = SNAC.from_pretrained("hubertsiuzdak/snac_24khz")
 model = model.to("mps")
 def tokenise_audio(waveform):
  waveform = torch.from_numpy(waveform).unsqueeze(0)
  waveform = waveform.to(dtype=torch.float32)
  resample_transform = T.Resample(orig_freq=ds_sample_rate, new_freq=24000)
  waveform = resample_transform(waveform)
  waveform = waveform.unsqueeze(0).to("cuda")
  #generate the codes from snac
  with torch.inference_mode():
    codes = model.encode(waveform)
  all_codes = []
  for i in range(codes[0].shape[1]):
    all_codes.append(codes[0][0][i].item()+128266)
    all_codes.append(codes[1][0][2*i].item()+128266+4096)
    all_codes.append(codes[2][0][4*i].item()+128266+(2*4096))
    all_codes.append(codes[2][0][(4*i)+1].item()+128266+(3*4096))
    all_codes.append(codes[1][0][(2*i)+1].item()+128266+(4*4096))
    all_codes.append(codes[2][0][(4*i)+2].item()+128266+(5*4096))
    all_codes.append(codes[2][0][(4*i)+3].item()+128266+(6*4096))
  return all_codes
 def add_codes(example):
    # Always initialize codes_list to None
    codes_list = None
    try:
        answer_audio = example.get("audio")
        # If there's a valid audio array, tokenise it
        if answer_audio and "array" in answer_audio:
            audio_array = answer_audio["array"]
            codes_list = tokenise_audio(audio_array)
    except Exception as e:
        print(f"Skipping row due to error: {e}")
        # Keep codes_list as None if we fail
    example["codes_list"] = codes_list
    return example
 ds = ds.map(add_codes, remove_columns=["audio"])
 #@title Load Tokenizer
 tokeniser_length = 128256
 start_of_text = 128000
 end_of_text = 128009
 start_of_speech = tokeniser_length + 1
 end_of_speech = tokeniser_length + 2
 start_of_human = tokeniser_length + 3
 end_of_human = tokeniser_length + 4
 start_of_ai = tokeniser_length + 5
 end_of_ai =  tokeniser_length + 6
 pad_token = tokeniser_length + 7
 audio_tokens_start = tokeniser_length + 10
 tokenizer_name = "canopylabs/orpheus-3b-0.1-pretrained"
 tokenizer = AutoTokenizer.from_pretrained(tokenizer_name)
 num_proc = os.cpu_count() - 2
 ds = ds.filter(lambda x: x["codes_list"] is not None)
 ds = ds.filter(lambda x: len(x["codes_list"]) > 0)
 #@title Create Input Ids
 def remove_duplicate_frames(example):
    vals = example["codes_list"]
    if len(vals) % 7 != 0:
        raise ValueError("Input list length must be divisible by 7")
    result = vals[:7]
    removed_frames = 0
    for i in range(7, len(vals), 7):
        current_first = vals[i]
        previous_first = result[-7]
        if current_first != previous_first:
            result.extend(vals[i:i+7])
        else:
            removed_frames += 1
    example["codes_list"] = result
    return example
 ds = ds.map(remove_duplicate_frames, num_proc=num_proc)
 def create_input_ids(example):
    text_ids = tokenizer.encode({example['text']},  add_special_tokens=True)
    text_ids.append(end_of_text)
    example["text_tokens"] = text_ids
    input_ids = (
        [start_of_human]
        + example["text_tokens"]
        + [end_of_human]
        + [start_of_ai]
        + [start_of_speech]
        + example["codes_list"]
        + [end_of_speech]
        + [end_of_ai]
    )
    example["input_ids"] = input_ids
    example["labels"] = input_ids
    example["attention_mask"] = [1] * len(input_ids)
    return example
 ds = ds.map(create_input_ids, num_proc=num_proc, remove_columns=["text", "codes_list"])
 #@title Remove unnecessary columns
 columns_to_keep = ["input_ids", "labels", "attention_mask"]
 columns_to_remove = [col for col in ds.column_names if col not in columns_to_keep]
 ds = ds.remove_columns(columns_to_remove)
 ds.push_to_hub(name_to_push_dataset_to)
 ```
 ## Finetune pre-processing
 Use this code to add a new voice.
 ```python
 import torch
 from snac import SNAC
 from datasets import load_dataset
 from huggingface_hub import snapshot_download
 from datasets import load_dataset
 import random
 import torchaudio.transforms as T
 from transformers import AutoTokenizer
 import os
 my_original_dataset_name = "<huggingface-id-of-dataset-that-we-want-to-preprocess>"
 name_to_push_dataset_to = "<huggingface-id-of-where-to-save-dataset>"
 dsn = my_original_dataset_name
 snapshot_download(
    repo_id=dsn,
    repo_type="dataset",
    revision="main",
    max_workers=64,
 )
 ds = load_dataset(dsn, split="train")
 ds_sample_rate = ds[0]["audio"]["sampling_rate"]
 model = SNAC.from_pretrained("hubertsiuzdak/snac_24khz")
 model = model.to("mps")
 def tokenise_audio(waveform):
  waveform = torch.from_numpy(waveform).unsqueeze(0)
  waveform = waveform.to(dtype=torch.float32)
  resample_transform = T.Resample(orig_freq=ds_sample_rate, new_freq=24000)
  waveform = resample_transform(waveform)
  waveform = waveform.unsqueeze(0).to("cuda")
  #generate the codes from snac
  with torch.inference_mode():
    codes = model.encode(waveform)
  all_codes = []
  for i in range(codes[0].shape[1]):
    all_codes.append(codes[0][0][i].item()+128266)
    all_codes.append(codes[1][0][2*i].item()+128266+4096)
    all_codes.append(codes[2][0][4*i].item()+128266+(2*4096))
    all_codes.append(codes[2][0][(4*i)+1].item()+128266+(3*4096))
    all_codes.append(codes[1][0][(2*i)+1].item()+128266+(4*4096))
    all_codes.append(codes[2][0][(4*i)+2].item()+128266+(5*4096))
    all_codes.append(codes[2][0][(4*i)+3].item()+128266+(6*4096))
  return all_codes
 def add_codes(example):
    # Always initialize codes_list to None
    codes_list = None
    try:
        answer_audio = example.get("audio")
        # If there's a valid audio array, tokenise it
        if answer_audio and "array" in answer_audio:
            audio_array = answer_audio["array"]
            codes_list = tokenise_audio(audio_array)
    except Exception as e:
        print(f"Skipping row due to error: {e}")
        # Keep codes_list as None if we fail
    example["codes_list"] = codes_list
    return example
 ds = ds.map(add_codes, remove_columns=["audio"])
 #@title Load Tokenizer
 tokeniser_length = 128256
 start_of_text = 128000
 end_of_text = 128009
 start_of_speech = tokeniser_length + 1
 end_of_speech = tokeniser_length + 2
 start_of_human = tokeniser_length + 3
 end_of_human = tokeniser_length + 4
 start_of_ai = tokeniser_length + 5
 end_of_ai =  tokeniser_length + 6
 pad_token = tokeniser_length + 7
 audio_tokens_start = tokeniser_length + 10
 tokenizer_name = "canopylabs/orpheus-3b-0.1-pretrained"
 tokenizer = AutoTokenizer.from_pretrained(tokenizer_name)
 num_proc = os.cpu_count() - 2
 ds = ds.filter(lambda x: x["codes_list"] is not None)
 ds = ds.filter(lambda x: len(x["codes_list"]) > 0)
 #@title Create Input Ids
 def remove_duplicate_frames(example):
    vals = example["codes_list"]
    if len(vals) % 7 != 0:
        raise ValueError("Input list length must be divisible by 7")
    result = vals[:7]
    removed_frames = 0
    for i in range(7, len(vals), 7):
        current_first = vals[i]
        previous_first = result[-7]
        if current_first != previous_first:
            result.extend(vals[i:i+7])
        else:
            removed_frames += 1
    example["codes_list"] = result
    return example
 ds = ds.map(remove_duplicate_frames, num_proc=num_proc)
 tok_info = '''*** HERE you can modify the text prompt
 i.e. if you wanted a multispeaker model like canopylabs/orpheus-3b-0.1-ft, you can pass:
 f"{example["source"]}:  {example["text"]}", as is passed.
 '''
 print(tok_info)
 def create_input_ids(example):
    text_ids = tokenizer.encode(f"{example['speaker_id']}: {example['text']}",  add_special_tokens=True)
    text_ids.append(end_of_text)
    example["text_tokens"] = text_ids
    input_ids = (
        [start_of_human]
        + example["text_tokens"]
        + [end_of_human]
        + [start_of_ai]
        + [start_of_speech]
        + example["codes_list"]
        + [end_of_speech]
        + [end_of_ai]
    )
    example["input_ids"] = input_ids
    example["labels"] = input_ids
    example["attention_mask"] = [1] * len(input_ids)
    return example
 ds = ds.map(create_input_ids, num_proc=num_proc, remove_columns=["text", "codes_list"])
 #@title Remove unnecessary columns
 columns_to_keep = ["input_ids", "labels", "attention_mask"]
 columns_to_remove = [col for col in ds.column_names if col not in columns_to_keep]
 ds = ds.remove_columns(columns_to_remove)
 ds.push_to_hub(name_to_push_dataset_to)
 ```
 ## Training
 After preprocessing is done, fill out the blanks in finetune.yml and simply run `axolotl train finetune.yml`
 ## Inference
 For inference, please refer to the original [orpheus github](https://github.com/canopyai/Orpheus-TTS/tree/main).
--- a/examples/orpheus/finetune.yml
+++ b/examples/orpheus/finetune.yml
@@ -1,52 +0,0 @@
 base_model: canopylabs/orpheus-3b-0.1-pretrained
 hub_model_id: <your-hub-model-id>
 plugins:
  - axolotl.integrations.liger.LigerPlugin
 liger_rope: true
 liger_rms_norm: true
 liger_glu_activation: true
 liger_fused_linear_cross_entropy: true
 datasets:
  - path: <your-hf-dataset-id>
    type:  # leave empty to load pre-tokenized
 dataset_prepared_path: last_run_prepared
 val_set_size: 0.01
 output_dir: ./outputs/out
 sequence_len: 8192
 sample_packing: true
 pad_to_sequence_len: true
 wandb_project:
 wandb_entity:
 wandb_watch:
 wandb_name:
 wandb_log_model:
 gradient_accumulation_steps: 8
 micro_batch_size: 4
 num_epochs: 3
 optimizer: adamw_torch_fused
 lr_scheduler: cosine
 learning_rate: 2e-5
 bf16: auto
 tf32: false
 gradient_checkpointing: true
 gradient_checkpointing_kwargs:
  use_reentrant: false
 resume_from_checkpoint:
 logging_steps: 1
 flash_attention: true
 warmup_steps: 20
 evals_per_epoch: 5
 saves_per_epoch: 5
 weight_decay: 0.05
 special_tokens:
  pad_token: <custom_token_7>
--- a/requirements.txt
+++ b/requirements.txt
@@ -6,17 +6,16 @@ triton>=3.0.0
 mamba-ssm==1.2.0.post1
 xformers>=0.0.23.post1
 autoawq==0.2.7.post3
-liger-kernel==0.5.9
+liger-kernel==0.5.8
 # END section
 packaging==23.2
 huggingface_hub==0.31.0
 peft==0.15.2
 transformers==4.51.3
 tokenizers>=0.21.1
 accelerate==1.6.0
-datasets==3.5.1
+datasets==3.5.0
 deepspeed>=0.15.4
 trl==0.17.0
 hf_xet==1.1.0
--- a/setup.py
+++ b/setup.py
@@ -67,13 +67,13 @@ def parse_requirements(extras_require_map):
            if (major, minor) >= (2, 7):
                _install_requires.pop(_install_requires.index(xformers_version))
                # _install_requires.append("xformers==0.0.29.post3")  # xformers seems to be hard pinned to 2.6.0
-                extras_require_map["vllm"] = ["vllm==0.8.5.post1"]
+                extras_require_map["vllm"] = ["vllm==0.8.5"]
            elif (major, minor) >= (2, 6):
                _install_requires.pop(_install_requires.index(xformers_version))
                _install_requires.append(
                    "xformers==0.0.29.post2"
                )  # vllm needs post2 w torch 2.6
-                extras_require_map["vllm"] = ["vllm==0.8.5.post1"]
+                extras_require_map["vllm"] = ["vllm==0.8.5"]
            elif (major, minor) >= (2, 5):
                _install_requires.pop(_install_requires.index(xformers_version))
                if patch == 0:
@@ -142,7 +142,6 @@ extras_require = {
        "apollo-torch",
        "lomo-optim==0.1.1",
        "torch-optimi==0.2.1",
        "came_pytorch==0.1.3",
    ],
    "ray": [
        "ray[train]",
--- a/src/axolotl/cli/args.py
+++ b/src/axolotl/cli/args.py
@@ -82,12 +82,6 @@ class VllmServeCliArgs:
            "hardware support this feature."
        },
    )
    serve_module: Optional[str] = field(
        default=None,
        metadata={
            "help": "Module to serve. If not set, the default module will be used."
        },
    )
@dataclass
--- a/src/axolotl/cli/main.py
+++ b/src/axolotl/cli/main.py
@@ -342,13 +342,6 @@ def delinearize_llama4(model: str, output: str) -> None:
    do_delinearize_llama4(model, output)
@cli.command()
 def wizard():
    from axolotl.cli.wizard import do_wizard
    do_wizard()
 cli.add_command(lm_eval)
--- a/src/axolotl/cli/preprocess.py
+++ b/src/axolotl/cli/preprocess.py
@@ -18,7 +18,6 @@ from axolotl.cli.checks import check_accelerate_default_config, check_user_token
 from axolotl.cli.config import load_cfg
 from axolotl.common.const import DEFAULT_DATASET_PREPARED_PATH
 from axolotl.common.datasets import load_datasets, load_preference_datasets
 from axolotl.integrations.base import PluginManager
 from axolotl.utils.dict import DictDefault
 from axolotl.utils.trainer import disable_datasets_caching
@@ -48,10 +47,7 @@ def do_preprocess(cfg: DictDefault, cli_args: PreprocessCliArgs) -> None:
        cfg.dataset_prepared_path = DEFAULT_DATASET_PREPARED_PATH
    with disable_datasets_caching():
-        plugin_manager = PluginManager.get_instance()
+        if cfg.rl:
        if plugin_manager.load_datasets(cfg, preprocess=True):
            pass
        elif cfg.rl:
            load_preference_datasets(cfg=cfg, cli_args=cli_args)
        else:
            load_datasets(cfg=cfg, cli_args=cli_args)
--- a/src/axolotl/cli/train.py
+++ b/src/axolotl/cli/train.py
@@ -43,13 +43,10 @@ def do_train(cfg: DictDefault, cli_args: TrainerCliArgs):
    if int(os.getenv("LOCAL_RANK", "0")) == 0:
        check_user_token()
-    plugin_manager = PluginManager.get_instance()
+    if cfg.rl:
-    dataset_meta = plugin_manager.load_datasets(cfg, preprocess=False)
+        dataset_meta = load_preference_datasets(cfg=cfg, cli_args=cli_args)
-    if not dataset_meta:
+    else:
-        if cfg.rl:
+        dataset_meta = load_datasets(cfg=cfg, cli_args=cli_args)
            dataset_meta = load_preference_datasets(cfg=cfg, cli_args=cli_args)
        else:
            dataset_meta = load_datasets(cfg=cfg, cli_args=cli_args)
    model, tokenizer, trainer = train(cfg=cfg, dataset_meta=dataset_meta)
--- a/src/axolotl/cli/vllm_serve.py
+++ b/src/axolotl/cli/vllm_serve.py
@@ -6,6 +6,7 @@ from pathlib import Path
 from typing import Union
 from trl.scripts.vllm_serve import ScriptArguments
 from trl.scripts.vllm_serve import main as vllm_serve_main
 from axolotl.cli.config import load_cfg
@@ -27,9 +28,6 @@ def do_vllm_serve(
    cfg = load_cfg(config)
    model = cfg.base_model
    serve_module = cli_args.get("serve_module", "trl.scripts.vllm_serve")
    vllm_serve_main = getattr(__import__(serve_module, fromlist=["main"]), "main")
    tensor_parallel_size = (
        cli_args.get("tensor_parallel_size") or cfg.vllm.tensor_parallel_size
    )
--- a/src/axolotl/cli/wizard.py
+++ b/src/axolotl/cli/wizard.py
@@ -1,429 +0,0 @@
 """Wizard for creating yaml configs."""
 import click
 import torch
 import yaml
 from packaging import version
 from transformers.training_args import OptimizerNames
 from axolotl.cli.art import print_axolotl_text_art
 from axolotl.utils.dict import DictDefault
 from axolotl.utils.models import load_model_config
 from axolotl.utils.schemas.enums import CustomSupportedOptimizers
 def do_wizard():
    print_axolotl_text_art()
    # Ask where to save the config
    cfg = DictDefault({})
    config_path = click.prompt(
        "Where do you want to save the config?", type=str, default="config.yaml"
    )
    # Ask base model
    base_model = click.prompt("What base model do you want to use?", type=str)
    cfg["base_model"] = base_model.strip()
    # Ask whether want to enable Vision model
    # TODO: check if model has vision layers instead of asking user
    train_vision_model = click.confirm(
        "If this model has vision layers, do you want to train them?", default=False
    )
    if train_vision_model:
        cfg["processor_type"] = "AutoProcessor"
        cfg["skip_prepare_dataset"] = True
        cfg["remove_unused_columns"] = False
        cfg["sample_packing"] = False
    # Ask whether they want to set any advanced model features (custom tokenizer, custom config, etc)
    advanced_model_features = click.confirm(
        "Do you want to set any advanced model features? (custom tokenizer, custom config, remote code etc)",
        default=False,
    )
    if advanced_model_features:
        # Ask whether they want to use a custom config
        base_model_config = click.prompt(
            "What model config do you want to use? (leave blank for default)",
            type=str,
            default="",
        )
        if base_model_config:
            cfg["base_model_config"] = base_model_config
        # Ask whether they want to use a specific revision of the model
        revision_of_model = click.prompt(
            "What revision of the model do you want to use? (leave blank for default)",
            type=str,
            default="",
        )
        if revision_of_model:
            cfg["revision_of_model"] = revision_of_model
        # Ask whether they want to use a custom tokenizer
        tokenizer_config = click.prompt(
            "What tokenizer do you want to use? (leave blank for default)",
            type=str,
            default="",
        )
        if tokenizer_config:
            cfg["tokenizer_config"] = tokenizer_config
        # Ask whether they want to use remote code
        trust_remote_code = click.confirm(
            "Do you want to use remote code?", default=False
        )
        if trust_remote_code:
            cfg["trust_remote_code"] = trust_remote_code
        # Whether to resize token embeddings
        resize_token_embeddings_to_32x = click.confirm(
            "Do you want to resize token embeddings to 32x?", default=False
        )
        if resize_token_embeddings_to_32x:
            cfg["resize_token_embeddings_to_32x"] = resize_token_embeddings_to_32x
        # Whether to shrink embeddings to len(tokenizer)
        shrink_embeddings = click.confirm(
            "Do you want to shrink embeddings to len(tokenizer)?", default=False
        )
        if shrink_embeddings:
            cfg["shrink_embeddings"] = shrink_embeddings
        # Whether to skip upcast embeddings
        embeddings_skip_upcast = click.confirm(
            "Do you want to skip upcast embeddings?", default=False
        )
        if embeddings_skip_upcast:
            cfg["embeddings_skip_upcast"] = embeddings_skip_upcast
        # Whether to random init weights
        random_init_weights = click.confirm(
            "Do you want to random init weights?", default=False
        )
        if random_init_weights:
            cfg["random_init_weights"] = random_init_weights
    # Get model type
    config = load_model_config(cfg)
    model_type = config.model_type
    # Ask sequence length
    sequence_length = click.prompt("What sequence length do you want to use?", type=int)
    cfg["sequence_length"] = sequence_length
    # Whether to turn on sample packing
    if cfg["sample_packing"] is None:
        cfg["sample_packing"] = click.confirm(
            "Do you want to turn on sample packing? This will speed up training by packing multiple samples into a single batch.",
            default=True,
        )
        if cfg["sample_packing"]:
            cfg["pad_to_sequence_len"] = True
        # Whether to turn off eval sample packing
        no_eval_sample_packing = click.confirm(
            "Do you want to turn off eval sample packing? This will slow down evaluation but is recommended if you are using a small validation set.",
            default=False,
        )
        if no_eval_sample_packing:
            cfg["eval_sample_packing"] = False
    # Hardware check
    try:
        is_ampere_or_newer = torch.cuda.get_device_capability()[0] >= 8
    except RuntimeError:
        is_ampere_or_newer = False
    except AssertionError:  # this is raised if no cuda is available
        is_ampere_or_newer = False
    # Get num gpus
    try:
        num_gpus = torch.cuda.device_count()
    except RuntimeError:
        num_gpus = 0
    # Get torch version
    torch_version = str(torch.__version__).split("+", maxsplit=1)[0]
    is_torch_2_6_or_newer = version.parse(torch_version) >= version.parse("2.6.0")
    # Whether to turn on attention
    opt = ["xformers", "sdp"]
    if is_ampere_or_newer:
        opt.append("flash")
    if is_torch_2_6_or_newer:
        opt.append("flex")
    if cfg["sample_packing"]:
        if "flash" in opt:
            default_opt = "flash"
        elif "flex" in opt:
            default_opt = "flex"
        else:
            default_opt = opt[0]
        attention = click.prompt(
            "Which attention backend do you want to use? Sample packing requires an attention backend to be set.",
            type=click.Choice(opt),
            default=default_opt,
        )
    else:
        # non-sample packing supports no attention and S2
        opt.extend(["none", "s2"])
        attention = click.prompt(
            "Which attention backend do you want to use?",
            type=click.Choice(opt),
            default="none",
        )
        if attention == "none":
            attention = None
    # TODO: if xformers, check if FA is installed
    # TODO: flex doc mentioned requiring seq len to be divisible by 128. Unclear if limitation still exists
    # TODO: requires #2489
    cfg["attention"] = attention
    # Whether to turn on gradient checkpointing
    # TODO: need to wait for offload_disk PR to be merged
    gradient_checkpointing = click.prompt(
        "Which gradient checkpointing strategy do you want to use?",
        type=click.Choice(["none", "true", "offload", "offload_disk"]),
        default="true",
    )
    if gradient_checkpointing == "none":
        gradient_checkpointing = False
    elif gradient_checkpointing == "true":
        gradient_checkpointing = True
    # Ask whether to set use_reentrant
    # TODO: get correct defaults based on SFT/RL mode and single/multigpu
    # use_reentrant = click.confirm(
    #     "Do you want to set use_reentrant?",
    #     default=True,
    # )
    # if use_reentrant:
    #     cfg["use_reentrant"] = use_reentrant
    # Optimizer
    cfg["optimizer"] = click.prompt(
        "Which optimizer do you want to use?",
        type=click.Choice((OptimizerNames | CustomSupportedOptimizers)),
        default=OptimizerNames.ADAMW_TORCH_FUSED,
    )
    cfg["lr_scheduler"] = click.prompt(
        "Which learning rate scheduler do you want to use?",
        type=click.Choice(
            [
                "cosine",
                "one_cycle",
                "rex",
                "log_sweep",
                "linear",
                "cosine_with_restarts",
                "polynomial",
                "constant",
                "constant_with_warmup",
                "inverse_sqrt",
                "reduce_lr_on_plateau",
                "cosine_with_min_lr",
                "warmup_stable_decay",
            ]
        ),
        default="cosine",
    )
    # Plugins
    cfg["plugins"] = []
    # Whether to turn on cut cross entropy
    if is_ampere_or_newer:
        # Note: This may error if users don't have CCE installed
        from axolotl.integrations.cut_cross_entropy.monkeypatch.patch import (
            CUT_CROSS_ENTROPY_MODEL_MAPPING,
        )
        if model_type in CUT_CROSS_ENTROPY_MODEL_MAPPING:
            cut_cross_entropy = click.confirm(
                "Do you want to turn on cut cross entropy? This will save VRAM if the model has a large vocab size.",
                default=True,
            )
            if cut_cross_entropy:
                cfg["plugins"].append(
                    "axolotl.integrations.cut_cross_entropy.CutCrossEntropyPlugin"
                )
                cfg["cut_cross_entropy"] = True
    use_liger_kernel = click.confirm(
        "Do you want to use the liger kernel? This will speed up training and save VRAM.",
        default=True,
    )
    if use_liger_kernel:
        cfg["plugins"].append("axolotl.integrations.liger.LigerPlugin")
        cfg["liger_rope"] = click.confirm(
            "Do you want to enable liger rope?",
            default=True,
        )
        cfg["liger_rms_norm"] = click.confirm(
            "Do you want to enable liger rms norm?",
            default=True,
        )
        cfg["liger_glu_activation"] = click.confirm(
            "Do you want to enable liger glu activation?",
            default=True,
        )
        cfg["liger_layer_norm"] = click.confirm(
            "Do you want to enable liger layer norm?",
            default=True,
        )
        if cfg["cut_cross_entropy"] is not True:
            cfg["liger_fused_linear_cross_entropy"] = click.confirm(
                "Do you want to enable liger fused linear cross entropy?",
                default=True,
            )
