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base: biondizzle:v0.17.1
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biondizzle:main biondizzle:cmm
biondizzle:v0.19.1rc0 biondizzle:v0.19.0 biondizzle:v0.19.0rc1 biondizzle:v0.19.0rc0 biondizzle:v0.18.2rc0 biondizzle:v0.18.1 biondizzle:v0.18.1rc0 biondizzle:v0.18.0 biondizzle:v0.18.0rc2 biondizzle:v0.18.0rc1 biondizzle:v0.17.2rc0 biondizzle:v0.18.0rc0 biondizzle:v0.17.1 biondizzle:v0.17.1rc0 biondizzle:v0.17.0rc1 biondizzle:v0.17.0 biondizzle:v0.17.0rc0 biondizzle:v0.16.1rc0 biondizzle:v0.16.0 biondizzle:v0.16.0rc3 biondizzle:v0.16.0rc2 biondizzle:v0.16.0rc1 biondizzle:v0.15.2rc0 biondizzle:v0.15.1rc1 biondizzle:v0.15.1 biondizzle:v0.15.1rc0 biondizzle:v0.16.0rc0 biondizzle:v0.15.0 biondizzle:v0.15.0rc3 biondizzle:v0.15.0rc2 biondizzle:v0.15.0rc1 biondizzle:v0.15.0rc0 biondizzle:v0.14.1 biondizzle:v0.14.0 biondizzle:v0.14.0rc2 biondizzle:v0.14.0rc1 biondizzle:v0.14.0rc0 biondizzle:v0.13.0 biondizzle:v0.13.0rc4 biondizzle:v0.13.0rc3 biondizzle:v0.13.0rc2 biondizzle:v0.13.0rc1 biondizzle:v0.12.0 biondizzle:v0.11.2 biondizzle:v0.11.1 biondizzle:v0.11.1rc7 biondizzle:v0.11.1rc6 biondizzle:v0.11.1rc5 biondizzle:v0.11.1rc4 biondizzle:v0.11.1rc3 biondizzle:v0.11.1rc2 biondizzle:v0.11.1rc1 biondizzle:v0.11.0 biondizzle:v0.10.2 biondizzle:v0.11.0rc6 biondizzle:v0.11.0rc5 biondizzle:v0.11.0rc4 biondizzle:v0.11.0rc3 biondizzle:v0.11.0rc2 biondizzle:v0.11.1rc0 biondizzle:v0.11.0rc1 biondizzle:ci/build/22474 biondizzle:v0.10.2rc3 biondizzle:v0.10.2rc2 biondizzle:v0.10.2rc1 biondizzle:v0.10.1.1 biondizzle:v0.10.1 biondizzle:v0.10.1rc1 biondizzle:v0.10.0rc2 biondizzle:v0.10.0 biondizzle:v0.10.0rc1 biondizzle:v0.9.2rc2 biondizzle:v0.9.2 biondizzle:v0.9.2rc1 biondizzle:v0.9.1rc2 biondizzle:v0.9.1 biondizzle:v0.9.1rc1 biondizzle:v0.9.0.1 biondizzle:v0.9.0 biondizzle:v0.8.5.post1 biondizzle:v0.8.5 biondizzle:v0.8.4 biondizzle:v0.8.3 biondizzle:v0.8.3rc1 biondizzle:v0.8.2 biondizzle:v0.8.1 biondizzle:v0.8.0 biondizzle:v0.8.0rc2 biondizzle:v0.8.0rc1 biondizzle:v0.7.3 biondizzle:v0.7.2 biondizzle:v0.7.1 biondizzle:v0.7.0 biondizzle:v0.6.6.post1 biondizzle:v0.6.6 biondizzle:v0.6.5 biondizzle:v0.6.4.post1 biondizzle:v0.6.4 biondizzle:v0.6.3.post1 biondizzle:v0.6.3 biondizzle:v0.6.2 biondizzle:v0.6.1.post2 biondizzle:v0.6.1.post1 biondizzle:v0.6.1 biondizzle:v0.6.0 biondizzle:v0.5.5 biondizzle:v0.5.4 biondizzle:v0.5.3.post1 biondizzle:v0.5.3 biondizzle:v0.5.2 biondizzle:v0.5.1 biondizzle:v0.5.0.post1 biondizzle:v0.5.0 biondizzle:v0.4.3 biondizzle:v0.4.2 biondizzle:v0.4.1 biondizzle:v0.4.0.post1 biondizzle:v0.4.0 biondizzle:v0.3.3 biondizzle:v0.3.2 biondizzle:v0.3.1 biondizzle:v0.3.0 biondizzle:v0.2.7 biondizzle:v0.2.6 biondizzle:v0.2.5 biondizzle:v0.2.4 biondizzle:v0.2.3 biondizzle:v0.2.2 biondizzle:v0.2.1.post1 biondizzle:v0.2.1 biondizzle:v0.2.0 biondizzle:v0.1.7 biondizzle:v0.1.6 biondizzle:v0.1.5 biondizzle:v0.1.4 biondizzle:v0.1.3 biondizzle:v0.1.2 biondizzle:v0.1.1 biondizzle:v0.1.0 biondizzle:submission