    # TODO: lora kernels (but they auto enable via validator already)
    # TODO: is there incompat between torch compile and liger?
    cfg["torch_compile"] = click.confirm(
        "Do you want to enable torch compile?",
        default=True,
    )
    # Multi-gpu
    if num_gpus > 1:
        # Ask whether to use DDP/Deepspeed/FSDP
        multi_gpu_mode = click.prompt(
            "Which multi-gpu mode do you want to use?",
            type=click.Choice(["ddp", "deepspeed", "fsdp"]),
            default="ddp",
        )
        if multi_gpu_mode == "deepspeed":
            # Ask which deepspeed config to use
            cfg["deepspeed"] = click.prompt(
                "Which deepspeed config do you want to use? The higher the number, the more VRAM you will save, but the slower it will run.",
                type=click.Choice(
                    [
                        "zero1.json",
                        "zero1_torch_compile.json",
                        "zero2.json",
                        "zero3.json",
                        "zero3_bf16.json",
                        "zero3_bf16_cpuoffload_all.json",
                        "zero3_bf16_cpuoffload_params.json",
                    ]
                ),
                default="zero1.json",
            )
        elif multi_gpu_mode == "fsdp":
            fsdp_version = click.prompt(
                "Which fsdp version do you want to use?",
                type=click.Choice([1, 2]),
                default=2,
            )
            # TODO: Handle FSDP config
            if fsdp_version == 1:
                cfg["fsdp"] = ["full_shard", "auto_wrap"]
                # Ask which state dict type to use
                fsdp_state_dict_type = click.prompt(
                    "Which fsdp state dict type do you want to use?",
                    type=click.Choice(["FULL_STATE_DICT", "SHARDED_STATE_DICT"]),
                    default="FULL_STATE_DICT",
                )
                fsdp_offload_params = click.confirm(
                    "Do you want to offload parameters?",
                    default=True,
                )
                # TODO: can we load the model class and auto pull a default for this?
                fsdp_transformer_layer_cls_to_wrap = click.prompt(
                    "Which transformer layer class to wrap? It is usually the Decoder layer class.",
                    type=str,
                )
                # TODO: add other options
                cfg["fsdp_config"] = {
                    "state_dict_type": fsdp_state_dict_type,
                    "offload_params": fsdp_offload_params,
                    "transformer_layer_cls_to_wrap": fsdp_transformer_layer_cls_to_wrap,
                }
            elif fsdp_version == 2:
                raise NotImplementedError()
    # Training mode (sft or rl)
    training_mode = click.prompt(
        "Which training mode do you want to use?",
        type=click.Choice(["sft", "rl"]),
        default="sft",
    )
    if training_mode == "rl":
        cfg["rl"] = click.prompt(
            "Which rl mode do you want to use?",
            type=click.Choice(["dpo", "ipo", "orpo", "kto", "grpo", "simpo"]),
        )
        # TODO: handle RL options
    # Whether to use adapter
    # Get batch/grad accu
    # Get learning rate
    # Get weight decay
    # Get max grad norm
    # Get num train epochs
    # Get warmup ratio
    # Get save ratio
    # Get eval ratio
    # Get dataset config
    # Load metric tracker
    # Save config to yaml
    # TODO: improve output yaml formatting. Need to add comments to help separate sections
    with open(config_path, "w", encoding="utf-8") as f:
        yaml.dump(cfg.to_dict(), f, sort_keys=False)
--- a/src/axolotl/common/datasets.py
+++ b/src/axolotl/common/datasets.py
@@ -14,7 +14,6 @@ from axolotl.utils.data import prepare_dataset
 from axolotl.utils.data.rl import load_prepare_preference_datasets
 from axolotl.utils.dict import DictDefault
 from axolotl.utils.models import load_processor, load_tokenizer
 from axolotl.utils.schemas.enums import RLType
 from axolotl.utils.tokenization import check_dataset_labels
 LOG = logging.getLogger(__name__)
@@ -134,7 +133,7 @@ def load_preference_datasets(
    total_num_steps: Optional[int] = int(
        math.ceil(len(train_dataset) * cfg.num_epochs / cfg.batch_size)
    )
-    if cfg.rl is RLType.GRPO:
+    if cfg.rl == "grpo":
        total_num_steps = None
    if cli_args.debug or cfg.debug:
--- a/src/axolotl/core/trainer_builder.py
+++ b/src/axolotl/core/trainer_builder.py
@@ -21,7 +21,6 @@ import importlib.util
 import inspect
 import logging
 import math
 import os
 import sys
 from abc import abstractmethod
 from pathlib import Path
@@ -73,7 +72,6 @@ from axolotl.utils.callbacks import (
    SaveBetterTransformerModelCallback,
    bench_eval_callback_factory,
    causal_lm_bench_eval_callback_factory,
    colab_inference_post_train_callback,
    log_prediction_callback_factory,
 )
 from axolotl.utils.callbacks.lisa import lisa_callback_factory
@@ -87,7 +85,7 @@ from axolotl.utils.collators import (
 )
 from axolotl.utils.collators.mm_chat import MultiModalChatDataCollator
 from axolotl.utils.models import ensure_dtype
-from axolotl.utils.schemas.enums import CustomSupportedOptimizers, RLType
+from axolotl.utils.schemas.enums import CustomSupportedOptimizers
 try:
    import torch._dynamo  # pylint: disable=ungrouped-imports
@@ -170,9 +168,6 @@ class TrainerBuilderBase(abc.ABC):
                )
            )
        if self.cfg.gc_steps:
            callbacks.append(GCCallback(gc_steps=self.cfg.gc_steps))
        if self.cfg.use_wandb:
            callbacks.append(
                SaveAxolotlConfigtoWandBCallback(self.cfg.axolotl_config_path)
@@ -254,6 +249,9 @@ class HFCausalTrainerBuilder(TrainerBuilderBase):
        if self.cfg.loss_watchdog_threshold is not None:
            callbacks.append(LossWatchDogCallback(self.cfg))
        if self.cfg.gc_steps:
            callbacks.append(GCCallback(gc_steps=self.cfg.gc_steps))
        return callbacks
    def get_post_trainer_create_callbacks(self, trainer):
@@ -295,10 +293,6 @@ class HFCausalTrainerBuilder(TrainerBuilderBase):
        if self.cfg.lisa_step_interval and self.cfg.lisa_n_layers:
            callbacks.append(lisa_callback_factory(trainer))
        if any("COLAB_" in key for key in os.environ):
            ColabCallback = colab_inference_post_train_callback(trainer)
            callbacks.append(ColabCallback(self.cfg))
        callbacks.extend(super().get_post_trainer_create_callbacks(trainer=trainer))
        return callbacks
@@ -353,7 +347,7 @@ class HFCausalTrainerBuilder(TrainerBuilderBase):
        training_arguments_kwargs["warmup_steps"] = warmup_steps
        training_arguments_kwargs["logging_steps"] = logging_steps
-        if self.cfg.seed is not None:
+        if self.cfg.seed:
            training_arguments_kwargs["seed"] = self.cfg.seed
        if self.cfg.gradient_checkpointing:
@@ -547,6 +541,8 @@ class HFCausalTrainerBuilder(TrainerBuilderBase):
        report_to = []
        if self.cfg.use_wandb:
            report_to.append("wandb")
            if self.cfg.wandb_name:
                training_arguments_kwargs["run_name"] = self.cfg.wandb_name
        if self.cfg.use_mlflow:
            report_to.append("mlflow")
        if self.cfg.use_tensorboard:
@@ -706,20 +702,6 @@ class HFCausalTrainerBuilder(TrainerBuilderBase):
                optimizer_cls = ADOPT
                adam_kwargs["decouple"] = True
                optimizer_kwargs.update(adam_kwargs)
            elif self.cfg.optimizer == "came_pytorch":
                from came_pytorch import CAME
                optimizer_cls = CAME
                beta1 = training_arguments_kwargs.get("adam_beta1", 0.9)
                beta2 = training_arguments_kwargs.get("adam_beta2", 0.999)
                beta3 = training_arguments_kwargs.get("adam_beta2", 0.9999)
                eps1 = training_arguments_kwargs.get("adam_epsilon", 1e-30)
                eps2 = training_arguments_kwargs.get("adam_epsilon2", 1e-16)
                adam_kwargs["betas"] = (beta1, beta2, beta3)
                adam_kwargs["eps"] = (eps1, eps2)
                optimizer_kwargs.update(adam_kwargs)
            # Parse any additional optimizer args from config
            if self.cfg.optim_args:
@@ -819,15 +801,14 @@ class HFCausalTrainerBuilder(TrainerBuilderBase):
        data_collator_kwargs = {
            "padding": True,  # True/"longest" is the default
        }
        multiple = 64
        if self.cfg.pad_to_sequence_len:
-            data_collator_kwargs["pad_to_multiple_of"] = multiple * math.ceil(
+            data_collator_kwargs["pad_to_multiple_of"] = 64 * math.ceil(
-                self.cfg.sequence_len / multiple
+                self.cfg.sequence_len / 64
            )
        else:
            # A100 is best at 64, while others at 8. Let's use the larger so we don't have to check
            # https://docs.nvidia.com/deeplearning/performance/dl-performance-matrix-multiplication/index.html
-            data_collator_kwargs["pad_to_multiple_of"] = multiple
+            data_collator_kwargs["pad_to_multiple_of"] = 64
        if self.cfg.reward_model:
            data_collator_kwargs["max_length"] = self.cfg.sequence_len
@@ -1033,10 +1014,6 @@ class HFRLTrainerBuilder(TrainerBuilderBase):
            training_args_kwargs["dataloader_prefetch_factor"] = (
                self.cfg.dataloader_prefetch_factor
            )
        if self.cfg.seed is not None:
            training_args_kwargs["seed"] = self.cfg.seed
        if self.cfg.gradient_checkpointing:
            training_args_kwargs["gradient_checkpointing"] = (
                self.cfg.gradient_checkpointing
@@ -1060,8 +1037,6 @@ class HFRLTrainerBuilder(TrainerBuilderBase):
            # default to saving each epoch if not defined
            training_args_kwargs["save_strategy"] = "epoch"
        training_args_kwargs["save_only_model"] = self.cfg.save_only_model
        if self.cfg.dataset_processes:
            training_args_kwargs["dataset_num_proc"] = self.cfg.dataset_processes
@@ -1079,13 +1054,9 @@ class HFRLTrainerBuilder(TrainerBuilderBase):
        if self.cfg.use_wandb:
            training_args_kwargs["run_name"] = self.cfg.wandb_name
        training_args_kwargs["sequence_parallel_degree"] = (
            self.cfg.sequence_parallel_degree
        )
        training_args_cls = None
        blocklist_args_kwargs = []
-        if self.cfg.rl is RLType.SIMPO:
+        if self.cfg.rl == "simpo":
            training_args_cls = AxolotlCPOConfig
            training_args_kwargs["loss_type"] = "simpo"
            training_args_kwargs["max_length"] = self.cfg.sequence_len
@@ -1093,13 +1064,13 @@ class HFRLTrainerBuilder(TrainerBuilderBase):
            if self.cfg.cpo_alpha is not None:
                training_args_kwargs["cpo_alpha"] = self.cfg.cpo_alpha
-        elif self.cfg.rl is RLType.ORPO:
+        elif self.cfg.rl == "orpo":
            training_args_cls = AxolotlORPOConfig
            training_args_kwargs["max_length"] = self.cfg.sequence_len
            if self.cfg.max_prompt_len:
                training_args_kwargs["max_prompt_length"] = self.cfg.max_prompt_len
-        elif self.cfg.rl is RLType.KTO:
+        elif self.cfg.rl == "kto":
            training_args_cls = AxolotlKTOConfig
            training_args_kwargs["desirable_weight"] = (
@@ -1113,14 +1084,14 @@ class HFRLTrainerBuilder(TrainerBuilderBase):
            if self.cfg.max_prompt_len:
                training_args_kwargs["max_prompt_length"] = self.cfg.max_prompt_len
-        elif self.cfg.rl is RLType.GRPO:
+        elif self.cfg.rl == "grpo":
            training_args_cls = GRPOStrategy.get_training_args_class()
            training_args_kwargs.update(GRPOStrategy.set_training_args_kwargs(self.cfg))
            blocklist_args_kwargs = GRPOStrategy.get_blocklist_args_kwargs()
        else:
            training_args_cls = AxolotlDPOConfig
-            if self.cfg.rl is RLType.IPO:
+            if self.cfg.rl == "ipo":
                training_args_kwargs["loss_type"] = "ipo"
            training_args_kwargs["max_length"] = self.cfg.sequence_len
            training_args_kwargs["max_completion_length"] = None
@@ -1163,73 +1134,67 @@ class HFRLTrainerBuilder(TrainerBuilderBase):
    def build(self, total_num_steps):
        training_args = self.build_training_arguments(total_num_steps)
-        trainer_kwargs = {}
+        dpo_trainer_kwargs = {}
-        if self.cfg.rl is RLType.IPO:
+        if self.cfg.rl == "ipo":
            if self.cfg.dpo_label_smoothing:
-                trainer_kwargs["label_smoothing"] = self.cfg.dpo_label_smoothing
+                dpo_trainer_kwargs["label_smoothing"] = self.cfg.dpo_label_smoothing
        if self.eval_dataset:
-            trainer_kwargs["eval_dataset"] = self.eval_dataset
+            dpo_trainer_kwargs["eval_dataset"] = self.eval_dataset
        if self.cfg.adapter and self.peft_config:
-            trainer_kwargs["peft_config"] = self.peft_config
+            dpo_trainer_kwargs["peft_config"] = self.peft_config
        if self.cfg.precompute_ref_log_probs is not None:
-            trainer_kwargs["precompute_ref_log_probs"] = (
+            dpo_trainer_kwargs["precompute_ref_log_probs"] = (
                self.cfg.precompute_ref_log_probs
            )
-        if self.cfg.rl is RLType.GRPO:
+        if self.cfg.rl == "grpo":
-            trainer_cls = GRPOStrategy.get_trainer_class(
+            trainer_cls = GRPOStrategy.get_trainer_class()
                sequence_parallel=self.cfg.sequence_parallel_degree > 1
            )
            trainer_cls_args = [self.model]
            trainer_cls_args.extend(GRPOStrategy.set_trainer_args(self.cfg))
-            trainer_kwargs.update(GRPOStrategy.set_trainer_kwargs(self.cfg))
+            dpo_trainer_kwargs.update(GRPOStrategy.set_trainer_kwargs(self.cfg))
-        elif self.cfg.rl in [RLType.DPO, RLType.IPO]:
+        elif self.cfg.rl in ["dpo", "ipo"]:
            trainer_cls = DPOStrategy.get_trainer_class()
            trainer_cls_args = [self.model, self.model_ref]
-        elif self.cfg.rl is RLType.ORPO:
+        elif self.cfg.rl == "orpo":
            trainer_cls = AxolotlORPOTrainer
            trainer_cls_args = [self.model]
-        elif self.cfg.rl is RLType.KTO:
+        elif self.cfg.rl in ["kto"]:
            trainer_cls = AxolotlKTOTrainer
            trainer_cls_args = [self.model]
-        elif self.cfg.rl is RLType.SIMPO:
+        elif self.cfg.rl in ["simpo"]:
            trainer_cls = AxolotlCPOTrainer
            trainer_cls_args = [self.model]
        else:
            raise ValueError(f"Unsupported RL: {self.cfg.rl}")
        if self.cfg.plugins:
            plugin_manager = PluginManager.get_instance()
            trainer_cls = plugin_manager.get_trainer_cls(self.cfg)
        sig = inspect.signature(trainer_cls)
        if "tokenizer" in sig.parameters.keys():
-            trainer_kwargs["tokenizer"] = self.tokenizer
+            dpo_trainer_kwargs["tokenizer"] = self.tokenizer
        else:
-            trainer_kwargs["processing_class"] = self.tokenizer
+            dpo_trainer_kwargs["processing_class"] = self.tokenizer
        if self.cfg.datasets is not None and (
            trainer_cls is DPOStrategy.get_trainer_class()
        ):
-            trainer_kwargs["dataset_tags"] = [
+            dpo_trainer_kwargs["dataset_tags"] = [
                d["path"] for d in self.cfg.datasets if not Path(d["path"]).is_dir()
            ]
-        trainer = trainer_cls(
+        dpo_trainer = trainer_cls(
            *trainer_cls_args,
            args=training_args,
            train_dataset=self.train_dataset,
            callbacks=self.get_callbacks(),
-            **trainer_kwargs,
+            **dpo_trainer_kwargs,
        )
        if self.cfg.fsdp:
-            ensure_dtype(trainer.model, dtype=self.cfg.torch_dtype)
+            ensure_dtype(dpo_trainer.model, dtype=self.cfg.torch_dtype)
-            if self.cfg.rl in [RLType.DPO, RLType.IPO] and trainer.ref_model:
+            if self.cfg.rl in ["dpo", "ipo"] and dpo_trainer.ref_model:
-                ensure_dtype(trainer.ref_model, dtype=self.cfg.torch_dtype)
+                ensure_dtype(dpo_trainer.ref_model, dtype=self.cfg.torch_dtype)
-        trainer = self.hook_post_create_trainer(trainer)
+        dpo_trainer = self.hook_post_create_trainer(dpo_trainer)
-        for callback in self.get_post_trainer_create_callbacks(trainer):
+        for callback in self.get_post_trainer_create_callbacks(dpo_trainer):
-            trainer.add_callback(callback)
+            dpo_trainer.add_callback(callback)
-        return trainer
+        return dpo_trainer
 class HFPPOTrainerBuilder(TrainerBuilderBase):
--- a/src/axolotl/core/trainers/init.py
+++ b/src/axolotl/core/trainers/init.py
@@ -5,7 +5,7 @@
 from .base import AxolotlTrainer
 from .dpo.trainer import AxolotlDPOTrainer
-from .grpo.trainer import AxolotlGRPOSequenceParallelTrainer, AxolotlGRPOTrainer
+from .grpo.trainer import AxolotlGRPOTrainer
 from .mamba import AxolotlMambaTrainer
 from .relora import ReLoRATrainer
 from .trl import (
--- a/src/axolotl/core/trainers/base.py
+++ b/src/axolotl/core/trainers/base.py
@@ -373,13 +373,15 @@ class AxolotlTrainer(
                num_items_in_batch=num_items_in_batch,
            )
-        return super().compute_loss(
+        loss = super().compute_loss(
            model,
            inputs,
            return_outputs=return_outputs,
            num_items_in_batch=num_items_in_batch,
        )
        return loss
    @staticmethod
    def orpo_concatenate_inputs(inputs, label_pad_token=-100, pad_token=0, device=None):
        concatenated_batch = {}
--- a/src/axolotl/core/trainers/dpo/init.py
+++ b/src/axolotl/core/trainers/dpo/init.py
@@ -1,11 +1,14 @@
-"""DPO Specific Strategy for training"""
+"""
 DPO Specific Strategy for training
 """
 from axolotl.core.trainers.dpo.trainer import AxolotlDPOTrainer
 from axolotl.utils.schemas.enums import RLType
 class DPOStrategy:
-    """Strategy for DPO training"""
+    """
    Strategy for DPO training
    """
    @classmethod
    def get_trainer_class(cls):
@@ -20,7 +23,7 @@ class DPOStrategy:
    @classmethod
    def set_training_args_kwargs(cls, cfg):
        training_args_kwargs = {}
-        if cfg.rl is RLType.IPO:
+        if cfg.rl == "ipo":
            training_args_kwargs["loss_type"] = "ipo"
        training_args_kwargs["max_length"] = cfg.sequence_len
        training_args_kwargs["max_completion_length"] = None
--- a/src/axolotl/core/trainers/dpo/trainer.py
+++ b/src/axolotl/core/trainers/dpo/trainer.py
@@ -247,9 +247,7 @@ class AxolotlDPOTrainer(RngLoaderMixin, SchedulerMixin, DPOTrainer):
                )
        # Base evaluation
-        initial_output = super(  # pylint: disable=bad-super-call
+        initial_output = super().evaluation_loop(
            DPOTrainer, self
        ).evaluation_loop(
            dataloader,
            description,
            prediction_loss_only,
--- a/src/axolotl/core/trainers/grpo/init.py
+++ b/src/axolotl/core/trainers/grpo/init.py
@@ -1,41 +1,37 @@
-"""GRPO Specific Strategy for training"""
+"""
 GRPO Specific Strategy for training
 """
 import importlib
 import inspect
 import logging
 from typing import Any
 from trl.trainer.grpo_trainer import RewardFunc
-from axolotl.core.trainers.grpo.args import AxolotlGRPOConfig
+from axolotl.core.trainers.grpo.trainer import AxolotlGRPOTrainer
 from axolotl.core.trainers.grpo.trainer import (
    AxolotlGRPOSequenceParallelTrainer,
    AxolotlGRPOTrainer,
 )
 from axolotl.utils.dict import DictDefault
 from axolotl.utils.schemas.trl import TRLConfig
-LOG = logging.getLogger(__name__)
+LOG = logging.getLogger("axolotl")
 class GRPOStrategy:
-    """Strategy for GRPO training"""
+    """
    Strategy for GRPO training
    """
    @classmethod
-    def get_trainer_class(
+    def get_trainer_class(cls):
        cls, sequence_parallel: bool
    ) -> type[AxolotlGRPOTrainer] | type[AxolotlGRPOSequenceParallelTrainer]:
        if sequence_parallel:
            return AxolotlGRPOSequenceParallelTrainer
        return AxolotlGRPOTrainer
    @classmethod
-    def get_training_args_class(cls) -> type[AxolotlGRPOConfig]:
+    def get_training_args_class(cls):
        from axolotl.core.trainers.grpo.args import AxolotlGRPOConfig
        return AxolotlGRPOConfig
    @classmethod
-    def set_training_args_kwargs(cls, cfg: DictDefault) -> dict[str, Any]:
+    def set_training_args_kwargs(cls, cfg):
-        grpo_args_kwargs: dict[str, Any] = {}
+        grpo_args_kwargs = {}
        if not hasattr(cfg, "trl") or not cfg.trl:
            return grpo_args_kwargs
@@ -44,8 +40,8 @@ class GRPOStrategy:
        if trl.use_vllm:
            grpo_args_kwargs["use_vllm"] = trl.use_vllm
-            grpo_args_kwargs["vllm_server_host"] = trl.vllm_server_host or trl.vllm.host  # type: ignore[attr-defined]
+            grpo_args_kwargs["vllm_server_host"] = trl.vllm_server_host or trl.vllm.host
-            grpo_args_kwargs["vllm_server_port"] = trl.vllm_server_port or trl.vllm.port  # type: ignore[attr-defined]
+            grpo_args_kwargs["vllm_server_port"] = trl.vllm_server_port or trl.vllm.port
            if trl.vllm_server_timeout:
                grpo_args_kwargs["vllm_server_timeout"] = trl.vllm_server_timeout
            if trl.vllm_guided_decoding_regex:
@@ -106,18 +102,17 @@ class GRPOStrategy:
        return grpo_args_kwargs
    @classmethod
-    def set_trainer_args(cls, cfg: DictDefault) -> list[Any]:
+    def set_trainer_args(cls, cfg):
        trainer_args = []
        if cfg.trl and cfg.trl.reward_funcs:
            reward_funcs = []
            for reward_func_fqn in cfg.trl.reward_funcs:
                reward_funcs.append(cls.get_reward_func(reward_func_fqn))
            trainer_args.append(reward_funcs)
        return trainer_args
    @classmethod
-    def set_trainer_kwargs(cls, cfg: DictDefault) -> dict[str, Any]:
+    def set_trainer_kwargs(cls, cfg):
        trainer_kwargs = {}
        if cfg.trl and cfg.trl.reward_processing_classes:
            trainer_kwargs["reward_processing_classes"] = (
@@ -131,7 +126,7 @@ class GRPOStrategy:
        return None
    @classmethod
-    def get_blocklist_args_kwargs(cls) -> list[str]:
+    def get_blocklist_args_kwargs(cls):
        return ["dataset_num_proc"]
    @classmethod
@@ -142,13 +137,13 @@ class GRPOStrategy:
        Args:
            reward_func_fqn (str): Fully qualified name of the reward function (e.g. r1_grpo.gsm8k_transform),
                or a HF hub path to the reward model.
        Raises:
            ValueError: If the reward function does not accept at least two arguments.
        Returns:
            RewardFunc: A callable that accepts prompts and completions and returns rewards,
                or a path to a reward model.
        Raises:
            ValueError: If the reward function does not accept at least two arguments.
        """
        try:
            # use importlib to dynamically load the reward function from the module
--- a/src/axolotl/core/trainers/grpo/args.py
+++ b/src/axolotl/core/trainers/grpo/args.py
@@ -11,4 +11,6 @@ from axolotl.core.training_args import AxolotlTrainingMixins
@dataclass
 class AxolotlGRPOConfig(AxolotlTrainingMixins, GRPOConfig):
-    """Axolotl GRPO Config for GRPO training"""
+    """
    Axolotl GRPO Config for GRPO training
    """
--- a/src/axolotl/core/trainers/grpo/sampler.py
+++ b/src/axolotl/core/trainers/grpo/sampler.py
@@ -1,172 +0,0 @@
 """Repeat random sampler (similar to the one implemented in
 https://github.com/huggingface/trl/blob/main/trl/trainer/grpo_trainer.py) that adds
 sequence parallelism functionality; i.e., duplicating data across ranks in the same
 sequence parallel group.
 """
 from typing import Iterator, Sized
 import torch
 from torch.utils.data import Sampler
 class SequenceParallelRepeatRandomSampler(Sampler):
    """Sampler for GRPO training with sequence parallelism.
    This sampler ensures:
    - Ranks in the same sequence parallel (SP) group receive identical data.
    - Each index is repeated multiple times for sampling different completions.
    - Entire batches are repeated for reuse in multiple updates.
    - Data is properly distributed across SP groups.
    In the table below, the values represent dataset indices. Each SP group has
    `sequence_parallel_degree = 2` GPUs working together on the same data. There are 2
    SP groups (SP0 and SP1), with `world_size = 4` total GPUs.
                                               Sequence Parallel Groups
                                        |       SP0        |       SP1        |
                                        |  GPU 0  |  GPU 1 |  GPU 2  |  GPU 3 |
                    global_step  step    <---> mini_repeat_count=3
                                            <----------> batch_size=2 per SP group
    grad_accum=2   ▲  ▲  0       0         [0 0 0  1 1 1]     [2 2 2  3 3 3]   <- SP groups get different data
                   ▼  |  0       1         [0 0 0  1 1 1]     [2 2 2  3 3 3]   <- Same data for each SP group GPU
                      |
                      |  1       2         [0 0 0  1 1 1]     [2 2 2  3 3 3]   <- Repeat same indices for iterations
    num_iterations=2  ▼  1       3         [0 0 0  1 1 1]     [2 2 2  3 3 3]   <- When using gradient accumulation
                         2       4         [4 4 4  5 5 5]     [6 6 6  7 7 7]   <- New batch of data indices
                         2       5         [4 4 4  5 5 5]     [6 6 6  7 7 7]
                                            ...
    Args:
        dataset: Dataset to sample from.
        mini_repeat_count: How many times to repeat each sample immediately.
        world_size: Total number of processes.
        rank: Rank of current process.
        batch_size: Number of samples per batch.
        repeat_count: How many times to repeat the full sampling process.
        sequence_parallel_degree: Number of ranks in a sequence parallel group.
        shuffle: Whether to shuffle the dataset.
        seed: Random seed for shuffling.
        drop_last: Whether to drop the last incomplete batch.
    """
    def __init__(
        self,
        dataset: Sized,
        mini_repeat_count: int,
        world_size: int,
        rank: int,
        batch_size: int = 1,
        repeat_count: int = 1,
        sequence_parallel_degree: int = 1,
        shuffle: bool = True,
        seed: int = 0,
        drop_last: bool = False,
    ):
        self.dataset = dataset
        self.mini_repeat_count = mini_repeat_count
        self.batch_size = batch_size
        self.repeat_count = repeat_count
        self.shuffle = shuffle
        self.seed = seed
        self.drop_last = drop_last
        self.epoch = 0
        self.world_size = world_size
        self.rank = rank
        # Sequence parallelism parameters
        self.sequence_parallel_degree = sequence_parallel_degree
        self.num_sp_groups = world_size // sequence_parallel_degree
        self.sp_group_id = rank // sequence_parallel_degree
        # Adjust dataset size for distributed sampling
        self.num_samples = len(self.dataset)
        self.total_size = self.num_samples
        # Calculate effective number of samples per SP group
        if (
            self.drop_last
            and self.total_size % (self.num_sp_groups * self.batch_size) != 0
        ):
            # Drop last incomplete batch if drop_last is True
            self.num_samples_per_sp_group = (
                self.total_size // self.batch_size // self.num_sp_groups
            ) * self.batch_size
        else:
            # Round up to include last batch if drop_last is False
            self.num_samples_per_sp_group = (
                (self.total_size + self.batch_size * self.num_sp_groups - 1)
                // (self.batch_size * self.num_sp_groups)
                * self.batch_size
            )
        if shuffle:
            self.generator = torch.Generator()
            self.generator.manual_seed(seed)
    def __iter__(self) -> Iterator[int]:
        """Creates iterator over dataset indices.
        Returns:
            Iterator that yields indices into the dataset.
        """
        # Deterministically shuffle based on epoch and seed
        if self.shuffle:
            indices = torch.randperm(
                self.num_samples, generator=self.generator
            ).tolist()
        else:
            indices = list(range(self.num_samples))
        # Add extra samples to make it evenly divisible by batch_size
        if len(indices) % self.batch_size != 0:
            padding = indices[: self.batch_size - len(indices) % self.batch_size]
            indices += padding
        # Subsample based on SP group ID
        # Each SP group gets distinct batches of data
        batch_indices = []
        for i in range(0, len(indices), self.batch_size * self.num_sp_groups):
            start_idx = i + self.sp_group_id * self.batch_size
            end_idx = min(start_idx + self.batch_size, len(indices))
            if start_idx < len(indices):
                for j in range(self.batch_size):
                    if start_idx + j < end_idx:
                        batch_indices.append(indices[start_idx + j])
        # Make sure batch_indices is exactly batch_size * num_batches_per_sp_group
        if self.drop_last:
            num_batches_per_sp_group = self.num_samples_per_sp_group // self.batch_size
            target_len = self.batch_size * num_batches_per_sp_group
            if len(batch_indices) > target_len:
                batch_indices = batch_indices[:target_len]
        # Apply the GRPO repeat pattern
        final_indices = []
        for _ in range(self.repeat_count):
            for idx in batch_indices:
                for _ in range(self.mini_repeat_count):
                    final_indices.append(idx)
        return iter(final_indices)
    def __len__(self) -> int:
        """Returns the total length of the iterable including repetitions.
        Returns:
            Total number of samples.
        """
        # Total length including all repetitions
        return (
            self.num_samples_per_sp_group * self.mini_repeat_count * self.repeat_count
        )
    def set_epoch(self, epoch: int) -> None:
        """Sets the epoch for this sampler.
        Args:
            epoch: Epoch number to use for shuffling.
        """
        self.epoch = epoch
--- a/src/axolotl/core/trainers/grpo/trainer.py
+++ b/src/axolotl/core/trainers/grpo/trainer.py
@@ -1,63 +1,23 @@
-"""Axolotl GRPO trainers (with and without sequence parallelism handling)"""
+"""
 Axolotl GRPO trainer
 """
 # pylint: disable=too-many-lines,duplicate-code,protected-access,no-member
 import warnings
 from contextlib import nullcontext
 from typing import Any
-import datasets
+from accelerate.utils import is_deepspeed_available, is_peft_model
 import torch
 import torch.distributed as dist
 import torch.utils.data
 from accelerate.utils import (
    broadcast_object_list,
    gather,
    gather_object,
    is_peft_model,
 )
 from datasets import Dataset, IterableDataset
 from torch import nn
 from torch.utils.data import (
    BatchSampler,
    DataLoader,
    Sampler,
 )
 from transformers import (
    PreTrainedModel,
    PreTrainedTokenizerBase,
    Trainer,
    TrainerCallback,
 )
 from transformers.trainer_utils import seed_worker
 from transformers.utils import is_peft_available
 from trl import GRPOTrainer
-from trl.data_utils import (
+from trl.extras.profiling import profiling_decorator
    apply_chat_template,
    is_conversational,
    maybe_apply_chat_template,
 )
 from trl.extras.profiling import profiling_context, profiling_decorator
 from trl.import_utils import is_deepspeed_available
 from trl.models import unwrap_model_for_generation
 from trl.trainer.grpo_config import GRPOConfig
 from trl.trainer.grpo_trainer import RewardFunc, nanstd
 from trl.trainer.utils import pad
 from axolotl.core.trainers.grpo.sampler import SequenceParallelRepeatRandomSampler
 from axolotl.core.trainers.mixins import RngLoaderMixin, SchedulerMixin
 from axolotl.monkeypatch.attention.ring_attn.patch import get_ring_attn_group
 if is_peft_available():
    # pylint: disable=unused-import
    from peft import PeftConfig
 if is_deepspeed_available():
    import deepspeed
 class AxolotlGRPOTrainer(RngLoaderMixin, SchedulerMixin, GRPOTrainer):
-    """Extend the base GRPOTrainer for axolotl helpers"""
+    """
    Extend the base GRPOTrainer for axolotl helpers
    """
    _tag_names = ["trl", "grpo", "axolotl"]
@@ -107,600 +67,3 @@ class AxolotlGRPOTrainer(RngLoaderMixin, SchedulerMixin, GRPOTrainer):
        # Reset cache on main process
        if self.accelerator.is_main_process:
            self.vllm_client.reset_prefix_cache()
 class AxolotlGRPOSequenceParallelTrainer(AxolotlGRPOTrainer):
    """Extend the base GRPOTrainer for sequence parallelism handling"""
    def __init__(
        self,
        model: str | PreTrainedModel,
        reward_funcs: RewardFunc | list[RewardFunc],
        args: GRPOConfig | None = None,
        train_dataset: Dataset | IterableDataset | None = None,
        eval_dataset: (
            Dataset | IterableDataset | dict[str, Dataset | IterableDataset] | None
        ) = None,
        processing_class: PreTrainedTokenizerBase | None = None,
        reward_processing_classes: (
            PreTrainedTokenizerBase | list[PreTrainedTokenizerBase] | None
        ) = None,
        callbacks: list[TrainerCallback] | None = None,
        optimizers: tuple[
            torch.optim.Optimizer | None, torch.optim.lr_scheduler.LambdaLR | None
        ] = (None, None),
        peft_config: "PeftConfig | None" = None,
    ):
        # First call the superclass constructor with all arguments
        super().__init__(
            model=model,
            reward_funcs=reward_funcs,
            args=args,
            train_dataset=train_dataset,
            eval_dataset=eval_dataset,
            processing_class=processing_class,
            reward_processing_classes=reward_processing_classes,
            callbacks=callbacks,
            optimizers=optimizers,
            peft_config=peft_config,
        )
        # Get number of SP groups (number of processes divided by SP degree)
        num_processes = self.accelerator.num_processes
        num_sp_groups = num_processes // self.args.sequence_parallel_degree
        # Calculate batch size per SP group (not per process)
        sp_group_batch_size = self.args.per_device_train_batch_size * num_sp_groups
        possible_values = [
            n_gen
            for n_gen in range(2, sp_group_batch_size + 1)
            if (sp_group_batch_size) % n_gen == 0
        ]
        if self.num_generations not in possible_values:
            raise ValueError(
                f"The batch size per SP group ({num_sp_groups} x "
                f"{self.args.per_device_train_batch_size}) must be evenly divisible by "
                f"the number of generations per prompt ({self.num_generations}). Given "
                "the current configuration, the valid values for the number of "
                f"generations are: {possible_values}."
            )
        if self.args.eval_strategy != "no":
            # If sequence parallelism is enabled, calculate batch size per SP group
            sp_group_eval_batch_size = args.per_device_eval_batch_size * num_sp_groups  # type: ignore[union-attr]
            possible_values = [
                n_gen
                for n_gen in range(2, sp_group_eval_batch_size + 1)
                if (sp_group_eval_batch_size) % n_gen == 0
            ]
            if self.num_generations not in possible_values:
                raise ValueError(
                    f"With sequence parallelism (degree {self.args.sequence_parallel_degree}), "
                    f"the eval batch size per SP group ({num_sp_groups} x {self.args.per_device_eval_batch_size}) "
                    f"must be evenly divisible by the number of generations per prompt "
                    f"({self.num_generations}). Given the current eval batch size, "
                    f"the valid values for the number of generations are: {possible_values}."
                )
        # Initialize the SP group
        self.sp_group = get_ring_attn_group()
        self.rank = dist.get_rank()
        self.world_size = dist.get_world_size()
        self.local_rank = dist.get_rank(group=self.sp_group)
        self.local_world_size = dist.get_world_size(group=self.sp_group)
    def _get_train_sampler(self) -> Sampler:
        effective_batch_size = (
            self.args.per_device_train_batch_size
            * self.world_size
            * self.args.gradient_accumulation_steps
        )
        return SequenceParallelRepeatRandomSampler(
            dataset=self.train_dataset,
            mini_repeat_count=self.num_generations,
            world_size=self.world_size,
            rank=self.rank,
            batch_size=effective_batch_size
            // self.num_generations
            // self.args.sequence_parallel_degree,
            repeat_count=self.num_iterations * self.args.gradient_accumulation_steps,
            sequence_parallel_degree=self.args.sequence_parallel_degree,
            shuffle=True,
            seed=self.args.seed,
            drop_last=True,
        )
    def _create_dataloader_params(self, is_eval=False, custom_batch_size=None):
        """Create common dataloader parameters for train or eval."""
        batch_size = custom_batch_size or (
            self.args.eval_batch_size if is_eval else self._train_batch_size
        )
        params = {
            "batch_size": batch_size,
            "collate_fn": self.data_collator,
            "num_workers": self.args.dataloader_num_workers,
            "pin_memory": self.args.dataloader_pin_memory,
        }
        # Add persistent workers only for training
        if not is_eval and hasattr(self.args, "dataloader_persistent_workers"):
            params["persistent_workers"] = self.args.dataloader_persistent_workers
        # Add prefetch factor if specified
        if self.args.dataloader_prefetch_factor:
            params["prefetch_factor"] = self.args.dataloader_prefetch_factor
        return params
    def _prepare_dataloader(
        self, dataset, sampler, is_eval=False, custom_batch_size=None
    ):
        """Prepare a dataloader with the given dataset and sampler."""
        # Get base parameters
        dataloader_params = self._create_dataloader_params(is_eval, custom_batch_size)
        # Add sampler configuration
        if not isinstance(dataset, torch.utils.data.IterableDataset):
            if isinstance(sampler, BatchSampler):
                # batch_size and batch_sampler are mutually exclusive
                dataloader_params["batch_sampler"] = sampler
                del dataloader_params["batch_size"]
            else:
                dataloader_params["sampler"] = sampler
                dataloader_params["drop_last"] = self.args.dataloader_drop_last
            if not is_eval:
                dataloader_params["worker_init_fn"] = seed_worker
        # Create the dataloader
        dataloader = DataLoader(dataset, **dataloader_params)
        if self.args.sample_packing and (
            (not is_eval and not self.args.pretraining)
            or (is_eval and self.args.eval_sample_packing is not False)
        ):
            self.accelerator.even_batches = False
        # Return unprepared dataloader if using sequence parallelism
        # TODO(djsaunde): We might be able to use `accelerate`'s dataloader preparation
        # if we use `dispatch_batches` and `slice_fn_for_dispatch` properly (i.e.,
        # slice each batch along the sequence dimension).
        if self.args.sequence_parallel_degree > 1:
            return dataloader
        # Otherwise prepare with accelerator
        return self.accelerator.prepare_data_loader(dataloader)
    def get_train_dataloader(self) -> DataLoader:
        """Get dataloader for training"""
        train_dataset = self.train_dataset
        # pylint: disable=access-member-before-definition
        data_collator = self.data_collator  # type: ignore
        # Handle dataset preprocessing
        if isinstance(train_dataset, datasets.Dataset):
            # Add debug print before any modifications
            if self.args.sample_packing and not self.args.pretraining:
                train_dataset = train_dataset.remove_columns(["length"])
            if not self.args.sample_packing or self.args.pretraining:
                train_dataset = self._remove_unused_columns(
                    train_dataset, description="training"
                )
        else:
            self.data_collator = self._get_collator_with_removed_columns(  # pylint: disable=attribute-defined-outside-init
                data_collator,
                description="training",
            )
        # Get sampler and create dataloader
        sampler = self._get_train_sampler()
        dataloader = self._prepare_dataloader(train_dataset, sampler, is_eval=False)
        return dataloader
    def _generate_and_score_completions(
        self, inputs: list[dict[str, torch.Tensor | Any]]
    ) -> dict[str, torch.Tensor | Any]:
        device = self.accelerator.device
        mode = "eval" if self.control.should_evaluate else "train"
        prompts = [x["prompt"] for x in inputs]
        prompts_text = [
            maybe_apply_chat_template(example, self.processing_class)["prompt"]
            for example in inputs
        ]
        prompt_inputs = self.processing_class(
            text=prompts_text,
            return_tensors="pt",
            padding=True,
            padding_side="left",
            add_special_tokens=False,
        )
        prompt_inputs = Trainer._prepare_inputs(self, prompt_inputs)
        prompt_ids, prompt_mask = (
            prompt_inputs["input_ids"],
            prompt_inputs["attention_mask"],
        )
        if self.max_prompt_length is not None:
            prompt_ids = prompt_ids[:, -self.max_prompt_length :]
            prompt_mask = prompt_mask[:, -self.max_prompt_length :]
        # Generate completions using either vLLM or regular generation
        if self.args.use_vllm:
            # First, have main process load weights if needed
            # pylint: disable=access-member-before-definition
            if self.state.global_step != self._last_loaded_step:  # type: ignore[has-type]
                self._move_model_to_vllm()
                # pylint: disable=attribute-defined-outside-init
                self._last_loaded_step = self.state.global_step
            # Generate completions using vLLM: gather all prompts and use them in a single call in the main process
            all_prompts_text = gather_object(prompts_text)
            if self.accelerator.is_main_process:
                if self.args.sequence_parallel_degree > 1:
                    # Calculate sequence parallel group information
                    world_size = self.accelerator.num_processes
                    sequence_parallel_degree = self.args.sequence_parallel_degree
                    num_sp_groups = world_size // sequence_parallel_degree
                    # Since processes in the same SP group have the same prompts, we need to ensure
                    # we only take one copy of each prompt from each SP group
                    ordered_set_of_prompts = []
                    for sp_group_id in range(num_sp_groups):
                        # Get the first process from each SP group (typically the group leader)
                        group_leader_rank = sp_group_id * sequence_parallel_degree
                        # Extract prompts from this SP group, accounting for num_generations duplicates
                        # We only need prompts from one rank in each SP group
                        group_prompts = all_prompts_text[
                            group_leader_rank
                            * len(prompts_text) : (group_leader_rank + 1)
                            * len(prompts_text) : self.num_generations
                        ]
                        ordered_set_of_prompts.extend(group_prompts)
                else:
                    # Since 'prompts' contains 'num_generations' duplicates, we first take unique prompts, and generate
                    # num_generations outputs for each one. This is faster than generating outputs for each duplicate
                    # prompt individually.
                    ordered_set_of_prompts = all_prompts_text[
                        :: self.num_generations * self.args.sequence_parallel_degree
                    ]
                with profiling_context(self, "vLLM.generate"):
                    completion_ids = self.vllm_client.generate(
                        prompts=ordered_set_of_prompts,
                        n=self.num_generations,
                        repetition_penalty=self.repetition_penalty,
                        temperature=self.temperature,
                        top_p=self.top_p,
                        top_k=-1 if self.top_k is None else self.top_k,
                        min_p=0.0 if self.min_p is None else self.min_p,
                        max_tokens=self.max_completion_length,
                        guided_decoding_regex=self.guided_decoding_regex,
                    )
            else:
                completion_ids = [None] * (
                    len(all_prompts_text) // self.args.sequence_parallel_degree
                )
            # Broadcast the completions from the main process to all processes
            completion_ids = broadcast_object_list(completion_ids, from_process=0)
            # Determine the appropriate slice based on sequence parallelism
            if self.args.sequence_parallel_degree > 1:
                # Calculate SP group ID (which group of ranks this rank belongs to)
                sp_group_id = self.accelerator.process_index // self.local_world_size
                # Calculate the start index for this SP group
                sp_group_start = sp_group_id * len(prompts) * self.local_world_size
                # All ranks in the same SP group get the same data slice
                process_slice = slice(
                    sp_group_start,
                    sp_group_start + len(prompts),
                )
                completion_ids = completion_ids[process_slice]
            else:
                # Original behavior for non-sequence parallel case
                process_slice = slice(
                    self.accelerator.process_index * len(prompts),
                    (self.accelerator.process_index + 1) * len(prompts),
                )
                completion_ids = completion_ids[process_slice]
            # Pad the completions, and concatenate them with the prompts
            completion_ids = [
                torch.tensor(ids, device=device) for ids in completion_ids
            ]
            completion_ids = pad(
                completion_ids, padding_value=self.processing_class.pad_token_id
            )
            prompt_completion_ids = torch.cat([prompt_ids, completion_ids], dim=1)
        else:
            # Regular generation path
            with unwrap_model_for_generation(
                self.model_wrapped,
                self.accelerator,
                gather_deepspeed3_params=self.args.ds3_gather_for_generation,
            ) as unwrapped_model:
                prompt_completion_ids = unwrapped_model.generate(
                    prompt_ids,
                    attention_mask=prompt_mask,
                    generation_config=self.generation_config,
                )
            # Compute prompt length and extract completion ids
            prompt_length = prompt_ids.size(1)
            prompt_ids = prompt_completion_ids[:, :prompt_length]
            completion_ids = prompt_completion_ids[:, prompt_length:]
        # Mask everything after the first EOS token
        is_eos = completion_ids == self.processing_class.eos_token_id
        eos_idx = torch.full(
            (is_eos.size(0),), is_eos.size(1), dtype=torch.long, device=device
        )
        eos_idx[is_eos.any(dim=1)] = is_eos.int().argmax(dim=1)[is_eos.any(dim=1)]
        sequence_indices = torch.arange(is_eos.size(1), device=device).expand(
            is_eos.size(0), -1
        )
        completion_mask = (sequence_indices <= eos_idx.unsqueeze(1)).int()
        # If mask_truncated_completions is enabled, zero out truncated completions in completion_mask
        if self.args.mask_truncated_completions:
            truncated_completions = ~is_eos.any(dim=1)
            completion_mask = (
                completion_mask * (~truncated_completions).unsqueeze(1).int()
            )
        # Concatenate prompt_mask with completion_mask for logit computation
        attention_mask = torch.cat([prompt_mask, completion_mask], dim=1)  # (B, P+C)
        logits_to_keep = completion_ids.size(
            1
        )  # we only need to compute the logits for the completion tokens
        batch_size = (
            self.args.per_device_train_batch_size
            if mode == "train"
            else self.args.per_device_eval_batch_size
        )
        with torch.no_grad():
            # When using num_iterations == 1, old_per_token_logps == per_token_logps, so we can skip it's
            # computation here, and use per_token_logps.detach() instead.
            if self.num_iterations > 1:
                old_per_token_logps = self._get_per_token_logps(
                    self.model,
                    prompt_completion_ids,
                    attention_mask,
                    logits_to_keep,
                    batch_size,
                )
            else:
                old_per_token_logps = None
            if self.beta == 0.0:
                ref_per_token_logps = None
            elif self.ref_model is not None:
                ref_per_token_logps = self._get_per_token_logps(
                    self.ref_model,
                    prompt_completion_ids,
                    attention_mask,
                    logits_to_keep,
                    batch_size,
                )
            else:
                with self.accelerator.unwrap_model(self.model).disable_adapter():
                    ref_per_token_logps = self._get_per_token_logps(
                        self.model,
                        prompt_completion_ids,
                        attention_mask,
                        logits_to_keep,
                        batch_size,
                    )
        # Decode the generated completions
        completions_text = self.processing_class.batch_decode(
            completion_ids, skip_special_tokens=True
        )
        if is_conversational(inputs[0]):
            completions = []
            for prompt, completion in zip(prompts, completions_text):
                bootstrap = (
                    prompt.pop()["content"] if prompt[-1]["role"] == "assistant" else ""
                )
                completions.append(
                    [{"role": "assistant", "content": bootstrap + completion}]
                )
        else:
            completions = completions_text
        rewards_per_func = torch.zeros(
            len(prompts), len(self.reward_funcs), device=device
        )
        for i, (reward_func, reward_processing_class, reward_func_name) in enumerate(
            zip(
                self.reward_funcs,
                self.reward_processing_classes,
                self.reward_func_names,
            )
        ):
            with profiling_context(self, reward_func_name):
                if isinstance(
                    reward_func, nn.Module
                ):  # Module instead of PretrainedModel for compat with compiled models
                    if is_conversational(inputs[0]):
                        messages = [
                            {"messages": p + c} for p, c in zip(prompts, completions)
                        ]
                        texts = [
                            apply_chat_template(x, reward_processing_class)["text"]
                            for x in messages
                        ]
                    else:
                        texts = [p + c for p, c in zip(prompts, completions)]
                    reward_inputs = reward_processing_class(
                        text=texts,
                        return_tensors="pt",
                        padding=True,
                        padding_side="right",
                        add_special_tokens=False,
                    )
                    reward_inputs = Trainer._prepare_inputs(self, reward_inputs)
                    with torch.inference_mode():
                        rewards_per_func[:, i] = reward_func(**reward_inputs).logits[
                            :, 0
                        ]  # Shape (B*G,)
                else:
                    # Repeat all input columns (but "prompt" and "completion") to match the number of generations
                    keys = [
                        key for key in inputs[0] if key not in ["prompt", "completion"]
                    ]
                    reward_kwargs = {
                        key: [example[key] for example in inputs] for key in keys
                    }
                    output_reward_func = reward_func(
                        prompts=prompts, completions=completions, **reward_kwargs
                    )
                    # Convert None values to NaN
                    output_reward_func = [
                        reward if reward is not None else torch.nan
                        for reward in output_reward_func
                    ]
                    rewards_per_func[:, i] = torch.tensor(
                        output_reward_func, dtype=torch.float32, device=device
                    )
        # If all reward functions return None for a given row, issue a detailed warning
        if torch.isnan(rewards_per_func).all(dim=1).any():
            nan_row_idx = (
                torch.isnan(rewards_per_func).all(dim=1).nonzero(as_tuple=True)[0][0]
            )
            row_reward_kwargs = {
                key: value[nan_row_idx] for key, value in reward_kwargs.items()
            }
            row_reward_kwargs["prompt"] = prompts[nan_row_idx]
            row_reward_kwargs["completion"] = completions[nan_row_idx]
            warnings.warn(
                f"All reward functions returned None for the following kwargs: {row_reward_kwargs}. "
                "Please ensure that at least one reward function returns a valid reward."
            )
        # Gather the reward per function: this part is crucial, because the rewards are normalized per group and the
        # completions may be distributed across processes
        rewards_per_func = gather(rewards_per_func)
        # Apply weights to each reward function's output and sum
        rewards = (
            rewards_per_func * self.reward_weights.to(device).unsqueeze(0)
        ).nansum(dim=1)
        # Compute grouped-wise rewards
        mean_grouped_rewards = rewards.view(-1, self.num_generations).mean(dim=1)
        std_grouped_rewards = rewards.view(-1, self.num_generations).std(dim=1)
        # Normalize the rewards to compute the advantages
        mean_grouped_rewards = mean_grouped_rewards.repeat_interleave(
            self.num_generations, dim=0
        )
        std_grouped_rewards = std_grouped_rewards.repeat_interleave(
            self.num_generations, dim=0
        )
        advantages = rewards - mean_grouped_rewards
        if self.args.scale_rewards:
            advantages = advantages / (std_grouped_rewards + 1e-4)
        # Slice to keep only the local part of the data
        if self.args.sequence_parallel_degree > 1:
            # Calculate SP group ID (which group of ranks this rank belongs to)
            sp_group_id = self.accelerator.process_index // self.local_world_size
            # Calculate the start index for this SP group
            sp_group_start = sp_group_id * len(prompts) * self.local_world_size
            # All ranks in the same SP group get the same data slice
            process_slice = slice(
                sp_group_start,
                sp_group_start + len(prompts),
            )
        else:
            # Original behavior for non-sequence parallel case
            process_slice = slice(
                self.accelerator.process_index * len(prompts),
                (self.accelerator.process_index + 1) * len(prompts),
            )
        advantages = advantages[process_slice]
        # Log the metrics
        if mode == "train":
            self._total_train_tokens += (
                self.accelerator.gather_for_metrics(attention_mask.sum()).sum().item()
            )
        self._metrics[mode]["num_tokens"] = [self._total_train_tokens]
        # log completion lengths, mean, min, max
        agg_completion_mask = self.accelerator.gather_for_metrics(
            completion_mask.sum(1)
        )
        self._metrics[mode]["completions/mean_length"].append(
            agg_completion_mask.float().mean().item()
        )
        self._metrics[mode]["completions/min_length"].append(
            agg_completion_mask.float().min().item()
        )
        self._metrics[mode]["completions/max_length"].append(
            agg_completion_mask.float().max().item()
        )
        # identify sequences that terminated with EOS and log their lengths
        agg_terminated_with_eos = self.accelerator.gather_for_metrics(is_eos.any(dim=1))
        term_completion_mask = agg_completion_mask[agg_terminated_with_eos]
        clipped_completions_ratio = 1 - len(term_completion_mask) / len(
            agg_completion_mask
        )
        self._metrics[mode]["completions/clipped_ratio"].append(
            clipped_completions_ratio
        )
        if len(term_completion_mask) == 0:
            # edge case where no completed sequences are found
            term_completion_mask = torch.zeros(1, device=device)
        self._metrics[mode]["completions/mean_terminated_length"].append(
            term_completion_mask.float().mean().item()
        )
        self._metrics[mode]["completions/min_terminated_length"].append(
            term_completion_mask.float().min().item()
        )
        self._metrics[mode]["completions/max_terminated_length"].append(
            term_completion_mask.float().max().item()
        )
        # Calculate mean reward per function, but only for samples where the function was applied (non-NaN values)
        for i, reward_func_name in enumerate(self.reward_func_names):
            mean_rewards = torch.nanmean(rewards_per_func[:, i]).item()
            self._metrics[mode][f"rewards/{reward_func_name}/mean"].append(mean_rewards)
            std_rewards = nanstd(rewards_per_func[:, i]).item()
            self._metrics[mode][f"rewards/{reward_func_name}/std"].append(std_rewards)
        self._metrics[mode]["reward"].append(mean_grouped_rewards.mean().item())
        self._metrics[mode]["reward_std"].append(std_grouped_rewards.mean().item())
        # Log prompt and completion texts
        self._textual_logs["prompt"].extend(gather_object(prompts_text))
        self._textual_logs["completion"].extend(gather_object(completions_text))
        for i, name in enumerate(self.reward_func_names):
            self._textual_logs["rewards"][name].extend(rewards_per_func[:, i].tolist())
        return {
            "prompt_ids": prompt_ids,
            "prompt_mask": prompt_mask,
            "completion_ids": completion_ids,
            "completion_mask": completion_mask,
            "advantages": advantages,
            "old_per_token_logps": old_per_token_logps,
            "ref_per_token_logps": ref_per_token_logps,
        }
--- a/src/axolotl/core/trainers/mixins/init.py
+++ b/src/axolotl/core/trainers/mixins/init.py
@@ -6,4 +6,4 @@
 from .optimizer import OptimizerMixin
 from .rng_state_loader import RngLoaderMixin
 from .scheduler import SchedulerMixin
-from .sequence_parallel import SequenceParallelMixin
+from .sequence_parallel import SequenceParallelContextManager, SequenceParallelMixin
--- a/src/axolotl/core/trainers/mixins/sequence_parallel.py
+++ b/src/axolotl/core/trainers/mixins/sequence_parallel.py
@@ -1,13 +1,85 @@
-"""Module for Axolotl trainer sequence parallelism mixin"""
+"""
 Module for Axolotl trainer sequence parallelism mixin and training context manager
 """
 import functools
 import logging
 import torch
 import torch.distributed as dist
 from datasets import Dataset
 from torch import nn
 from torch.utils.data import DistributedSampler, Sampler
 from torch.utils.hooks import RemovableHandle
 from axolotl.monkeypatch.attention.ring_attn import (
    RingAttnFunc,
    get_ring_attn_group,
    update_ring_attn_params,
 )
 LOG = logging.getLogger(__name__)
 def apply_sequence_parallelism(
    batch: dict[str, torch.Tensor],
    local_rank: int,
    local_world_size: int,
    ring_attn_func: RingAttnFunc,
 ) -> dict[str, torch.Tensor]:
    """
    Apply sequence parallelism slicing to a batch.
    Args:
        batch: Batch dictionary (e.g., input_ids, attention_mask, etc.)
        local_rank: Local rank in the sequence parallel group
        local_world_size: World size of the sequence parallel group
        ring_attn_func: The ring attention function to use
    Returns:
        Sliced batch dictionary.
    """
    # Update ring attention params if needed
    if batch.get("position_ids") is not None:
        update_ring_attn_params(position_ids=batch["position_ids"])
    # Slice batch for sequence parallel processing
    total_seq_len = batch["input_ids"].size(1)
    for key in batch:
        if (
            key in batch
            and isinstance(batch[key], torch.Tensor)
            and batch[key].dim() > 1
            and batch[key].size(1) == total_seq_len
        ):
            if ring_attn_func in [
                RingAttnFunc.VARLEN_LLAMA3,
                RingAttnFunc.BATCH_RING,
            ]:
                # Split in sequential fashion and grab this rank's chunk
                batch[key] = (
                    batch[key].chunk(local_world_size, dim=1)[local_rank].contiguous()
                )
            elif ring_attn_func is RingAttnFunc.BATCH_ZIGZAG:
                chunks = batch[key].chunk(2 * local_world_size, dim=1)
                # Take rank's chunk and opposing chunk for zigzag pattern
                selected_chunks = [
                    chunks[local_rank],
                    chunks[2 * local_world_size - local_rank - 1],
                ]
                batch[key] = torch.cat(selected_chunks, dim=1).contiguous()
            elif ring_attn_func is RingAttnFunc.BATCH_STRIPE:
                # Split into striped data and stack
                tensor = torch.stack(
                    batch[key].split(local_world_size, dim=1),
                    dim=1,
                ).transpose(1, 2)
                batch[key] = tensor[:, local_rank].contiguous()
    return batch
 class SequenceParallelMixin:
    """
@@ -85,3 +157,157 @@ class SequenceParallelMixin:
        return self._create_sequence_parallel_sampler(
            eval_dataset, shuffle=False, is_eval=True
        )
 class SequenceParallelContextManager:
    """
    Context manager for sequence parallelism operations.
    This class provides a context that will automatically apply sequence parallelism
    during model forward passes using a pre-forward hook, and gather outputs from
    across the sequence parallelism group using a post-forward hook.
    """
    def __init__(
        self,
        model: nn.Module,
        sequence_parallel_degree: int,
        ring_attn_func: RingAttnFunc,
    ):
        self.model = model
        self.sequence_parallel_degree = sequence_parallel_degree
        self.ring_attn_func = ring_attn_func
        self.process_group = get_ring_attn_group()
        # Initialize sequence parallel group details
        self.local_rank = dist.get_rank(self.process_group)
        self.local_world_size = dist.get_world_size(self.process_group)
        # Will store hook handles for removal
        self.hook_handles: list[RemovableHandle] = []
        # Create a partially applied version of the apply_sequence_parallelism function
        # with pre-configured params
        self.apply_sequence_parallelism = functools.partial(
            apply_sequence_parallelism,
            local_rank=self.local_rank,
            local_world_size=self.local_world_size,
            ring_attn_func=self.ring_attn_func,
        )
    def __enter__(self):
        # Forward pre-hook to apply sequence parallelism
        def sequence_parallel_pre_hook(_, args, kwargs):
            # Apply sequence parallelism to kwargs
            kwargs = self.apply_sequence_parallelism(batch=kwargs)
            return args, kwargs
        # Forward post-hook to gather outputs
        def sequence_parallel_post_hook(_, __, output):
            # Gather the sharded outputs
            return self.gather_outputs(output)
        # Register both hooks
        self.hook_handles.append(
            self.model.register_forward_pre_hook(
                sequence_parallel_pre_hook, with_kwargs=True
            )
        )
        self.hook_handles.append(
            self.model.register_forward_hook(sequence_parallel_post_hook)
        )
        return self
    def __exit__(self, exc_type, exc_val, exc_tb):
        # Remove all hooks
        for handle in self.hook_handles:
            handle.remove()
        self.hook_handles = []
    def gather_outputs(self, output):
        """Gather sharded outputs from all ranks and reconstruct the full tensor."""
        # Handle different output formats (dict, tensor, etc.)
        if isinstance(output, dict):
            gathered_output = {}
            for key, value in output.items():
                if isinstance(value, torch.Tensor) and value.dim() > 1:
                    # Gather logits or other sequence-sharded tensors
                    gathered_value = self.gather_tensor(value)
                    gathered_output[key] = gathered_value
                else:
                    gathered_value = value.clone()
                    dist.all_reduce(
                        gathered_value, op=dist.ReduceOp.SUM, group=self.process_group
                    )
                    gathered_output[key] = gathered_value
            return gathered_output
        if isinstance(output, torch.Tensor):
            return self.gather_tensor(output)
        return output
    def gather_tensor(self, tensor):
        """Gather a sharded tensor from all ranks."""
        # Prepare tensors for all_gather
        world_size = self.local_world_size
        # Create list to store tensors from all ranks
        gathered_tensors = [torch.zeros_like(tensor) for _ in range(world_size)]
        # All-gather operation
        dist.all_gather(gathered_tensors, tensor, group=self.process_group)
        # Concatenate along sequence dimension (typically dim=1)
        if self.ring_attn_func in [RingAttnFunc.VARLEN_LLAMA3, RingAttnFunc.BATCH_RING]:
            # Simple concatenation for standard sharding
            return torch.cat(gathered_tensors, dim=1)
        if self.ring_attn_func is RingAttnFunc.BATCH_ZIGZAG:
            # Each rank has a pattern of (rank, world_size*2-rank-1)
            reconstituted_tensors = [None] * (world_size * 2)
            # First, split each gathered tensor into its two chunks
            for rank, gathered_tensor in enumerate(gathered_tensors):
                # Each tensor contains two chunks in the sequence dimension
                chunk_size = gathered_tensor.size(1) // 2
                chunk1, chunk2 = gathered_tensor.split(chunk_size, dim=1)
                # Place chunks in their original positions
                reconstituted_tensors[rank] = chunk1
                reconstituted_tensors[world_size * 2 - rank - 1] = chunk2
            # Concatenate the reconstituted tensors in the correct order
            return torch.cat(reconstituted_tensors, dim=1)
        # Otherwise, RingAttnFunc.BATCH_STRIPE
        # In striping, each rank has every world_size-th slice
        batch_size = tensor.size(0)
        hidden_dim = tensor.size(-1)
        # First, determine the full sequence length
        total_seq_len = 0
        for t in gathered_tensors:
            total_seq_len += t.size(1)
        # Create a tensor to hold the unstriped result
        result = torch.zeros(
            batch_size,
            total_seq_len,
            hidden_dim,
            dtype=tensor.dtype,
            device=tensor.device,
        )
        # For each rank's tensor, distribute its slices to the correct positions
        for rank, gathered_tensor in enumerate(gathered_tensors):
            # The rank's tensor contains every world_size-th slice
            # starting from its rank position
            seq_len = gathered_tensor.size(1)
            for i in range(seq_len):
                # Calculate the position in the full tensor
                pos = i * world_size + rank
                if pos < total_seq_len:
                    result[:, pos] = gathered_tensor[:, i]
        return result
--- a/src/axolotl/core/training_args.py
+++ b/src/axolotl/core/training_args.py
@@ -9,7 +9,7 @@ from PIL.Image import Resampling
 from transformers import TrainingArguments
 from trl import CPOConfig, KTOConfig, ORPOConfig, PRMConfig, RewardConfig
-from axolotl.utils.schemas.enums import RingAttnFunc
+from axolotl.monkeypatch.attention.ring_attn.patch import RingAttnFunc
@dataclass
--- a/src/axolotl/integrations/base.py
+++ b/src/axolotl/integrations/base.py
@@ -26,8 +26,6 @@ from typing import OrderedDict
 import torch
 from torch.optim.lr_scheduler import LRScheduler
 from axolotl.utils.dict import DictDefault
 class BasePlugin:
    """
@@ -38,13 +36,11 @@ class BasePlugin:
    Methods:
    register(cfg): Registers the plugin with the given configuration.
    load_datasets(cfg): Loads and preprocesses the dataset for training.
    pre_model_load(cfg): Performs actions before the model is loaded.
    post_model_build(cfg, model): Performs actions after the model is loaded, but before LoRA adapters are applied.
    pre_lora_load(cfg, model): Performs actions before LoRA weights are loaded.
    post_lora_load(cfg, model): Performs actions after LoRA weights are loaded.
    post_model_load(cfg, model): Performs actions after the model is loaded, inclusive of any adapters.
    post_trainer_create(cfg, trainer): Performs actions after the trainer is created.
    create_optimizer(cfg, trainer): Creates and returns an optimizer for training.
    create_lr_scheduler(cfg, trainer, optimizer, num_training_steps): Creates and returns a learning rate scheduler.
    add_callbacks_pre_trainer(cfg, model): Adds callbacks to the trainer before training.
@@ -67,32 +63,20 @@ class BasePlugin:
        None
        """
-    def get_input_args(self) -> str | None:
+    def get_input_args(self):
        """
        Returns a pydantic model for the plugin's input arguments.
        """
    def load_datasets(self, cfg: DictDefault, preprocess: bool = False):
        """
        Loads and preprocesses the dataset for training.
        Args:
            cfg: The configuration for the plugin.
            preprocess: Whether this is the preprocess step of the datasets.
        Returns:
            dataset_meta: The metadata for the training dataset.
        """
    def pre_model_load(self, cfg):  # pylint: disable=unused-argument
        """
        Performs actions before the model is loaded.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
        Returns:
-            None
+        None
        """
    def post_model_build(self, cfg, model):  # pylint: disable=unused-argument
@@ -107,71 +91,59 @@ class BasePlugin:
        """
        Performs actions after the model is loaded.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
-            model (object): The loaded model.
+        model (object): The loaded model.
        Returns:
-            None
+        None
        """
    def pre_lora_load(self, cfg, model):  # pylint: disable=unused-argument
        """
        Performs actions before LoRA weights are loaded.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
-            model (object): The loaded model.
+        model (object): The loaded model.
        Returns:
-            None
+        None
        """
    def post_lora_load(self, cfg, model):  # pylint: disable=unused-argument
        """
        Performs actions after LoRA weights are loaded.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
-            model (object): The loaded model.
+        model (object): The loaded model.
        Returns:
-            None
+        None
        """
    def get_trainer_cls(self, cfg):  # pylint: disable=unused-argument):
        """
        Returns a custom class for the trainer.
-        Args:
+        Parameters:
-            cfg (dict): The global axolotl configuration.
+        cfg (dict): The global axolotl configuration.
        Returns:
-            class: The class for the trainer.
+        class: The class for the trainer.
        """
    def post_trainer_create(self, cfg, trainer):  # pylint: disable=unused-argument
        """
        Performs actions after the trainer is created.
        Args:
            cfg (dict): The configuration for the plugin.
            trainer (object): The trainer object for training.
        Returns:
            None
        """
    def create_optimizer(self, cfg, trainer):  # pylint: disable=unused-argument
        """
        Creates and returns an optimizer for training.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
-            trainer (object): The trainer object for training.
+        trainer (object): The trainer object for training.
        Returns:
-            object: The created optimizer.
+        object: The created optimizer.
        """
    def create_lr_scheduler(
@@ -180,26 +152,26 @@ class BasePlugin:
        """
        Creates and returns a learning rate scheduler.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
-            trainer (object): The trainer object for training.
+        trainer (object): The trainer object for training.
-            optimizer (object): The optimizer for training.