..
compare: biondizzle:v0.8.3
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biondizzle:cmm biondizzle:main
biondizzle:v0.19.1rc0 biondizzle:v0.19.0 biondizzle:v0.19.0rc1 biondizzle:v0.19.0rc0 biondizzle:v0.18.2rc0 biondizzle:v0.18.1 biondizzle:v0.18.1rc0 biondizzle:v0.18.0 biondizzle:v0.18.0rc2 biondizzle:v0.18.0rc1 biondizzle:v0.17.2rc0 biondizzle:v0.18.0rc0 biondizzle:v0.17.1 biondizzle:v0.17.1rc0 biondizzle:v0.17.0rc1 biondizzle:v0.17.0 biondizzle:v0.17.0rc0 biondizzle:v0.16.1rc0 biondizzle:v0.16.0 biondizzle:v0.16.0rc3 biondizzle:v0.16.0rc2 biondizzle:v0.16.0rc1 biondizzle:v0.15.2rc0 biondizzle:v0.15.1rc1 biondizzle:v0.15.1 biondizzle:v0.15.1rc0 biondizzle:v0.16.0rc0 biondizzle:v0.15.0 biondizzle:v0.15.0rc3 biondizzle:v0.15.0rc2 biondizzle:v0.15.0rc1 biondizzle:v0.15.0rc0 biondizzle:v0.14.1 biondizzle:v0.14.0 biondizzle:v0.14.0rc2 biondizzle:v0.14.0rc1 biondizzle:v0.14.0rc0 biondizzle:v0.13.0 biondizzle:v0.13.0rc4 biondizzle:v0.13.0rc3 biondizzle:v0.13.0rc2 biondizzle:v0.13.0rc1 biondizzle:v0.12.0 biondizzle:v0.11.2 biondizzle:v0.11.1 biondizzle:v0.11.1rc7 biondizzle:v0.11.1rc6 biondizzle:v0.11.1rc5 biondizzle:v0.11.1rc4 biondizzle:v0.11.1rc3 biondizzle:v0.11.1rc2 biondizzle:v0.11.1rc1 biondizzle:v0.11.0 biondizzle:v0.10.2 biondizzle:v0.11.0rc6 biondizzle:v0.11.0rc5 biondizzle:v0.11.0rc4 biondizzle:v0.11.0rc3 biondizzle:v0.11.0rc2 biondizzle:v0.11.1rc0 biondizzle:v0.11.0rc1 biondizzle:ci/build/22474 biondizzle:v0.10.2rc3 biondizzle:v0.10.2rc2 biondizzle:v0.10.2rc1 biondizzle:v0.10.1.1 biondizzle:v0.10.1 biondizzle:v0.10.1rc1 biondizzle:v0.10.0rc2 biondizzle:v0.10.0 biondizzle:v0.10.0rc1 biondizzle:v0.9.2rc2 biondizzle:v0.9.2 biondizzle:v0.9.2rc1 biondizzle:v0.9.1rc2 biondizzle:v0.9.1 biondizzle:v0.9.1rc1 biondizzle:v0.9.0.1 biondizzle:v0.9.0 biondizzle:v0.8.5.post1 biondizzle:v0.8.5 biondizzle:v0.8.4 biondizzle:v0.8.3 biondizzle:v0.8.3rc1 biondizzle:v0.8.2 biondizzle:v0.8.1 biondizzle:v0.8.0 biondizzle:v0.8.0rc2 biondizzle:v0.8.0rc1 biondizzle:v0.7.3 biondizzle:v0.7.2 biondizzle:v0.7.1 biondizzle:v0.7.0 biondizzle:v0.6.6.post1 biondizzle:v0.6.6 biondizzle:v0.6.5 biondizzle:v0.6.4.post1 biondizzle:v0.6.4 biondizzle:v0.6.3.post1 biondizzle:v0.6.3 biondizzle:v0.6.2 biondizzle:v0.6.1.post2 biondizzle:v0.6.1.post1 biondizzle:v0.6.1 biondizzle:v0.6.0 biondizzle:v0.5.5 biondizzle:v0.5.4 biondizzle:v0.5.3.post1 biondizzle:v0.5.3 biondizzle:v0.5.2 biondizzle:v0.5.1 biondizzle:v0.5.0.post1 biondizzle:v0.5.0 biondizzle:v0.4.3 biondizzle:v0.4.2 biondizzle:v0.4.1 biondizzle:v0.4.0.post1 biondizzle:v0.4.0 biondizzle:v0.3.3 biondizzle:v0.3.2 biondizzle:v0.3.1 biondizzle:v0.3.0 biondizzle:v0.2.7 biondizzle:v0.2.6 biondizzle:v0.2.5 biondizzle:v0.2.4 biondizzle:v0.2.3 biondizzle:v0.2.2 biondizzle:v0.2.1.post1 biondizzle:v0.2.1 biondizzle:v0.2.0 biondizzle:v0.1.7 biondizzle:v0.1.6 biondizzle:v0.1.5 biondizzle:v0.1.4 biondizzle:v0.1.3 biondizzle:v0.1.2 biondizzle:v0.1.1 biondizzle:v0.1.0 biondizzle:submission