+        optimizer (object): The optimizer for training.
-            num_training_steps (int): Total number of training steps
+        num_training_steps (int): Total number of training steps
        Returns:
-            object (LRScheduler): The created learning rate scheduler.
+        object (LRScheduler): The created learning rate scheduler.
        """
    def add_callbacks_pre_trainer(self, cfg, model):  # pylint: disable=unused-argument
        """
        setup callbacks before creating the trainer.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
-            model (object): The loaded model.
+        model (object): The loaded model.
        Returns:
-            List[callable]: A list of callback functions to be added to the TrainingArgs
+        List[callable]: A list of callback functions to be added to the TrainingArgs
        """
        return []
@@ -210,12 +182,12 @@ class BasePlugin:
        Adds callbacks to the trainer after creating the trainer.
        This is useful for callbacks that require access to the model or trainer.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
-            trainer (object): The trainer object for training.
+        trainer (object): The trainer object for training.
        Returns:
-            List[callable]: A list of callback functions to be added
+        List[callable]: A list of callback functions to be added
        """
        return []
@@ -223,23 +195,23 @@ class BasePlugin:
        """
        Performs actions after training is complete.
-        Args:
+        Parameters:
-            cfg (dict): The axolotl configuration
+        cfg (dict): The axolotl configuration
-            model (object): The loaded model.
+        model (object): The loaded model.
        Returns:
-            None
+        None
        """
    def post_train_unload(self, cfg):  # pylint: disable=unused-argument
        """
        Performs actions after training is complete and the model is unloaded.
-        Args:
+        Parameters:
-            cfg (dict): The configuration for the plugin.
+        cfg (dict): The configuration for the plugin.
        Returns:
-            None
+        None
        """
@@ -366,27 +338,6 @@ class PluginManager:
                input_args.append(input_args_from_plugin)
        return input_args
    def load_datasets(self, cfg, preprocess: bool = False):
        """
        Calls the load_datasets method of each registered plugin.
        Args:
            cfg: The configuration for the plugins.
            preprocess : Whether this is preprocess step of the datasets.
        Returns:
            dataset_meta: The dataset metadata loaded from all registered plugins.
        """
        return_ds_meta = None
        for plugin in self.plugins.values():
            dataset_meta = plugin.load_datasets(cfg, preprocess)
            if dataset_meta is not None:
                if return_ds_meta is None:
                    return_ds_meta = dataset_meta
                else:
                    raise RuntimeError("Multiple plugins loaded datasets")
        return return_ds_meta
    def pre_model_load(self, cfg):
        """
        Calls the pre_model_load method of all registered plugins.
@@ -471,20 +422,6 @@ class PluginManager:
                return trainer_cls
        return None
    def post_trainer_create(self, cfg, trainer):
        """
        Calls the post_trainer_create method of all registered plugins.
        Parameters:
        cfg (dict): The configuration for the plugins.
        trainer (object): The trainer object for training.
        Returns:
        None
        """
        for plugin in self.plugins.values():
            plugin.post_trainer_create(cfg, trainer)
    def create_optimizer(self, trainer):
        """
        Calls the create_optimizer method of all registered plugins and returns the first non-None optimizer.
--- a/src/axolotl/integrations/cut_cross_entropy/init.py
+++ b/src/axolotl/integrations/cut_cross_entropy/init.py
@@ -72,7 +72,7 @@ class CutCrossEntropyPlugin(BasePlugin):
        if cfg.cut_cross_entropy:
            self._check_requirements()
-            from axolotl.integrations.cut_cross_entropy.monkeypatch.patch import (
+            from .monkeypatch.patch import (
                cce_patch,
            )
--- a/src/axolotl/monkeypatch/attention/ring_attn/init.py
+++ b/src/axolotl/monkeypatch/attention/ring_attn/init.py
@@ -4,6 +4,7 @@
 # flake8: noqa
 from .patch import (
    RingAttnFunc,
    get_ring_attn_group,
    register_ring_attn,
    set_ring_attn_group,
--- a/src/axolotl/monkeypatch/attention/ring_attn/adapters/batch.py
+++ b/src/axolotl/monkeypatch/attention/ring_attn/adapters/batch.py
@@ -16,7 +16,11 @@ import torch
 import torch.distributed as dist
 import transformers
 import transformers.modeling_flash_attention_utils
-from ring_flash_attn import ring_flash_attn_func
+from ring_flash_attn import (
    ring_flash_attn_func,
    stripe_flash_attn_func,
    zigzag_ring_flash_attn_func,
 )
 from ring_flash_attn.adapters.hf_adapter import check_params
 from transformers.modeling_flash_attention_utils import (
    _flash_supports_window_size,
@@ -24,12 +28,12 @@ from transformers.modeling_flash_attention_utils import (
 )
 from transformers.modeling_utils import ALL_ATTENTION_FUNCTIONS
-from axolotl.utils.schemas.enums import RingAttnFunc
+from axolotl.monkeypatch.attention.ring_attn.patch import RingAttnFunc
 RING_ATTN_FUNC_MAPPING = {
-    RingAttnFunc.BATCH_RING: torch.compile(ring_flash_attn_func),
+    RingAttnFunc.BATCH_RING: ring_flash_attn_func,
-    # RingAttnFunc.BATCH_ZIGZAG: torch.compile(zigzag_ring_flash_attn_func),
+    RingAttnFunc.BATCH_ZIGZAG: zigzag_ring_flash_attn_func,
-    # RingAttnFunc.BATCH_STRIPE: torch.compile(stripe_flash_attn_func),
+    RingAttnFunc.BATCH_STRIPE: stripe_flash_attn_func,
 }
--- a/src/axolotl/monkeypatch/attention/ring_attn/patch.py
+++ b/src/axolotl/monkeypatch/attention/ring_attn/patch.py
@@ -6,12 +6,13 @@ package, specifically the `hf_adapter.substitute_hf_flash_attn` function to patc
 their sequence parallel version of Flash Attention 2.
 """
 from enum import Enum
 import torch
 import torch.distributed as dist
 from accelerate.logging import get_logger
 from axolotl.monkeypatch.utils import get_cu_seqlens_from_pos_ids
 from axolotl.utils.schemas.enums import RingAttnFunc
 LOG = get_logger(__name__)
@@ -40,6 +41,17 @@ def set_ring_attn_group(ring_attn_group: dist.ProcessGroup | None):
    RING_ATTN_GROUP = ring_attn_group
 class RingAttnFunc(str, Enum):
    """Enum class for supported `ring-flash-attn` implementations"""
    # VARLEN_RING = "varlen_ring"
    # VARLEN_ZIGZAG = "varlen_zigzag"
    VARLEN_LLAMA3 = "varlen_llama3"
    BATCH_RING = "batch_ring"
    BATCH_ZIGZAG = "batch_zigzag"
    BATCH_STRIPE = "batch_stripe"
 def register_ring_attn(
    sequence_parallel_degree: int,
    heads_k_stride: int | None,
@@ -105,7 +117,11 @@ def register_ring_attn(
        substitute_hf_flash_attn(
            process_group=get_ring_attn_group(), heads_k_stride=heads_k_stride or 1
        )
-    elif ring_attn_func is RingAttnFunc.BATCH_RING:
+    elif ring_attn_func in [
        RingAttnFunc.BATCH_RING,
        RingAttnFunc.BATCH_ZIGZAG,
        RingAttnFunc.BATCH_STRIPE,
    ]:
        from axolotl.monkeypatch.attention.ring_attn.adapters.batch import (
            substitute_hf_flash_attn,
        )
--- a/src/axolotl/monkeypatch/loss/init.py
+++ b/src/axolotl/monkeypatch/loss/init.py
--- a/src/axolotl/monkeypatch/loss/chunked.py
+++ b/src/axolotl/monkeypatch/loss/chunked.py
@@ -0,0 +1,134 @@
 """
 chunked ce loss
 """
 from typing import List, Optional
 import torch
 import torch.nn.functional as F
 # copied and modified from torchtune.modules.loss.CEWithChunkedOutputLoss
 class CEWithChunkedOutputLoss(torch.nn.Module):
    """
    Cross-entropy with chunked outputs that saves memory by only upcasting one chunk at a time.
    For more details, please refer to: https://github.com/pytorch/torchtune/pull/1390
    """
    def __init__(self, num_output_chunks: int = 8, ignore_index: int = -100):
        super().__init__()
        self.num_output_chunks = num_output_chunks
        self.ignore_index = ignore_index
    def compute_cross_entropy(
        self,
        logits: torch.Tensor,
        labels: torch.Tensor,
        normalize: bool = True,  # pylint: disable=unused-argument
    ) -> torch.Tensor:
        """
        Upcast logits to fp32 and compute cross entropy loss.
        """
        return F.cross_entropy(
            logits.float(), labels, ignore_index=self.ignore_index, reduction="sum"
        )
    def forward(
        self, logits: List[torch.Tensor], labels: torch.Tensor, reduction="sum"
    ) -> torch.Tensor:
        """
        Args:
            logits (List[torch.Tensor]): List of chunked logits of length
                ``self.num_output_chunks``, where each chunk has shape
                ``(batch_size, num_tokens / num_output_chunks, vocab_size)``.
            labels (torch.Tensor): Ground truth labels of shape ``(batch_size, num_tokens)``.
            reduction (str): The reduction to apply to the output.
        Returns:
            torch.Tensor: Cross entropy loss of shape (1,).
        """
        total_elements = (labels != self.ignore_index).sum()
        # chunk and reshape labels (bsz, num_tokens, vocab) -> [(bsz*num_tokens/num_chunks, vocab)]
        labels = [
            target_chunk.reshape(-1)
            for target_chunk in labels.chunk(self.num_output_chunks, dim=1)
        ]
        # reshape logits [(bsz, num_tokens/num_chunks, vocab)] -> [(bsz*num_tokens/num_chunks, vocab)]
        logits = [
            logit_chunk.reshape(-1, logit_chunk.size(-1)) for logit_chunk in logits
        ]
        # compute one chunk at a time
        total_loss = 0.0
        for logits_chunk, labels_chunk in zip(logits, labels):
            total_loss += self.compute_cross_entropy(logits_chunk, labels_chunk)
        if reduction == "sum":
            return total_loss
        return total_loss / total_elements
 def _build_chunked_ce_loss_fn(num_output_chunks: int = 8, ignore_index: int = -100):
    loss_fn_ce = CEWithChunkedOutputLoss(num_output_chunks, ignore_index)
    loss_fn_ce.compute_cross_entropy = torch.compile(
        loss_fn_ce.compute_cross_entropy, backend="inductor"
    )
    return loss_fn_ce
 def get_causal_lm_loss(num_output_chunks: int = 8, ignore_index: int = -100):
    loss_fn_ce = _build_chunked_ce_loss_fn(num_output_chunks, ignore_index)
    def chunked_fix_cross_entropy(
        source,
        target,
        num_items_in_batch: int = None,
        ignore_index: int = -100,
        **kwargs,
    ):  # pylint: disable=unused-argument
        reduction = "sum" if num_items_in_batch is not None else "mean"
        logit_chunks = [  # pylint: disable=unnecessary-comprehension
            chunk for chunk in source.chunk(loss_fn_ce.num_output_chunks, dim=1)
        ]
        loss = loss_fn_ce(logit_chunks, target, reduction=reduction)
        if reduction == "sum":
            loss = loss / num_items_in_batch
        return loss
    def for_causal_lm_chunked_loss(
        logits,
        labels,
        vocab_size: int = None,  # pylint: disable=unused-argument
        num_items_in_batch: Optional[int] = None,
        ignore_index: int = -100,
        shift_labels: Optional[torch.Tensor] = None,
        **kwargs,
    ) -> torch.Tensor:
        # skip the upcast to float since we handle that in the chunking loss
        if shift_labels is None:
            # Shift so that tokens < n predict n
            labels = F.pad(labels, (0, 1), value=ignore_index)
            shift_labels = labels[..., 1:].contiguous()
        # Skip Flattening the tokens
        # Enable model parallelism
        shift_labels = shift_labels.to(logits.device)
        loss = chunked_fix_cross_entropy(
            logits, shift_labels, num_items_in_batch, ignore_index, **kwargs
        )
        return loss
    return for_causal_lm_chunked_loss
 def patch_chunked_ce_loss_fn(num_output_chunks: int = 8, ignore_index: int = -100):
    import transformers.loss.loss_utils
    for_causal_lm_chunked_loss = get_causal_lm_loss(num_output_chunks, ignore_index)
    transformers.loss.loss_utils.ForCausalLMLoss = for_causal_lm_chunked_loss
    transformers.loss.loss_utils.LOSS_MAPPING["ForCausalLM"] = (
        for_causal_lm_chunked_loss
    )
--- a/src/axolotl/monkeypatch/peft/utils.py
+++ b/src/axolotl/monkeypatch/peft/utils.py
@@ -24,7 +24,7 @@ PATCHED_PREPARE_CODE = """
        for name, param in model.named_parameters():
            if (
                (param.dtype == torch.float16) or (param.dtype == torch.bfloat16)
-            ) and param.__class__.__name__ != "Params4bit" and all(embed_name not in name for embed_name in ["embed_tokens", "lm_head"]):
+            ) and param.__class__.__name__ != "Params4bit" and "norm" in name:
                param.data = param.data.to(torch.float32)
 """
--- a/src/axolotl/train.py
+++ b/src/axolotl/train.py
@@ -2,17 +2,17 @@
 import importlib
 import inspect
 import logging
 import os
 import signal
 import sys
 import weakref
-from contextlib import ExitStack
+from contextlib import nullcontext
 from pathlib import Path
 from typing import Any, Dict
 import torch
 import transformers.modelcard
 from accelerate.logging import get_logger
 from accelerate.utils import save_fsdp_model
 from datasets import Dataset
 from huggingface_hub.errors import OfflineModeIsEnabled
@@ -27,13 +27,14 @@ from axolotl.contribs.lgpl import (  # pylint: disable = no-name-in-module
    fix_untrained_tokens,
 )
 from axolotl.core.trainer_builder import HFCausalTrainerBuilder, HFRLTrainerBuilder
 from axolotl.core.trainers.mixins.sequence_parallel import (
    SequenceParallelContextManager,
 )
 from axolotl.integrations.base import PluginManager
 from axolotl.utils.ctx_managers.sequence_parallel import SequenceParallelContextManager
 from axolotl.utils.dict import DictDefault
 from axolotl.utils.distributed import cleanup_distributed
 from axolotl.utils.freeze import freeze_layers_except
 from axolotl.utils.models import load_model, load_processor, load_tokenizer
 from axolotl.utils.schemas.enums import RLType
 from axolotl.utils.trainer import setup_trainer
 try:
@@ -41,7 +42,7 @@ try:
 except ImportError:
    BetterTransformer = None
-LOG = logging.getLogger(__name__)
+LOG = get_logger(__name__)
 def setup_model_and_tokenizer(
@@ -62,6 +63,7 @@ def setup_model_and_tokenizer(
    # Load tokenizer
    LOG.debug(
        f"loading tokenizer... {cfg.tokenizer_config or cfg.base_model_config}",
        main_process_only=True,
    )
    tokenizer = load_tokenizer(cfg)
@@ -106,7 +108,7 @@ def setup_reference_model(
        Reference model if needed for RL training, `None` otherwise.
    """
    model_ref = None
-    if cfg.rl and cfg.rl != RLType.ORPO:
+    if cfg.rl and cfg.rl != "orpo":
        if cfg.adapter and not cfg.rl_adapter_ref_model:
            # use built-in trl autounwrap
            LOG.debug("Passing model_ref: None to RL trainer")
@@ -187,32 +189,28 @@ def execute_training(
        trainer: The configured trainer object.
        resume_from_checkpoint: Path to checkpoint to resume from, if applicable.
    """
-    with ExitStack() as stack:
+    # Define the context managers to use
-        # Define the context managers to use
+    flash_context = (
-        if cfg.flash_optimum:
+        torch.backends.cuda.sdp_kernel(
-            stack.enter_context(
+            enable_flash=True,
-                torch.backends.cuda.sdp_kernel(
+            enable_math=True,
-                    enable_flash=True,
+            enable_mem_efficient=True,
-                    enable_math=True,
+        )
-                    enable_mem_efficient=True,
+        if cfg.flash_optimum
-                )
+        else nullcontext()
-            )
+    )
    sequence_parallel_context = (
        SequenceParallelContextManager(
            model=trainer.model,
            sequence_parallel_degree=cfg.sequence_parallel_degree,
            ring_attn_func=cfg.ring_attn_func,
        )
        if cfg.sequence_parallel_degree > 1
        else nullcontext()
    )
-        if cfg.sequence_parallel_degree > 1:
+    LOG.info("Starting trainer...")
-            models = [trainer.model]
+    with flash_context, sequence_parallel_context:
            if hasattr(trainer, "ref_model"):
                models.append(trainer.ref_model)
            stack.enter_context(
                SequenceParallelContextManager(
                    models=models,
                    sequence_parallel_degree=cfg.sequence_parallel_degree,
                    gradient_accumulation_steps=cfg.gradient_accumulation_steps,
                    ring_attn_func=cfg.ring_attn_func,
                )
            )
        LOG.info("Starting trainer...")
        trainer.train(resume_from_checkpoint=resume_from_checkpoint)
@@ -530,9 +528,6 @@ def train(
        processor,
    ) = setup_model_and_trainer(cfg, dataset_meta)
    plugin_manager = PluginManager.get_instance()
    plugin_manager.post_trainer_create(cfg, trainer)
    # Handle untrained tokens if configured
    safe_serialization = cfg.save_safetensors is True
    train_dataset = dataset_meta.train_dataset
@@ -555,6 +550,7 @@ def train(
    if not cfg.use_ray:
        cleanup_distributed()
    plugin_manager = PluginManager.get_instance()
    plugin_manager.post_train(cfg, model)
    return model, tokenizer, trainer
--- a/src/axolotl/utils/callbacks/init.py
+++ b/src/axolotl/utils/callbacks/init.py
@@ -868,28 +868,3 @@ class GCCallback(TrainerCallback):
    ):
        torch.cuda.empty_cache()
        gc.collect()
 def colab_inference_post_train_callback(trainer: Trainer):
    class ColabCallback(TrainerCallback):
        """Callback to prep model for inference on Google Colab"""
        def __init__(self, cfg):
            self.gpu_name = torch.cuda.get_device_name(0)
            self.cfg = cfg
        def on_train_end(
            self, args, state, control, **kwargs
        ):  # pylint: disable=unused-argument
            """
            handle T4 gpu, we need to convert attention to eager for inference
            """
            if "Tesla T4" in self.gpu_name and self.cfg.xformers_attention:
                trainer.model.config._attn_implementation = (  # pylint: disable=protected-access
                    "eager"
                )
            trainer.model.gradient_checkpointing_disable()
            trainer.model.config.use_cache = True
            trainer.model.eval()
    return ColabCallback
--- a/src/axolotl/utils/ctx_managers/init.py
+++ b/src/axolotl/utils/ctx_managers/init.py
@@ -1,6 +0,0 @@
 """Init for context manager submodule"""
 # pylint: disable=unused-import
 # flake8: noqa
 from .sequence_parallel import SequenceParallelContextManager
--- a/src/axolotl/utils/ctx_managers/sequence_parallel.py
+++ b/src/axolotl/utils/ctx_managers/sequence_parallel.py
@@ -1,335 +0,0 @@
 """Module for Axolotl trainer sequence parallelism manager and utilities"""
 import functools
 import torch
 import torch.distributed as dist
 from torch import nn
 from torch.utils.hooks import RemovableHandle
 from transformers.modeling_outputs import CausalLMOutputWithPast
 from transformers.utils import ModelOutput
 from axolotl.monkeypatch.attention.ring_attn.patch import (
    get_ring_attn_group,
    update_ring_attn_params,
 )
 from axolotl.utils.schemas.enums import RingAttnFunc
 # TODO(djsaunde): implement zigzag, stripe patterns here (and elsewhere) in this
 # module. Currently, we just focus on batch ring and varlen llama3 for simplicity.
 def apply_sequence_parallelism(
    batch: dict[str, torch.Tensor],
    local_rank: int,
    local_world_size: int,
    gradient_accumulation_steps: int,
    ring_attn_func: RingAttnFunc,  # pylint: disable=unused-argument
 ) -> tuple[dict[str, torch.Tensor], int, int]:
    """
    Apply sequence parallelism slicing to a batch.
    Special handling is implemented for integer logits_to_keep, which indicates
    to only keep the last N tokens in the sequence during generation.
    Args:
        batch: Batch dictionary (e.g., input_ids, attention_mask, etc.).
        local_rank: Local rank in the sequence parallel group.
        local_world_size: World size of the sequence parallel group.
        gradient_accumulation_steps: Number of steps to accumulate gradients over.
        ring_attn_func: Which ring attention function to use. Currently unused, but
            related to above TODO.
    Returns:
        tuple of:
            - Batch dictionary with sliced tensors.
            - The original sequence length before padding.
            - The number of padding tokens added.
    """
    original_seq_len = batch["input_ids"].size(1)
    # Update ring attention params if needed
    if batch.get("position_ids") is not None:
        update_ring_attn_params(position_ids=batch["position_ids"])
    else:
        # If position_ids aren't already in the batch, create them
        batch["position_ids"] = torch.arange(
            0,
            original_seq_len,
            dtype=torch.long,
            device=batch["input_ids"].device,
        ).expand(batch["input_ids"].size(0), -1)
    if "logits_to_keep" in batch and isinstance(batch["logits_to_keep"], int):
        logits_to_keep = batch["logits_to_keep"]
        # Calculate which positions in the full sequence contain the last N tokens
        start_position = max(0, original_seq_len - logits_to_keep)
        chunk_size = original_seq_len // local_world_size
        rank_start = local_rank * chunk_size
        rank_end = rank_start + chunk_size
        # Create a boolean mask tensor for this rank's chunk
        mask = torch.zeros(
            chunk_size,
            dtype=torch.bool,
            device=batch["input_ids"].device,
        )
        if rank_end > start_position:
            # Calculate how many of the last N tokens fall within this rank's range
            tokens_in_rank = min(rank_end, original_seq_len) - max(
                rank_start, start_position
            )
            # Calculate where these tokens start in the local chunk
            local_start_idx = max(0, start_position - rank_start)
            # Set the appropriate positions in the mask to True
            mask[local_start_idx : local_start_idx + tokens_in_rank] = True
        # Replace the integer with the boolean mask
        batch["logits_to_keep"] = mask
    # Add padding to make sequence length divisible by local_world_size
    total_seq_len = original_seq_len
    pad_len = 0
    divisor = min(local_world_size, 64)
    if total_seq_len % divisor != 0:
        pad_len = divisor - (total_seq_len % divisor)
        # Apply padding to all relevant tensors
        for key in batch:
            if (
                isinstance(batch[key], torch.Tensor)
                and batch[key].dim() > 1
                and batch[key].size(1) == total_seq_len
            ):
                # Create padding tensor
                pad_value = -100 if key == "labels" else 0
                padding = torch.full(
                    (batch[key].size(0), pad_len, *batch[key].shape[2:]),
                    pad_value,
                    dtype=batch[key].dtype,
                    device=batch[key].device,
                )
                # Concatenate padding to the right side of the tensor
                batch[key] = torch.cat([batch[key], padding], dim=1)
            if key == "logits_to_keep":
                # Create padding tensor
                padding = torch.ones(
                    1,
                    dtype=batch[key].dtype,
                    device=batch[key].device,
                )
                # Concatenate padding to the right side of the tensor
                batch[key] = torch.cat([batch[key], padding], dim=0)
        # Update the total sequence length after padding
        total_seq_len = batch["input_ids"].size(1)
    # Slice batch for sequence parallel
    for key in batch:
        if not isinstance(batch[key], torch.Tensor) or batch[key].dim() <= 1:
            continue
        # Split in sequential fashion and grab this rank's chunk
        if batch[key].size(1) == total_seq_len:
            batch[key] = (
                batch[key].chunk(local_world_size, dim=1)[local_rank].contiguous()
            )
        elif key == "logits_to_keep":
            batch[key] = (
                batch[key].chunk(local_world_size, dim=0)[local_rank].contiguous()
            )
        # Handle num_items_in_batch
        if "num_items_in_batch" in batch:
            # Approximation; this needed since num_items_in_batch may be counted across
            # all samples in a gradient accumulated batch, not on a per-step basis.
            batch["num_items_in_batch"] = (
                batch["labels"] != -100
            ).sum() * gradient_accumulation_steps
    return batch, original_seq_len, pad_len
 class SequenceParallelContextManager:
    """Context manager for sequence parallelism operations.
    This class provides a context that will automatically apply sequence parallelism
    during model forward passes using a pre-forward hook, and gather outputs from
    across the sequence parallelism group using a post-forward hook.
    Args:
        models: List of models to apply sequence parallelism to pre- and post- forward
            hooks.
        sequence_parallel_degree: Number of processes to split sequences over.
        gradient_accumulation_steps: Number of steps to accumulate gradients over.
        ring_attn_func: Which ring attention function to use. Currently unused.
    """
    def __init__(
        self,
        models: list[nn.Module],
        sequence_parallel_degree: int,
        gradient_accumulation_steps: int,
        ring_attn_func: RingAttnFunc,
    ):
        self.models = models
        self.sequence_parallel_degree = sequence_parallel_degree
        self.gradient_accumulation_steps = gradient_accumulation_steps
        self.ring_attn_func = ring_attn_func
        self.process_group = get_ring_attn_group()
        # Initialize sequence parallel group details
        self.local_rank = dist.get_rank(self.process_group)
        self.local_world_size = dist.get_world_size(self.process_group)
        # Will store hook handles for removal
        self.hook_handles: list[RemovableHandle] = []
        # Store original sequence length and padding information
        self.original_seq_len = 0
        self.pad_len = 0
        # Create a partially applied version of the apply_sequence_parallelism function
        self.apply_sequence_parallelism = functools.partial(
            apply_sequence_parallelism,
            local_rank=self.local_rank,
            local_world_size=self.local_world_size,
            gradient_accumulation_steps=self.gradient_accumulation_steps,
            ring_attn_func=self.ring_attn_func,
        )
    def __enter__(self):
        # Forward pre-hook to apply sequence parallelism
        def sequence_parallel_pre_hook(_, args, kwargs):
            # Apply sequence parallelism to kwargs and get original sequence length and padding info
            kwargs, self.original_seq_len, self.pad_len = (
                self.apply_sequence_parallelism(batch=kwargs)
            )
            return args, kwargs
        # Forward post-hook to gather outputs
        def sequence_parallel_post_hook(_, __, output: ModelOutput) -> ModelOutput:
            # Gather the sharded outputs
            output = self.gather_outputs(output)
            # Remove padding if it was added
            if self.pad_len > 0:
                for key, value in output.items():
                    if isinstance(value, torch.Tensor) and value.dim() > 1:
                        if value.size(1) == self.original_seq_len + self.pad_len:
                            # Slice to remove padding
                            output[key] = value[:, : self.original_seq_len].contiguous()
            return output
        # Register both hooks
        for model in self.models:
            self.hook_handles.append(
                model.register_forward_pre_hook(
                    sequence_parallel_pre_hook, with_kwargs=True
                )
            )
            self.hook_handles.append(
                model.register_forward_hook(sequence_parallel_post_hook)
            )
        return self
    def __exit__(self, exc_type, exc_val, exc_tb):
        # Remove all hooks
        for handle in self.hook_handles:
            handle.remove()
        self.hook_handles = []
    def gather_outputs(self, output: CausalLMOutputWithPast) -> CausalLMOutputWithPast:
        """Gather sharded outputs from all ranks and reconstruct the full tensor."""
        for key, value in output.items():
            if isinstance(value, torch.Tensor) and value.dim() > 1:
                output[key] = AllGatherWithGrad.apply(value, self.process_group)
        return output
 class AllGatherWithGrad(torch.autograd.Function):
    """Custom autograd function for all-gather to preserve gradients."""
    @staticmethod
    def forward(
        ctx: torch.autograd.function.FunctionCtx,
        input_tensor: torch.Tensor,
        group: dist.ProcessGroup,
    ) -> torch.Tensor:
        """
        Forward pass of all-gather of data with sequence dimension.
        Args:
            ctx: `torch.autograd` function context.
            input_tensor: Tensor from model output with sequence dimension.
            group: `torch.distributed` process group.
        Returns:
            Tensor from gathering the `input_tensor` from across the process group and
                concatenating along the sequence dimension.
        """
        ctx.group = group
        ctx.rank = dist.get_rank(group)
        world_size = dist.get_world_size(group)
        # Gather shape metadata
        local_shape = torch.tensor(list(input_tensor.shape), device=input_tensor.device)
        all_shapes = [torch.zeros_like(local_shape) for _ in range(world_size)]
        dist.all_gather(all_shapes, local_shape, group=group)
        # Store sequence lengths for backward pass
        seq_lens = [int(shape[1].item()) for shape in all_shapes]
        ctx.seq_lens = seq_lens
        # Perform all_gather operation
        gathered = [
            torch.zeros(
                tuple(shape.tolist()),
                dtype=input_tensor.dtype,
                device=input_tensor.device,
            )
            for shape in all_shapes
        ]
        dist.all_gather(gathered, input_tensor, group=group)
        # Concatenate tensors along sequence dimension
        result = torch.cat(gathered, dim=1)
        return result
    @staticmethod
    def backward(
        ctx: torch.autograd.function.FunctionCtx, grad_output: torch.Tensor
    ) -> tuple[torch.Tensor, None]:
        """
        Backward pass for all-gather operation.
        Extracts the gradient slice corresponding to this rank's original input
        from the full gradient tensor.
        Args:
            ctx: `torch.autograd` function context.
            grad_output: Gradient from subsequent layers with respect to the
                concatenated output tensor.
        Returns:
            Tuple containing the gradient slice for this rank's input tensor and `None`
                for the process group parameter which doesn't require gradients.
        """
        rank = ctx.rank
        seq_lens = ctx.seq_lens
        # Extract gradient for this rank's chunk
        offset = sum(seq_lens[:rank])
        grad_slice = grad_output[:, offset : offset + seq_lens[rank]].contiguous()
        return grad_slice, None
--- a/src/axolotl/utils/data/rl.py
+++ b/src/axolotl/utils/data/rl.py
@@ -18,9 +18,8 @@ from axolotl.utils.data.utils import deduplicate_and_log_datasets, md5
 from axolotl.utils.dict import DictDefault
 from axolotl.utils.distributed import is_main_process, zero_first
 from axolotl.utils.models import load_tokenizer
 from axolotl.utils.schemas.enums import RLType
-LOG = logging.getLogger(__name__)
+LOG = logging.getLogger("axolotl")
 def _get_path(ds_hash, cfg):
@@ -81,7 +80,7 @@ def map_dataset(cfg, data_set, ds_transform_fn, tokenizer, **map_kwargs):
 def drop_long_rl_seq(
    sample, rl, tokenizer, sequence_len  # pylint: disable=invalid-name
 ):
-    if rl in (RLType.DPO, RLType.IPO, RLType.ORPO, RLType.SIMPO):
+    if rl in ("dpo", "ipo", "orpo", "simpo"):
        if not (
            sample.get("prompt") and sample.get("chosen") and sample.get("rejected")
        ):
@@ -101,7 +100,7 @@ def drop_long_rl_seq(
            len_prompt + len_rejected
        ) <= sequence_len
-    if rl is RLType.KTO:
+    if rl == "kto":
        if not (sample.get("prompt") and sample.get("completion")):
            raise ValueError("Prompt and completion keys are required for KTO datasets")
@@ -115,7 +114,7 @@ def drop_long_rl_seq(
        return (len_prompt + len_completion) <= sequence_len
-    if rl is RLType.GRPO:
+    if rl == "grpo":
        return True
    raise ValueError("Unknown RL type")
@@ -138,9 +137,9 @@ def load_prepare_preference_datasets(cfg):
            if _type:
                if isinstance(_type, DictDefault):
                    _type = "user_defined.default"
-                if _cfg.rl is RLType.ORPO:
+                if _cfg.rl == "orpo":
                    ds_transform_fn = load_orpo(_type, _cfg, dataset_idx=i)
-                elif _cfg.rl is RLType.KTO:
+                elif _cfg.rl == "kto":
                    ds_transform_fn = load_kto(_type, _cfg, dataset_idx=i)
                else:
                    ds_transform_fn = load_dpo(_type, _cfg, dataset_idx=i)
@@ -151,7 +150,7 @@ def load_prepare_preference_datasets(cfg):
                split_datasets[i] = map_dataset(
                    cfg, data_set, ds_transform_fn, tokenizer, **map_kwargs
                )
-            elif _cfg.rl is RLType.KTO:
+            elif _cfg.rl == "kto":
                ds_transform_fn = load_kto(_type, _cfg, dataset_idx=i)
                map_kwargs = {}
                if isinstance(ds_transform_fn, tuple):
@@ -186,7 +185,7 @@ def load_prepare_preference_datasets(cfg):
                    )
        combined_datasets = concatenate_datasets(split_datasets)
-        combined_datasets = combined_datasets.shuffle(seed=cfg.seed or 42)
+        combined_datasets = combined_datasets.shuffle(seed=cfg.seed)
        return combined_datasets
@@ -206,8 +205,6 @@ def load_prepare_preference_datasets(cfg):
                eval_dataset = load_split(cfg.test_datasets, cfg)
        if not eval_dataset:
            if cfg.val_set_size:
                seed = cfg.seed if cfg.seed is not None else 42
                # ensure we end up with the same fingerprint by doing rank0 first and being able to cache
                to_hash_train = (
                    train_dataset._fingerprint  # pylint: disable=protected-access
@@ -216,7 +213,7 @@ def load_prepare_preference_datasets(cfg):
                    + "|"
                    + "train"
                    + "|"
-                    + str(seed)
+                    + str(cfg.seed or 42)
                )
                to_hash_test = (
                    train_dataset._fingerprint  # pylint: disable=protected-access
@@ -225,13 +222,13 @@ def load_prepare_preference_datasets(cfg):
                    + "|"
                    + "test"
                    + "|"
-                    + str(seed)
+                    + str(cfg.seed or 42)
                )
                train_fingerprint = md5(to_hash_train)
                test_fingerprint = md5(to_hash_test)
                ds_w_test_split = train_dataset.train_test_split(
                    test_size=cfg.val_set_size,
-                    seed=seed,
+                    seed=cfg.seed,
                    shuffle=False,
                    train_new_fingerprint=train_fingerprint,
                    test_new_fingerprint=test_fingerprint,
--- a/src/axolotl/utils/data/sft.py
+++ b/src/axolotl/utils/data/sft.py
@@ -148,7 +148,7 @@ def prepare_dataset(cfg, tokenizer, processor=None, preprocess_iterable=None):
            ds_wrapper_partial,
            max_tokens=cfg.sequence_len,
            batch_size=cfg.micro_batch_size,
-            seed=cfg.seed if cfg.seed is not None else 42,
+            seed=cfg.seed or 42,
            buffer_size=cfg.pretrain_multipack_buffer_size or 10_000,
        )
        # https://discuss.huggingface.co/t/how-to-use-huggingface-trainer-streaming-datasets-without-wrapping-it-with-torchdatas-iterablewrapper/25230
@@ -416,8 +416,6 @@ def load_prepare_datasets(
    )
    if split == "train" and val_set_size:
        seed = cfg.seed if cfg.seed is not None else 42
        # ensure we end up with the same fingerprint by doing rank0 first and being able to cache
        to_hash_train = (
            dataset._fingerprint  # pylint: disable=protected-access
@@ -426,7 +424,7 @@ def load_prepare_datasets(
            + "|"
            + "train"
            + "|"
-            + str(seed)
+            + str(cfg.seed or 42)
        )
        to_hash_test = (
            dataset._fingerprint  # pylint: disable=protected-access
@@ -435,7 +433,7 @@ def load_prepare_datasets(
            + "|"
            + "test"
            + "|"
-            + str(seed)
+            + str(cfg.seed or 42)
        )
        train_fingerprint = md5(to_hash_train)
        test_fingerprint = md5(to_hash_test)
@@ -444,7 +442,7 @@ def load_prepare_datasets(
        dataset = dataset.train_test_split(
            test_size=val_set_size,
            shuffle=False,
-            seed=seed,
+            seed=cfg.seed or 42,
            train_new_fingerprint=train_fingerprint,
            test_new_fingerprint=test_fingerprint,
        )
--- a/src/axolotl/utils/data/shared.py
+++ b/src/axolotl/utils/data/shared.py
@@ -281,10 +281,6 @@ def load_dataset_w_config(
            **load_ds_kwargs,
        )
    if not ds:
-        raise ValueError(
+        raise ValueError("unhandled dataset load")
            "The dataset could not be loaded. This could be due to a misconfigured dataset path "
            f"({config_dataset.path}). Try double-check your path / name / data_files. "
            "This is not caused by the dataset type."
        )
    return ds
--- a/src/axolotl/utils/gradient_checkpointing/init.py
+++ b/src/axolotl/utils/gradient_checkpointing/init.py
@@ -1,36 +1,15 @@
 """custom checkpointing utils"""
 import importlib
 from functools import partial
 from packaging import version
 from axolotl.utils.gradient_checkpointing.unsloth import (
    Unsloth_Offloaded_Gradient_Checkpointer,
 )
 transformers_version = version.parse(importlib.metadata.version("transformers"))
 if transformers_version > version.parse("4.51.3"):
    from transformers.modeling_layers import GradientCheckpointingLayer
    def uses_gc_layers(decoder_layer):
        return isinstance(decoder_layer.func.__self__, GradientCheckpointingLayer)
 else:
    def uses_gc_layers(_):
        return False
 def hf_grad_checkpoint_offload_wrapper(
    decoder_layer, *args, use_reentrant=None
 ):  # pylint: disable=unused-argument
    if uses_gc_layers(decoder_layer):
        return Unsloth_Offloaded_Gradient_Checkpointer.apply(
            decoder_layer,
            *args,
        )
    return Unsloth_Offloaded_Gradient_Checkpointer.apply(
        (
            decoder_layer.func.__self__
--- a/src/axolotl/utils/models.py
+++ b/src/axolotl/utils/models.py
@@ -73,7 +73,6 @@ from axolotl.utils.distributed import (
 from axolotl.utils.gradient_checkpointing import hf_grad_checkpoint_offload_wrapper
 from axolotl.utils.lora_embeddings import get_linear_embedding_layers
 from axolotl.utils.model_shard_quant import load_sharded_model, load_sharded_model_quant
 from axolotl.utils.schemas.enums import RLType
 LOG = logging.getLogger(__name__)
 PLUGIN_MANAGER = PluginManager.get_instance()
@@ -562,12 +561,21 @@ class ModelLoader:
            patch_xformers_attn_over_fa2()
            self.cfg.flash_attention = True
        if self.cfg.chunked_cross_entropy:
            from axolotl.monkeypatch.loss.chunked import patch_chunked_ce_loss_fn
            if self.cfg.chunked_cross_entropy_num_chunks:
                patch_chunked_ce_loss_fn(self.cfg.chunked_cross_entropy_num_chunks)
            else:
                patch_chunked_ce_loss_fn()
        if self.cfg.fsdp_config and str(self.cfg.fsdp_config.fsdp_version) == "2":
            from axolotl.monkeypatch.accelerate.fsdp2 import patch_accelerate_fsdp_utils
            patch_accelerate_fsdp_utils()
-        if self.cfg.adapter and self.cfg.embeddings_skip_upcast:
+        if self.cfg.adapter:
            from axolotl.monkeypatch.peft.utils import patch_peft_prep_code
            patch_peft_prep_code()
@@ -904,7 +912,7 @@ class ModelLoader:
                "bnb_4bit_compute_dtype": self.cfg.torch_dtype,
                "bnb_4bit_use_double_quant": True,
                "bnb_4bit_quant_type": "nf4",
-                "bnb_4bit_quant_storage": torch.bfloat16,
+                "bnb_4bit_quant_storage": torch.uint8,
            }
            if self.cfg.model_config_type in ["jamba", "qwen2_moe"] and not (
                self.cfg.deepspeed or self.cfg.fsdp
@@ -1320,11 +1328,8 @@ class ModelLoader:
        # make sure these are fp32 per Ramesh et al. (2021)
        embedding_modules = get_linear_embedding_layers(self.cfg.model_config_type)
-        if not self.cfg.fsdp:
+        if self.cfg.fsdp:
-            # we don't run this during FSDP because this will leave mixed
+            # FSDP doesn't like mixed Float and BFloat16
            # float and bfloat16 dtypes in the model which FSDP doesn't like
            if self.cfg.load_in_4bit and self.cfg.embeddings_skip_upcast:
                embedding_modules = []
            self.convert_embedding_modules_dtype(
                embedding_modules,
                dist_dtype=torch.float32,
@@ -1373,7 +1378,7 @@ class ModelLoader:
            # then the dpo trainer doesn't want the peft model loaded over it, it just wants the lora/peft config
            if (
                self.cfg.adapter
-                and self.cfg.rl in [RLType.DPO, RLType.IPO, RLType.KTO]
+                and self.cfg.rl in ["dpo", "ipo", "kto"]
                and not self.cfg.merge_lora
            ):
                _, lora_config = load_lora(
--- a/src/axolotl/utils/samplers/multipack.py
+++ b/src/axolotl/utils/samplers/multipack.py
@@ -6,8 +6,8 @@ into fixed-capacity batches to optimize memory usage and training throughput.
 import logging
 import math
 from concurrent.futures import ProcessPoolExecutor
-from multiprocessing import cpu_count, get_context
+from multiprocessing import cpu_count
-from typing import Iterable, Union
+from typing import Iterable, List, Union
 import numba
 import numpy as np
@@ -78,11 +78,15 @@ def pack_group(
    Returns:
        List of bins, where each bin contains indices of sequences assigned to it
    """
    # Get sorting indices and sort lengths in descending order
    indices = np.argsort(sequence_lengths)[::-1]
    sorted_lengths = sequence_lengths[indices]
    bins_remaining_space: list = []  # Tracks remaining capacity in each bin
    bins_assigned_sequences: list = []  # Tracks sequence indices assigned to each bin
-    for seq_id, size in enumerate(sequence_lengths):
+    for seq_id, size in enumerate(sorted_lengths):
-        global_idx = seq_id + group_offset
+        global_idx = indices[seq_id] + group_offset
        # Try to place sequence in existing bins
        add_new_bin = True
@@ -126,7 +130,6 @@ def pack_parallel(
    bin_size: int,
    num_processes: int | None = None,
    safe_mode: bool = True,
    mp_start_method: str | None = "spawn",
 ):
    """
    Pack sequences into bins using parallel processing
@@ -138,9 +141,7 @@ def pack_parallel(
        bin_size: Maximum number of bins to use
        num_processes: Number of parallel processes to use
        safe_mode: If True, use a more conservative packing approach
-        mp_start_method: Multiprocessing start method ('fork', 'spawn', 'forkserver').
+
                         'spawn' is often safer with Numba/PyTorch.
                         Set to None to use system default.
    Returns:
        List of bins, where each bin contains indices of sequences assigned to it
    """
@@ -157,33 +158,9 @@ def pack_parallel(
    # Process groups in parallel
    all_bins = []
-
+    with ProcessPoolExecutor(max_workers=num_processes) as executor:
-    mp_ctx = None
+        for group_bins in executor.map(_process_group, tasks):
    if mp_start_method:
        try:
            mp_ctx = get_context(mp_start_method)
        except ValueError:
            LOG.warning(
                f"Failed to get multiprocessing context '{mp_start_method}'. "
                f"Falling back to default. Available: {get_context().get_all_start_methods()}"
            )
            mp_ctx = (
                None  # Fallback to default context if specified one is not available
            )
    if num_processes == 1:
        LOG.debug("Using single process for pack_parallel, running sequentially.")
        for task_args in tasks:
            group_bins = _process_group(task_args)
            all_bins.extend(group_bins)
    else:
        # Use ProcessPoolExecutor only if num_processes > 1
        # Pass mp_context if available
        with ProcessPoolExecutor(
            max_workers=num_processes, mp_context=mp_ctx
        ) as executor:
            for group_bins in executor.map(_process_group, tasks):
                all_bins.extend(group_bins)
    return all_bins
@@ -195,7 +172,7 @@ def allocate_sequentially(
    """
    Sequential allocator that preserves example order
-    Args:
+    Parameters:
        sequence_lengths: The lengths of all examples
        rank: The current rank (for distributed training)
        bin_capacity: The capacity of each bin (maximum sequence length)
@@ -206,37 +183,38 @@ def allocate_sequentially(
        total_tokens_used: Number of actual example tokens
        total_token_slots: Maximum theoretical number of example tokens (number of bins * bin capacity)
    """
-    result = []
+    rank_batches = []
-    total_used = 0
+    total_tokens_used = 0
    # First, do sequential packing into bins
    all_bins = []
-    current_bin = [0 for i in range(0)]  # numba hint
+    current_bin = []
    remaining_capacity = bin_capacity
    # Process each sequence in order
    for idx, size in enumerate(sequence_lengths):
        if size <= remaining_capacity:
            # Example fits in current bin
            current_bin.append(idx)
            remaining_capacity -= size
-            total_used += size
+            total_tokens_used += size
        else:
            # Example doesn't fit, start a new bin
            if current_bin:  # Add non-empty bin to all_bins
                all_bins.append(current_bin)
            current_bin = [idx]
            remaining_capacity = bin_capacity - size
-            total_used += size
+            total_tokens_used += size
    # Add the last bin if not empty
    if current_bin:
        all_bins.append(current_bin)
-    # Assign bins to ranks - each rank gets every n-th bin
+    # Assign bins to ranks - each rank gets every num_ranks-th bin
    for bin_idx in range(rank, len(all_bins), num_ranks):
-        result.append(all_bins[bin_idx])
+        rank_batches.append(all_bins[bin_idx])
-    return result, total_used, len(all_bins) * bin_capacity
+    return rank_batches, total_tokens_used, len(all_bins) * bin_capacity
 class MultipackBatchSampler(BatchSampler):
@@ -257,8 +235,8 @@ class MultipackBatchSampler(BatchSampler):
        batch_max_len: int,  # Maximum sequence length (bin capacity)
        lengths: np.ndarray,  # Sequence lengths
        packing_efficiency_estimate: float = 1.0,  # Initial efficiency estimate
-        drop_last: bool = False,  # Whether to drop final batches (might be incomplete)
+        drop_last: bool = False,  # Whether to drop incomplete batches
-        num_count_samples: int = 16,  # Number of times to estimate batch count
+        num_count_samples: int = 16,  # Number of samples to estimate batch count
        sequential: bool = False,  # Whether to use sequential packing
        group_size: int = 100_000,  # Size of groups for parallel packing
        bin_size: int = 200,  # The max number of samples that can be packed in a single bin
@@ -333,8 +311,6 @@ class MultipackBatchSampler(BatchSampler):
                bin_capacity=self.batch_max_len,
                num_ranks=1,
            )
            # Map bin indices back to original indices
            bins = [[indices[b_idx] for b_idx in bin_indices] for bin_indices in bins]
        else:
            # Use parallel packing
            all_bins = pack_parallel(
@@ -406,7 +382,7 @@ class MultipackBatchSampler(BatchSampler):
        Returns a conservative efficiency estimate based on the measurements
        """
-        def calc_sample_packing_eff_est(estimates: list[float]):
+        def calc_sample_packing_eff_est(estimates: List[float]):
            LOG.debug(f"sample_packing_eff_est across ranks: {repr(estimates)}")
            # Use 99.7% of max observed efficiency as a safe estimate
            max_eff = max(float(eff) for eff in estimates)
--- a/src/axolotl/utils/schemas/config.py
+++ b/src/axolotl/utils/schemas/config.py
@@ -27,7 +27,7 @@ from axolotl.utils.schemas.datasets import (
    StepwiseSupervisedDataset,
 )
 from axolotl.utils.schemas.deprecated import DeprecatedParameters, RemappedParameters
-from axolotl.utils.schemas.enums import ChatTemplate, RingAttnFunc, RLType
+from axolotl.utils.schemas.enums import ChatTemplate, RLType
 from axolotl.utils.schemas.integrations import (
    CometConfig,
    GradioConfig,
@@ -82,8 +82,6 @@ class AxolotlInputConfig(
    mean_resizing_embeddings: bool | None = False
    # optionally shrink the embeddings when the tokenizer vocab size is smaller
    shrink_embeddings: bool | None = None
    embeddings_skip_upcast: bool | None = None
    random_init_weights: bool | None = None
    rl: RLType | None = None
    trl: TRLConfig | None = Field(
@@ -244,6 +242,9 @@ class AxolotlInputConfig(
    unsloth_rms_norm: bool | None = None
    unsloth_rope: bool | None = None
    chunked_cross_entropy: bool | None = None
    chunked_cross_entropy_num_chunks: int | None = None
    lora_mlp_kernel: bool | None = None
    lora_qkv_kernel: bool | None = None
    lora_o_kernel: bool | None = None
@@ -261,7 +262,7 @@ class AxolotlInputConfig(
    sequence_parallel_degree: int | None = None
    heads_k_stride: int | None = None
-    ring_attn_func: RingAttnFunc | None = None
+    ring_attn_func: str | None = None
    special_tokens: SpecialTokensConfig | None = None
    tokens: list[str] | None = None
@@ -463,10 +464,9 @@ class AxolotlInputConfig(
            and not data.get("flash_attention")
            and not data.get("sdp_attention")
            and not data.get("flex_attention")
            and not data.get("xformers_attention")
        ):
            LOG.warning(
-                "sample_packing without flash, sdp, xformers or flex attention does not handle cross sample decontamination."
+                "sample_packing without flash, sdp or flex attention does not handle cross sample decontamination."
            )
        return data
@@ -783,7 +783,7 @@ class AxolotlInputConfig(
    @model_validator(mode="after")
    def check_simpo_warmup(self):
-        if self.rl is RLType.SIMPO and self.warmup_ratio:
+        if self.rl == "simpo" and self.warmup_ratio:
            raise ValueError(
                "warmup_ratio is not supported with the simpo trainer. Please use `warmup_steps` instead"
            )
@@ -1150,28 +1150,16 @@ class AxolotlInputConfig(
        return data
    # @model_validator(mode="before")
    # @classmethod
    # def check_grpo_peft_liger(cls, data):
    #     if (
    #         data.get("rl") == "grpo"
    #         and data.get("trl", {})
    #         and data.get("trl").get("use_liger_loss")
    #         and data.get("adapter")
    #     ):
    #         raise ValueError("PEFT + GRPO + Liger is not yet supported")
    #     return data
    #
    @model_validator(mode="before")
    @classmethod
-    def check_grpo_liger_sequence_parallel(cls, data):
+    def check_grpo_peft_liger(cls, data):
        if (
            data.get("rl") == "grpo"
            and data.get("trl", {})
            and data.get("trl").get("use_liger_loss")
-            and data.get("sequence_parallel_degree", 1) > 1
+            and data.get("adapter")
        ):
-            raise ValueError("GRPO + SP + Liger not currently supported")
+            raise ValueError("PEFT + GRPO + Liger is not yet supported")
        return data
    @model_validator(mode="after")
@@ -1186,7 +1174,7 @@ class AxolotlInputConfig(
            if self.sample_packing and self.micro_batch_size > 1:
                raise ValueError(
-                    "micro_batch_size must be set to 1 when sample_packing is enabled "
+                    "micro_batch_size must be set to 1 when sample_packing is enabled"
                    "due to a `ring-flash-attn` requirement"
                )
@@ -1218,8 +1206,16 @@ class AxolotlInputConfig(
        if getattr(self, "sequence_parallel_degree", 1) == 1:
            return self
        from axolotl.monkeypatch.attention.ring_attn.patch import RingAttnFunc
        if self.ring_attn_func is not None:
-            self.ring_attn_func = RingAttnFunc(self.ring_attn_func)
+            valid_funcs = list(RingAttnFunc)
            if self.ring_attn_func in valid_funcs:
                self.ring_attn_func = RingAttnFunc(self.ring_attn_func)
            else:
                raise ValueError(
                    f"ring_attn_func: {self.ring_attn_func} must be in {valid_funcs}"
                )
        else:
            # Default ring attention function selection
            sample_packing = getattr(self, "sample_packing", False)
@@ -1350,10 +1346,6 @@ class AxolotlConfigWCapabilities(AxolotlInputConfig):
            ):
                return data
            # Skip if dropout is not 0, as auto enabling it would just disable it during runtime patch checks
            if data.get("lora_dropout") != 0:
                return data
            # Check multi-GPU compatibility
            capabilities = data.get("capabilities")
            is_multi_gpu = capabilities and capabilities.get("n_gpu", 0) > 1
--- a/src/axolotl/utils/schemas/enums.py
+++ b/src/axolotl/utils/schemas/enums.py
@@ -6,12 +6,12 @@ from enum import Enum
 class RLType(str, Enum):
    """RL trainer type configuration subset"""
-    DPO = "dpo"  # pylint: disable=invalid-name
+    dpo = "dpo"  # pylint: disable=invalid-name
-    GRPO = "grpo"  # pylint: disable=invalid-name
+    grpo = "grpo"  # pylint: disable=invalid-name
-    IPO = "ipo"  # pylint: disable=invalid-name
+    ipo = "ipo"  # pylint: disable=invalid-name
-    ORPO = "orpo"  # pylint: disable=invalid-name
+    orpo = "orpo"  # pylint: disable=invalid-name
-    KTO = "kto"  # pylint: disable=invalid-name
+    kto = "kto"  # pylint: disable=invalid-name
-    SIMPO = "simpo"  # pylint: disable=invalid-name
+    simpo = "simpo"  # pylint: disable=invalid-name
 class ChatTemplate(str, Enum):
@@ -53,16 +53,4 @@ class CustomSupportedOptimizers(str, Enum):
    ao_adamw_8bit = "ao_adamw_8bit"  # pylint: disable=invalid-name
    ao_adamw_fp8 = "ao_adamw_fp8"  # pylint: disable=invalid-name
    adopt_adamw = "adopt_adamw"  # pylint: disable=invalid-name
    came_pytorch = "came_pytorch"  # pylint: disable=invalid-name
    muon = "muon"  # pylint: disable=invalid-name
 class RingAttnFunc(str, Enum):
    """Enum class for supported `ring-flash-attn` implementations"""
    # VARLEN_RING = "varlen_ring"
    # VARLEN_ZIGZAG = "varlen_zigzag"
    VARLEN_LLAMA3 = "varlen_llama3"
    BATCH_RING = "batch_ring"
    # BATCH_ZIGZAG = "batch_zigzag"
    # BATCH_STRIPE = "batch_stripe"
--- a/src/axolotl/utils/schemas/training.py
+++ b/src/axolotl/utils/schemas/training.py
@@ -75,10 +75,8 @@ class HyperparametersConfig(BaseModel):
    lr_groups: list[LrGroup] | None = None
    adam_epsilon: float | None = None
    adam_epsilon2: float | None = None
    adam_beta1: float | None = None
    adam_beta2: float | None = None
    adam_beta3: float | None = None
    max_grad_norm: float | None = None
    num_epochs: float = Field(default=1.0)
--- a/tests/conftest.py
+++ b/tests/conftest.py
@@ -4,7 +4,6 @@ shared pytest fixtures
 import functools
 import importlib
 import os
 import shutil
 import sys
 import tempfile
@@ -530,32 +529,31 @@ def dataset_fozziethebeat_alpaca_messages_2k_dpo_test_rev_ea82cff(
 # # pylint: disable=redefined-outer-name,unused-argument
-@pytest.mark.skipif(
+# def test_load_fixtures(
-    os.environ.get("AXOLOTL_IS_CI_CACHE_PRELOAD", "-1") != "1",
+#     download_smollm2_135m_model,
-    reason="Not running in CI cache preload",
+#     download_llama_68m_random_model,
-)
+#     download_qwen_2_5_half_billion_model,
-def test_load_fixtures(
+#     download_tatsu_lab_alpaca_dataset,
-    download_smollm2_135m_model,
+#     download_mhenrichsen_alpaca_2k_dataset,
-    download_qwen_2_5_half_billion_model,
+#     download_mhenrichsen_alpaca_2k_w_revision_dataset,
-    download_tatsu_lab_alpaca_dataset,
+#     download_mlabonne_finetome_100k_dataset,
-    download_mhenrichsen_alpaca_2k_dataset,
+#     download_argilla_distilabel_capybara_dpo_7k_binarized_dataset,
-    download_mhenrichsen_alpaca_2k_w_revision_dataset,
+#     download_argilla_ultrafeedback_binarized_preferences_cleaned_dataset,
-    download_mlabonne_finetome_100k_dataset,
+#     download_fozzie_alpaca_dpo_dataset,
-    download_argilla_distilabel_capybara_dpo_7k_binarized_dataset,
+#     download_arcee_ai_distilabel_intel_orca_dpo_pairs_dataset,
-    download_arcee_ai_distilabel_intel_orca_dpo_pairs_dataset,
+#     download_argilla_dpo_pairs_dataset,
-    download_argilla_dpo_pairs_dataset,
+#     download_tiny_shakespeare_dataset,
-    download_tiny_shakespeare_dataset,
+#     download_deepseek_model_fixture,
-    download_deepseek_model_fixture,
+#     download_huggyllama_model_fixture,
-    download_huggyllama_model_fixture,
+#     download_llama_1b_model_fixture,
-    download_llama_1b_model_fixture,
+#     download_llama3_8b_model_fixture,
-    download_llama3_8b_model_fixture,
+#     download_llama3_8b_instruct_model_fixture,
-    download_llama3_8b_instruct_model_fixture,
+#     download_phi_35_mini_model_fixture,
-    download_phi_35_mini_model_fixture,
+#     download_phi_3_medium_model_fixture,
-    download_phi_3_medium_model_fixture,
+#     download_mistral_7b_model_fixture,
-    download_mistral_7b_model_fixture,
+#     download_gemma_2b_model_fixture,
-    download_gemma_2b_model_fixture,
+#     download_gemma2_9b_model_fixture,
-    download_gemma2_9b_model_fixture,
+#     download_mlx_mistral_7b_model_fixture,
-    download_mlx_mistral_7b_model_fixture,
+#     download_llama2_model_fixture,
-    download_llama2_model_fixture,
+# ):
-):
+#     pass
    pass
--- a/tests/e2e/integrations/test_hooks.py
+++ b/tests/e2e/integrations/test_hooks.py
@@ -29,12 +29,6 @@ class LogHooksPlugin(BasePlugin):
        except FileNotFoundError:
            pass
    def post_trainer_create(self, cfg, trainer):  # pylint: disable=unused-argument
        with open(
            self.base_dir.joinpath("plugin_hooks.log"), "a", encoding="utf-8"
        ) as f:
            f.write("post_trainer_create\n")
    def pre_model_load(self, cfg):  # pylint: disable=unused-argument
        with open(
            self.base_dir.joinpath("plugin_hooks.log"), "a", encoding="utf-8"
@@ -171,7 +165,6 @@ class TestPluginHooks:
        ) as f:
            file_contents = f.readlines()
            file_contents = "\n".join(file_contents)
            assert "post_trainer_create" in file_contents
            assert "pre_model_load" in file_contents
            assert "post_model_build" in file_contents
            assert "pre_lora_load" in file_contents
--- a/tests/e2e/integrations/test_kd.py
+++ b/tests/e2e/integrations/test_kd.py
@@ -90,7 +90,7 @@ class TestKnowledgeDistillation:
        train(cfg=cfg, dataset_meta=dataset_meta)
        assert (Path(temp_dir) / "model.safetensors").exists()
        check_tensorboard(
-            temp_dir + "/runs", "train/loss", 1.2, "Train Loss (%s) is too high"
+            temp_dir + "/runs", "train/loss", 1.0, "Train Loss is too high"
        )
    @pytest.mark.parametrize(
@@ -121,5 +121,5 @@ class TestKnowledgeDistillation:
        train(cfg=cfg, dataset_meta=dataset_meta)
        assert (Path(temp_dir) / "adapter_model.safetensors").exists()
        check_tensorboard(
-            temp_dir + "/runs", "train/loss", 1.2, "Train Loss (%s) is too high"
+            temp_dir + "/runs", "train/loss", 1.0, "Train Loss is too high"
        )
--- a/tests/e2e/multigpu/patched/test_sp.py
+++ b/tests/e2e/multigpu/patched/test_sp.py
@@ -25,7 +25,6 @@ class TestSequenceParallelism:
        micro_batch_size=1,
        pad_to_sequence_len=True,
        ring_attn_func=None,
        threshold=2.0,
    ):
        """Helper method to run sequence parallel tests with different configurations"""
        cfg = DictDefault(
@@ -94,22 +93,22 @@ class TestSequenceParallelism:
        )
        check_tensorboard(
-            temp_dir + "/runs", "train/train_loss", threshold, "Train Loss is too high"
+            temp_dir + "/runs", "train/train_loss", 2.6, "Train Loss is too high"
        )
    @pytest.mark.parametrize(
-        "sample_packing, micro_batch_size, pad_to_sequence_len, ring_attn_func, threshold",
+        "sample_packing, micro_batch_size, pad_to_sequence_len, ring_attn_func",
        [
-            (True, 1, True, None, 2.5),  # defaults to varlen_llama3 ring_attn_func
+            (True, 1, True, None),  # defaults to varlen_llama3 ring_attn_func
-            (False, 2, True, None, 2.5),  # defaults to batch_ring ring_attn_func
+            (False, 2, True, None),  # defaults to batch_ring ring_attn_func
-            # (False, 2, True, "batch_zigzag", 2.5),
+            (False, 2, True, "batch_zigzag"),
-            (False, 2, False, None, 2.5),  # defaults to batch_ring ring_attn_func
+            # (False, 2, False),  # not yet working
        ],
        ids=[
            "sample_packing, varlen_llama3 ring_attn_func",
            "no sample_packing, pad_to_sequence_len, batch_ring ring_attn_func",
            # "no sample_packing, no pad_to_sequence_len, batch_zigzag ring_attn_func",
            "no sample_packing, no pad_to_sequence_len, batch_ring ring_attn_func",
            "no sample_packing, no pad_to_sequence_len, batch_zigzag ring_attn_func",
            # "no sample_packing, pad_to_sequence_len",  # not yet working
        ],
    )
    def test_sequence_parallel_training(
@@ -119,7 +118,6 @@ class TestSequenceParallelism:
        micro_batch_size,
        pad_to_sequence_len,
        ring_attn_func,
        threshold,
    ):
        """Test sequence parallel training with different configurations"""
        self._run_sequence_parallel_test(
@@ -128,5 +126,4 @@ class TestSequenceParallelism:
            micro_batch_size=micro_batch_size,
            pad_to_sequence_len=pad_to_sequence_len,
            ring_attn_func=ring_attn_func,
            threshold=threshold,
        )
--- a/tests/e2e/multigpu/solo/test_grpo.py
+++ b/tests/e2e/multigpu/solo/test_grpo.py
@@ -166,7 +166,6 @@ def oai_gsm8k_transform(cfg, *args, **kwargs):
 """
            )
    @pytest.mark.skip(reason="flaky test")
    @pytest.mark.parametrize(
        "num_gpus",
        [1, 2],
@@ -228,7 +227,7 @@ def oai_gsm8k_transform(cfg, *args, **kwargs):
        current_env = os.environ.copy()
        env = {
-            "NCCL_P2P_LEVEL": "LOC",
+            "NCCL_P2P_LEVEL": "NVL",
            **current_env,
            "CUDA_VISIBLE_DEVICES": "1",
            "VLLM_DISABLE_COMPILE_CACHE": "1",
@@ -258,7 +257,7 @@ def oai_gsm8k_transform(cfg, *args, **kwargs):
                    f"{get_torch_dist_unique_port()}",
                ],
                env={
-                    "NCCL_P2P_LEVEL": "LOC",
+                    "NCCL_P2P_LEVEL": "NVL",
                    "NCCL_DEBUG": "INFO",
                    **current_env,
                },
@@ -266,7 +265,6 @@ def oai_gsm8k_transform(cfg, *args, **kwargs):
        finally:
            recursive_kill(vllm_process)
    @pytest.mark.skip(reason="flaky test")
    @pytest.mark.parametrize(
        "num_gpus",
        [1, 2],
@@ -322,7 +320,7 @@ def oai_gsm8k_transform(cfg, *args, **kwargs):
        current_env = os.environ.copy()
        env = {
-            "NCCL_P2P_LEVEL": "LOC",  # nccl can be brittle, assume P2P isn't reliable
+            "NCCL_P2P_LEVEL": "NVL",  # nccl can be brittle, assume P2P isn't reliable
            **current_env,
            "CUDA_VISIBLE_DEVICES": "1",
            "VLLM_DISABLE_COMPILE_CACHE": "1",
@@ -352,7 +350,7 @@ def oai_gsm8k_transform(cfg, *args, **kwargs):
                    f"{get_torch_dist_unique_port()}",
                ],
                env={
-                    "NCCL_P2P_LEVEL": "LOC",
+                    "NCCL_P2P_LEVEL": "NVL",
                    "NCCL_DEBUG": "INFO",
                    **current_env,
                },
--- a/tests/e2e/multigpu/test_llama.py
+++ b/tests/e2e/multigpu/test_llama.py
@@ -479,7 +479,7 @@ class TestMultiGPULlama:
                "sample_packing": True,
                "pad_to_sequence_len": True,
                "sequence_len": 2048,
-                "val_set_size": 0.1,
+                "val_set_size": 0.05,
                "special_tokens": {
                    "pad_token": "<|endoftext|>",
                },
--- a/tests/e2e/patched/lora_kernels/test_lora_kernel_patching.py
+++ b/tests/e2e/patched/lora_kernels/test_lora_kernel_patching.py
@@ -29,12 +29,12 @@ from axolotl.utils.dict import DictDefault
 MODEL_CONFIGS = [
    {
-        "name": "trl-internal-testing/tiny-MistralForCausalLM-0.2",
+        "name": "openaccess-ai-collective/tiny-mistral",
        "expected_activation": apply_lora_mlp_swiglu,
        "dtype": torch.float16,
    },
    {
-        "name": "trl-internal-testing/tiny-Qwen2ForCausalLM-2.5",
+        "name": "Qwen/Qwen2-7B",
        "expected_activation": apply_lora_mlp_swiglu,
        "dtype": torch.float16,
    },
@@ -44,7 +44,7 @@ MODEL_CONFIGS = [
        "dtype": torch.float32,
    },
    {
-        "name": "trl-internal-testing/tiny-Gemma2ForCausalLM",
+        "name": "mhenrichsen/gemma-2b",
        "expected_activation": apply_lora_mlp_geglu,
        "dtype": torch.float16,
    },
@@ -156,9 +156,7 @@ def test_swiglu_mlp_integration(small_llama_model):
 def test_geglu_model_integration():
    """Test GeGLU activation with Gemma model."""
    model = AutoModelForCausalLM.from_pretrained(
-        "trl-internal-testing/tiny-Gemma2ForCausalLM",
+        "mhenrichsen/gemma-2b", torch_dtype=torch.float16, device_map="cuda:0"
        torch_dtype=torch.float16,
        device_map="cuda:0",
    )
    peft_config = get_peft_config(
        {
--- a/tests/e2e/patched/test_4d_multipack_llama.py
+++ b/tests/e2e/patched/test_4d_multipack_llama.py
@@ -57,9 +57,9 @@ class Test4dMultipackLlama(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_torch_fused",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "save_steps": 3,
+                "save_steps": 10,
-                "eval_steps": 4,
+                "eval_steps": 10,
                "fp16": True,
            }
        )
@@ -105,9 +105,9 @@ class Test4dMultipackLlama(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_torch_fused",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "save_steps": 3,
+                "save_steps": 10,
-                "eval_steps": 4,
+                "eval_steps": 10,
                "fp16": True,
            }
        )
--- a/tests/e2e/patched/test_falcon_samplepack.py
+++ b/tests/e2e/patched/test_falcon_samplepack.py
@@ -6,8 +6,6 @@ import logging
 import os
 import unittest
 import pytest
 from axolotl.cli.args import TrainerCliArgs
 from axolotl.common.datasets import load_datasets
 from axolotl.train import train
@@ -25,7 +23,6 @@ class TestFalconPatched(unittest.TestCase):
    Test case for Falcon models
    """
    @pytest.mark.skip(reason="no tiny models for testing with safetensors")
    @with_temp_dir
    def test_qlora(self, temp_dir):
        # pylint: disable=duplicate-code
@@ -74,7 +71,6 @@ class TestFalconPatched(unittest.TestCase):
        train(cfg=cfg, dataset_meta=dataset_meta)
        check_model_output_exists(temp_dir, cfg)
    @pytest.mark.skip(reason="no tiny models for testing with safetensors")
    @with_temp_dir
    def test_ft(self, temp_dir):
        # pylint: disable=duplicate-code
--- a/tests/e2e/patched/test_mistral_samplepack.py
+++ b/tests/e2e/patched/test_mistral_samplepack.py
@@ -28,7 +28,7 @@ class TestMistral(unittest.TestCase):
        # pylint: disable=duplicate-code
        cfg = DictDefault(
            {
-                "base_model": "trl-internal-testing/tiny-MistralForCausalLM-0.2",
+                "base_model": "openaccess-ai-collective/tiny-mistral",
                "flash_attention": True,
                "sample_packing": True,
                "sequence_len": 1024,
@@ -57,9 +57,9 @@ class TestMistral(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_torch_fused",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "save_steps": 3,
+                "save_steps": 10,
-                "eval_steps": 4,
+                "eval_steps": 10,
                "bf16": "auto",
            }
        )
@@ -76,7 +76,7 @@ class TestMistral(unittest.TestCase):
        # pylint: disable=duplicate-code
        cfg = DictDefault(
            {
-                "base_model": "trl-internal-testing/tiny-MistralForCausalLM-0.2",
+                "base_model": "openaccess-ai-collective/tiny-mistral",
                "flash_attention": True,
                "sample_packing": True,
                "sequence_len": 1024,
@@ -99,9 +99,9 @@ class TestMistral(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_torch_fused",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "save_steps": 3,
+                "save_steps": 10,
-                "eval_steps": 4,
+                "eval_steps": 10,
                "bf16": "auto",
            }
        )
--- a/tests/e2e/patched/test_mixtral_samplepack.py
+++ b/tests/e2e/patched/test_mixtral_samplepack.py
@@ -54,9 +54,9 @@ class TestMixtral(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_bnb_8bit",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "save_steps": 3,
+                "save_steps": 10,
-                "eval_steps": 4,
+                "eval_steps": 10,
                "bf16": "auto",
            }
        )
@@ -93,9 +93,9 @@ class TestMixtral(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_bnb_8bit",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "save_steps": 3,
+                "save_steps": 10,
-                "eval_steps": 4,
+                "eval_steps": 10,
                "bf16": "auto",
            }
        )
--- a/tests/e2e/patched/test_model_patches.py
+++ b/tests/e2e/patched/test_model_patches.py
@@ -56,7 +56,7 @@ class TestModelPatches(unittest.TestCase):
    def test_mistral_multipack(self, temp_dir):
        cfg = DictDefault(
            {
-                "base_model": "trl-internal-testing/tiny-MistralForCausalLM-0.2",
+                "base_model": "openaccess-ai-collective/tiny-mistral",
                "flash_attention": True,
                "sample_packing": True,
                "sequence_len": 2048,
--- a/tests/e2e/patched/test_peft_embeddings.py
+++ b/tests/e2e/patched/test_peft_embeddings.py
@@ -1,63 +0,0 @@
 """
 Test case for handling embeddings when using peft
 """
 import torch
 from axolotl.train import setup_model_and_tokenizer
 from axolotl.utils.config import normalize_config, validate_config
 from axolotl.utils.dict import DictDefault
 class TestLlamaPeftEmbeddings:
    """
    test class for handling embeddings when using peft
    """
    def test_peft_embeddings_upcast(self, temp_dir):
        # pylint: disable=duplicate-code
        cfg = DictDefault(
            {
                "base_model": "HuggingFaceTB/SmolLM2-135M",
                "load_in_4bit": True,
                "adapter": "qlora",
                "lora_r": 8,
                "lora_alpha": 16,
                "lora_target_linear": True,
                "trust_remote_code": True,
                "sequence_len": 512,
                "val_set_size": 0.01,
                "special_tokens": {
                    "pad_token": "<|endoftext|>",
                },
                "datasets": [
                    {
                        "path": "mhenrichsen/alpaca_2k_test",
                        "type": "alpaca",
                    },
                ],
                "num_epochs": 1,
                "max_steps": 2,
                "micro_batch_size": 1,
                "gradient_accumulation_steps": 1,
                "output_dir": temp_dir,
                "learning_rate": 0.00001,
                "optimizer": "adamw_8bit",
                "lr_scheduler": "cosine",
                "flash_attention": True,
                "sample_packing": False,
                "bf16": "auto",
                "save_safetensors": True,
                "embeddings_skip_upcast": True,
            }
        )
        cfg = validate_config(cfg)
        normalize_config(cfg)
        model, _, _, _ = setup_model_and_tokenizer(cfg)
        # Check if the embeddings are upcast correctly
        # only embed_tokens is a parameter that may be upcast
        assert model.base_model.model.model.embed_tokens.weight.dtype == torch.bfloat16
        assert model.base_model.model.lm_head.weight.dtype == torch.bfloat16
--- a/tests/e2e/patched/test_phi_multipack.py
+++ b/tests/e2e/patched/test_phi_multipack.py
@@ -56,9 +56,9 @@ class TestPhiMultipack(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_bnb_8bit",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "eval_steps": 3,
+                "eval_steps": 10,
-                "save_steps": 4,
+                "save_steps": 10,
                "bf16": "auto",
            }
        )
@@ -108,9 +108,9 @@ class TestPhiMultipack(unittest.TestCase):
                "learning_rate": 0.00001,
                "optimizer": "adamw_bnb_8bit",
                "lr_scheduler": "cosine",
-                "max_steps": 5,
+                "max_steps": 20,
-                "eval_steps": 3,
+                "eval_steps": 10,
-                "save_steps": 4,
+                "save_steps": 10,
                "bf16": "auto",
            }
        )
--- a/tests/e2e/patched/test_resume.py
+++ b/tests/e2e/patched/test_resume.py
@@ -15,7 +15,7 @@ from axolotl.train import train
 from axolotl.utils.config import normalize_config, validate_config
 from axolotl.utils.dict import DictDefault
-from ..utils import check_model_output_exists, most_recent_subdir, require_torch_2_6_0
+from ..utils import check_model_output_exists, most_recent_subdir
 LOG = logging.getLogger("axolotl.tests.e2e")
 os.environ["WANDB_DISABLED"] = "true"
@@ -26,7 +26,6 @@ class TestResumeLlama:
    Test case for resuming training of llama models
    """
    @require_torch_2_6_0
    def test_resume_lora_packed(self, temp_dir):
        # pylint: disable=duplicate-code
        cfg = DictDefault(
@@ -63,7 +62,6 @@ class TestResumeLlama:
                "save_total_limit": 5,
                "max_steps": 15,
                "use_tensorboard": True,
                "save_safetensors": True,
            }
        )
        if is_torch_bf16_gpu_available():
--- a/tests/e2e/patched/test_sp.py
+++ b/tests/e2e/patched/test_sp.py
@@ -10,15 +10,14 @@ import pytest
 import torch
 from accelerate.state import PartialState
 from axolotl.core.trainers.mixins.sequence_parallel import apply_sequence_parallelism
 from axolotl.monkeypatch.attention.ring_attn import (
    RingAttnFunc,
    get_ring_attn_group,
    register_ring_attn,
    set_ring_attn_group,
 )
 from axolotl.utils.ctx_managers.sequence_parallel import apply_sequence_parallelism
 from axolotl.utils.dict import DictDefault
 from axolotl.utils.schemas.enums import RingAttnFunc
 from axolotl.utils.schemas.trl import TRLConfig
@pytest.fixture
@@ -63,14 +62,12 @@ def sequence_parallel_batch():
    input_ids = torch.arange(batch_size * seq_len).reshape(batch_size, seq_len)
    attention_mask = torch.ones(batch_size, seq_len)
    position_ids = torch.arange(seq_len).expand(batch_size, seq_len)
    labels = input_ids.clone()
    # Create test batch
    batch = {
        "input_ids": input_ids,
        "attention_mask": attention_mask,
        "position_ids": position_ids,
        "labels": labels,
    }
    return batch
@@ -182,44 +179,12 @@ class TestConfigValidation:
                False,
                "micro_batch_size must be set to 1",
            ),
            # Valid: Basic GRPO config
            (
                {
                    "sequence_parallel_degree": 2,
                    "flash_attention": True,
                    "micro_batch_size": 2,
                    "trl": {"use_liger_loss": True},
                },
                {
                    "sequence_parallel_degree": 2,
                    "flash_attention": True,
                    "micro_batch_size": 2,
                    "trl": TRLConfig(use_liger_loss=True),
                },
                True,
                "GRPO + SP + Liger not currently supported",
            ),
            # Invalid: GRPO config with Liger loss
            (
                {
                    "rl": "grpo",
                    "sequence_parallel_degree": 2,
                    "flash_attention": True,
                    "micro_batch_size": 2,
                    "trl": {"use_liger_loss": True},
                },
                None,
                False,
                "GRPO + SP + Liger not currently supported",
            ),
        ],
        ids=[
            "valid_config",
            "default_sp_degree",
            "without_flash_attention",
            "sample_packing_with_large_batch",
            "valid_grpo",
            "grpo_with_liger_loss",
        ],
    )
    def test_sequence_parallel_config_validation(
@@ -291,7 +256,7 @@ class TestConfigValidation:
            AxolotlInputConfig(**cfg)
        # Verify error message
-        assert "Input should be 'varlen_llama3' or 'batch_ring'" in str(excinfo.value)
+        assert "ring_attn_func: INVALID_FUNC must be in" in str(excinfo.value)
 class TestApplySequenceParallelism:
@@ -325,11 +290,10 @@ class TestApplySequenceParallelism:
    def test_world_size_one(self, sequence_parallel_batch):
        """Test that function returns original batch when world size is 1."""
-        result, _, _ = apply_sequence_parallelism(
+        result = apply_sequence_parallelism(
            batch=sequence_parallel_batch,
            local_rank=0,
            local_world_size=1,
            gradient_accumulation_steps=1,
            ring_attn_func=RingAttnFunc.BATCH_RING,
        )
@@ -341,11 +305,10 @@ class TestApplySequenceParallelism:
        batch = sequence_parallel_batch
        seq_len = batch["input_ids"].size(1)
-        result, _, _ = apply_sequence_parallelism(
+        result = apply_sequence_parallelism(
            batch=batch,
            local_rank=0,
            local_world_size=2,
            gradient_accumulation_steps=1,
            ring_attn_func=RingAttnFunc.BATCH_RING,
        )
@@ -365,59 +328,57 @@ class TestApplySequenceParallelism:
        seq_len = batch["input_ids"].size(1)
        original_input_ids = batch["input_ids"].clone()
-        result, _, _ = apply_sequence_parallelism(
+        result = apply_sequence_parallelism(
            batch=batch,
            local_rank=1,
            local_world_size=2,
            gradient_accumulation_steps=1,
            ring_attn_func=RingAttnFunc.BATCH_RING,
        )
        # Verify content: rank 1 should get the second half of the sequence
        assert torch.equal(result["input_ids"], original_input_ids[:, seq_len // 2 :])
-    # TODO(djsaunde): add back once implemented.
+    def test_batch_zigzag(self, sequence_parallel_batch):
-    # def test_batch_zigzag(self, sequence_parallel_batch):
+        """Test BATCH_ZIGZAG sharding pattern."""
-    #     """Test BATCH_ZIGZAG sharding pattern."""
+        batch = sequence_parallel_batch
-    #     batch = sequence_parallel_batch
+        original_input_ids = batch["input_ids"].clone()
-    #     original_input_ids = batch["input_ids"].clone()
+        seq_len = batch["input_ids"].size(1)
    #     seq_len = batch["input_ids"].size(1)
-    #     # Test rank 0
+        # Test rank 0
-    #     result_rank0 = apply_sequence_parallelism(
+        result_rank0 = apply_sequence_parallelism(
-    #         batch={k: v.clone() for k, v in batch.items()},
+            batch={k: v.clone() for k, v in batch.items()},
-    #         local_rank=0,
+            local_rank=0,
-    #         local_world_size=2,
+            local_world_size=2,
-    #         ring_attn_func=RingAttnFunc.BATCH_ZIGZAG,
+            ring_attn_func=RingAttnFunc.BATCH_ZIGZAG,
-    #     )
+        )
-    #     # Test rank 1
+        # Test rank 1
-    #     result_rank1 = apply_sequence_parallelism(
+        result_rank1 = apply_sequence_parallelism(
-    #         batch={k: v.clone() for k, v in batch.items()},
+            batch={k: v.clone() for k, v in batch.items()},
-    #         local_rank=1,
+            local_rank=1,
-    #         local_world_size=2,
+            local_world_size=2,
-    #         ring_attn_func=RingAttnFunc.BATCH_ZIGZAG,
+            ring_attn_func=RingAttnFunc.BATCH_ZIGZAG,
-    #     )
+        )
-    #     # Checks for both ranks
+        # Checks for both ranks
-    #     assert result_rank0["input_ids"].shape[1] == seq_len // 2
+        assert result_rank0["input_ids"].shape[1] == seq_len // 2
-    #     assert result_rank1["input_ids"].shape[1] == seq_len // 2
+        assert result_rank1["input_ids"].shape[1] == seq_len // 2
-    #     # For a 2-rank system with 8 tokens, check specific zigzag pattern
+        # For a 2-rank system with 8 tokens, check specific zigzag pattern
-    #     # Rank 0 should get chunks [0, 1] and [6, 7]
+        # Rank 0 should get chunks [0, 1] and [6, 7]
-    #     # Rank 1 should get chunks [2, 3] and [4, 5]
+        # Rank 1 should get chunks [2, 3] and [4, 5]
-    #     if seq_len == 8:
+        if seq_len == 8:
-    #         # Create expected tensors for comparison
+            # Create expected tensors for comparison
-    #         rank0_expected = torch.cat(
+            rank0_expected = torch.cat(
-    #             [original_input_ids[:, :2], original_input_ids[:, 6:8]], dim=1
+                [original_input_ids[:, :2], original_input_ids[:, 6:8]], dim=1
-    #         )
+            )
-    #         rank1_expected = torch.cat(
+            rank1_expected = torch.cat(
-    #             [original_input_ids[:, 2:4], original_input_ids[:, 4:6]], dim=1
+                [original_input_ids[:, 2:4], original_input_ids[:, 4:6]], dim=1
-    #         )
+            )
-    #         assert torch.equal(result_rank0["input_ids"], rank0_expected)
+            assert torch.equal(result_rank0["input_ids"], rank0_expected)
-    #         assert torch.equal(result_rank1["input_ids"], rank1_expected)
+            assert torch.equal(result_rank1["input_ids"], rank1_expected)
    def test_partial_application(self, sequence_parallel_batch):
        """Test that we can create a partially applied version of the function."""
@@ -429,12 +390,11 @@ class TestApplySequenceParallelism:
            apply_sequence_parallelism,
            local_rank=0,
            local_world_size=2,
            gradient_accumulation_steps=1,
            ring_attn_func=RingAttnFunc.BATCH_RING,
        )
        # Use the partially applied function
-        result, _, _ = rank0_ring_parallel(batch=batch)
+        result = rank0_ring_parallel(batch=batch)
        # Verify it works as expected
        assert result["input_ids"].shape[1] == original_input_ids.shape[1] // 2
@@ -452,15 +412,13 @@ class TestApplySequenceParallelism:
        original_input_ids = batch["input_ids"].clone()
        # This should run without error even though position_ids is missing
-        result, _, _ = apply_sequence_parallelism(
+        result = apply_sequence_parallelism(
            batch=batch,
            local_rank=0,
            local_world_size=2,
            gradient_accumulation_steps=1,
            ring_attn_func=RingAttnFunc.BATCH_RING,
        )
        # Verification should pass
-        assert "position_ids" in result
+        assert "position_ids" not in result
        assert result["input_ids"].shape[1] == result["position_ids"].shape[1]
        assert result["input_ids"].shape[1] == original_input_ids.shape[1] // 2
--- a/tests/e2e/test_evaluate.py
+++ b/tests/e2e/test_evaluate.py
@@ -19,11 +19,14 @@ class TestE2eEvaluate:
        # pylint: disable=duplicate-code
        cfg = DictDefault(
            {
-                "base_model": "HuggingFaceTB/SmolLM2-135M",
+                "base_model": "JackFram/llama-68m",
                "tokenizer_type": "LlamaTokenizer",
                "sequence_len": 1024,
                "val_set_size": 0.02,
                "special_tokens": {
-                    "pad_token": "<|endoftext|>",
+                    "unk_token": "<unk>",
                    "bos_token": "<s>",
                    "eos_token": "</s>",
                },
                "datasets": [
                    {
--- a/tests/e2e/test_falcon.py
+++ b/tests/e2e/test_falcon.py
@@ -6,8 +6,6 @@ import logging
 import os
 import unittest
 import pytest
 from axolotl.cli.args import TrainerCliArgs
 from axolotl.common.datasets import load_datasets
 from axolotl.train import train
@@ -25,7 +23,6 @@ class TestFalcon(unittest.TestCase):
    Test case for falcon
    """
    @pytest.mark.skip(reason="no tiny models for testing with safetensors")
    @with_temp_dir
    def test_lora(self, temp_dir):
        # pylint: disable=duplicate-code
@@ -77,7 +74,6 @@ class TestFalcon(unittest.TestCase):
        train(cfg=cfg, dataset_meta=dataset_meta)
        check_model_output_exists(temp_dir, cfg)
    @pytest.mark.skip(reason="no tiny models for testing with safetensors")
    @with_temp_dir
    def test_lora_added_vocab(self, temp_dir):
        # pylint: disable=duplicate-code
@@ -133,7 +129,6 @@ class TestFalcon(unittest.TestCase):
        train(cfg=cfg, dataset_meta=dataset_meta)
        check_model_output_exists(temp_dir, cfg)
    @pytest.mark.skip(reason="no tiny models for testing with safetensors")
    @with_temp_dir
    def test_ft(self, temp_dir):
        # pylint: disable=duplicate-code
--- a/tests/e2e/test_mistral.py
+++ b/tests/e2e/test_mistral.py
@@ -30,7 +30,7 @@ class TestMistral(unittest.TestCase):
        # pylint: disable=duplicate-code
        cfg = DictDefault(
            {
-                "base_model": "trl-internal-testing/tiny-MistralForCausalLM-0.2",
+                "base_model": "openaccess-ai-collective/tiny-mistral",
                "flash_attention": True,
                "sequence_len": 1024,
                "load_in_8bit": True,
@@ -77,7 +77,7 @@ class TestMistral(unittest.TestCase):
        # pylint: disable=duplicate-code
        cfg = DictDefault(
            {
-                "base_model": "trl-internal-testing/tiny-MistralForCausalLM-0.2",
+                "base_model": "openaccess-ai-collective/tiny-mistral",
                "flash_attention": True,
                "sequence_len": 1024,
                "val_set_size": 0.02,
--- a/tests/e2e/test_optimizers.py
+++ b/tests/e2e/test_optimizers.py
@@ -199,50 +199,3 @@ class TestCustomOptimizers(unittest.TestCase):
        train(cfg=cfg, dataset_meta=dataset_meta)
        check_model_output_exists(temp_dir, cfg)
    @with_temp_dir
    def test_came_pytorch(self, temp_dir):
        # pylint: disable=duplicate-code
        cfg = DictDefault(
            {
                "base_model": "JackFram/llama-68m",
                "tokenizer_type": "LlamaTokenizer",
                "sequence_len": 1024,
                "load_in_8bit": True,
                "adapter": "lora",
                "lora_r": 8,
                "lora_alpha": 16,
                "lora_dropout": 0.05,
                "lora_target_linear": True,
                "val_set_size": 0.1,
                "special_tokens": {
                    "unk_token": "<unk>",
                    "bos_token": "<s>",
                    "eos_token": "</s>",
                },
                "datasets": [
                    {
                        "path": "mhenrichsen/alpaca_2k_test",
                        "type": "alpaca",
                    },
                ],
                "num_epochs": 1,
                "micro_batch_size": 8,
                "gradient_accumulation_steps": 1,
                "output_dir": temp_dir,
                "learning_rate": 0.00001,
                "optimizer": "came_pytorch",
                "adam_beta3": 0.9999,
                "adam_epsilon2": 1e-16,
                "max_steps": 5,
                "lr_scheduler": "cosine",
            }
        )
        cfg = validate_config(cfg)
        normalize_config(cfg)
        cli_args = TrainerCliArgs()
        dataset_meta = load_datasets(cfg=cfg, cli_args=cli_args)
        train(cfg=cfg, dataset_meta=dataset_meta)
        check_model_output_exists(temp_dir, cfg)
--- a/tests/test_chunked_xentropy.py
+++ b/tests/test_chunked_xentropy.py
@@ -0,0 +1,40 @@
 """
 test suite for chunked cross entropy
 """
 import pytest
 import torch
 from torch import nn
 from axolotl.monkeypatch.loss.chunked import get_causal_lm_loss
@pytest.fixture
 def chunked_fixtures():
    model_dim = 512
    vocab_size = 1024 * 256
    seq_len = 2048
    batch_size = 1
    lm_head = nn.Linear(model_dim, vocab_size)
    hidden_state = torch.randn(batch_size, seq_len, model_dim)
    labels = torch.randint(low=0, high=vocab_size, size=(batch_size, seq_len))
    return lm_head, hidden_state, labels, vocab_size
 def test_chunked_forward(chunked_fixtures):  # pylint: disable=redefined-outer-name
    lm_head, hidden_state, labels, vocab_size = chunked_fixtures
    lm_loss = get_causal_lm_loss()
    logits = lm_head(hidden_state)
    chunked_lm_loss = lm_loss(logits, labels)
    logits_flattened = logits.view(-1, vocab_size)
    labels_flattened = labels.view(-1)
    loss = nn.functional.cross_entropy(
        logits_flattened.float(), labels_flattened, reduction="mean"
    )
    assert torch.allclose(chunked_lm_loss, loss, atol=1e-2, rtol=1e-2)
--- a/tests/test_datasets.py
+++ b/tests/test_datasets.py
@@ -414,6 +414,7 @@ class TestDatasetPreparation:
            snapshot_path = snapshot_download(
                repo_id="mhenrichsen/alpaca_2k_test",
                repo_type="dataset",
                local_dir=tmp_ds_path,
            )
            shutil.copytree(snapshot_path, tmp_ds_path, dirs_exist_ok=True)
--- a/tests/test_packed_batch_sampler.py
+++ b/tests/test_packed_batch_sampler.py
@@ -106,4 +106,3 @@ class TestBatchedSamplerPacking:
        original_idxs = set(range(len(train_dataset)))
        assert original_idxs == set(batch_idxs)
        assert len(batch_idxs) == len(set(batch_idxs))
Author	SHA1	Message	Date
Wing Lian	985ee95f2d	use uint8 dtype for qlora	2025-05-05 08:27:34 -04:00
Wing Lian	72ece3dadf	support for configurable group and bin size for sample packing	2025-05-05 06:57:21 -04:00
Wing Lian	2e74e1d289	fix xformers inference	2025-05-05 06:20:31 -04:00
Wing Lian	4f478083e7	fix batch size setter	2025-05-05 03:49:01 -04:00
Wing Lian	82453bab7e	handle xformers patch for inference too	2025-05-05 03:22:02 -04:00
Wing Lian	5b2bd75aba	parallel bin packing fix error with lambda and pickling make sure things are in float instead of np.float	2025-05-04 23:24:46 -04:00
Wing Lian	03508c6816	improve readability of multipack sampler	2025-05-04 23:24:40 -04:00
Wing Lian	48b3e14a24	Print axolotl art if train is called outside of cli:	2025-05-04 23:24:35 -04:00
Wing Lian	544b1212d8	use relative import	2025-05-04 07:36:26 -04:00
Wing Lian	695fc2f802	missing __init__	2025-05-04 07:31:01 -04:00
Wing Lian	c7f38ba96b	fix seq lens calc to drop hanging sequences	2025-05-03 21:56:45 -04:00
Wing Lian	372fd08548	fix fp16 / bf16 reset when using fp16 with bf16 auto	2025-05-03 21:56:39 -04:00
Wing Lian	52cab2aa5b	refactor so we can add test	2025-05-03 21:55:34 -04:00
Wing Lian	bed8f354a5	reorder the packing check	2025-05-03 15:38:29 -04:00
Wing Lian	f301a165c3	fix xformers + packing validation	2025-05-03 15:00:33 -04:00
Wing Lian	2b3a09aeae	wire up the patch	2025-05-03 15:00:29 -04:00
Wing Lian	648780de51	xformers attention with packing	2025-05-03 14:59:49 -04:00
Wing Lian	ecc2388274	chunked cross entropy loss	2025-05-03 14:59:43 -04:00
Wing Lian	ebf724a9d9	fix import	2025-05-03 12:03:15 -04:00
Wing Lian	99095573c3	add tabs back to code check	2025-05-03 12:03:15 -04:00
Wing Lian	140083a828	patch peft to not upcast everything	2025-05-03 12:03:15 -04:00
Wing Lian	37c27aedc1	fsdp embeddings should be float32 per comment	2025-05-03 12:03:15 -04:00