2 Commits
v0.17.1 ... v0.8.3

Author SHA1 Message Date
simon-mo
296c6572dd Revert "[V1] DP scale-out (1/N): Use zmq ROUTER/DEALER sockets for input queue (#15906)"
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Create Release / Create Release (push) Has been cancelled
Details 
This reverts commit 651cf0fec1.
 2025-04-05 21:10:57 -07:00
Lu Fang
c575232395 [Model] Support Llama4 in vLLM (#16104) 2025-04-05 21:01:00 -07:00
4430 changed files with 283972 additions and 866001 deletions
Expand all files Collapse all files

0
.buildkite/.pipeline_gen_v2
View File

27
.buildkite/check-wheel-size.py
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@@ -1,20 +1,19 @@
# SPDX-License-Identifier: Apache-2.0 # SPDX-License-Identifier: Apache-2.0
# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
import os import os
import sys import sys
import zipfile import zipfile
# Read the VLLM_MAX_SIZE_MB environment variable, defaulting to 500 MiB # Read the VLLM_MAX_SIZE_MB environment variable, defaulting to 400 MiB
# Note that we have 800 MiB quota, please use it wisely. # Note that we have 400 MiB quota, please use it wisely.
# See https://github.com/pypi/support/issues/6326 . # See https://github.com/pypi/support/issues/3792 .
# Please also sync the value with the one in Dockerfile. # Please also sync the value with the one in Dockerfile.
VLLM_MAX_SIZE_MB = int(os.environ.get("VLLM_MAX_SIZE_MB", 500)) VLLM_MAX_SIZE_MB = int(os.environ.get('VLLM_MAX_SIZE_MB', 400))
def print_top_10_largest_files(zip_file): def print_top_10_largest_files(zip_file):
"""Print the top 10 largest files in the given zip file.""" """Print the top 10 largest files in the given zip file."""
with zipfile.ZipFile(zip_file, "r") as z: with zipfile.ZipFile(zip_file, 'r') as z:
file_sizes = [(f, z.getinfo(f).file_size) for f in z.namelist()] file_sizes = [(f, z.getinfo(f).file_size) for f in z.namelist()]
file_sizes.sort(key=lambda x: x[1], reverse=True) file_sizes.sort(key=lambda x: x[1], reverse=True)
for f, size in file_sizes[:10]: for f, size in file_sizes[:10]:
@@ -29,18 +28,14 @@ def check_wheel_size(directory):
wheel_path = os.path.join(root, file_name) wheel_path = os.path.join(root, file_name)
wheel_size_mb = os.path.getsize(wheel_path) / (1024 * 1024) wheel_size_mb = os.path.getsize(wheel_path) / (1024 * 1024)
if wheel_size_mb > VLLM_MAX_SIZE_MB: if wheel_size_mb > VLLM_MAX_SIZE_MB:
print( print(f"Not allowed: Wheel {wheel_path} is larger "
f"Not allowed: Wheel {wheel_path} is larger " f"({wheel_size_mb:.2f} MB) than the limit "
f"({wheel_size_mb:.2f} MB) than the limit " f"({VLLM_MAX_SIZE_MB} MB).")
f"({VLLM_MAX_SIZE_MB} MB)."
)
print_top_10_largest_files(wheel_path) print_top_10_largest_files(wheel_path)
return 1 return 1
else: else:
print( print(f"Wheel {wheel_path} is within the allowed size "
f"Wheel {wheel_path} is within the allowed size " f"({wheel_size_mb:.2f} MB).")
f"({wheel_size_mb:.2f} MB)."
)
return 0 return 0
@@ -50,4 +45,4 @@ if __name__ == "__main__":
sys.exit(1) sys.exit(1)
directory = sys.argv[1] directory = sys.argv[1]
sys.exit(check_wheel_size(directory)) sys.exit(check_wheel_size(directory))

25
.buildkite/ci_config.yaml
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@@ -1,25 +0,0 @@
name: vllm_ci
job_dirs:
- ".buildkite/image_build"
- ".buildkite/test_areas"
- ".buildkite/hardware_tests"
run_all_patterns:
- "docker/Dockerfile"
- "CMakeLists.txt"
- "requirements/common.txt"
- "requirements/cuda.txt"
- "requirements/build.txt"
- "requirements/test.txt"
- "setup.py"
- "csrc/"
- "cmake/"
run_all_exclude_patterns:
- "docker/Dockerfile."
- "csrc/cpu/"
- "csrc/rocm/"
- "cmake/hipify.py"
- "cmake/cpu_extension.cmake"
registries: public.ecr.aws/q9t5s3a7
repositories:
main: "vllm-ci-postmerge-repo"
premerge: "vllm-ci-test-repo"

26
.buildkite/generate_index.py Normal file
View File

@@ -0,0 +1,26 @@
# SPDX-License-Identifier: Apache-2.0
import argparse
import os
template = """<!DOCTYPE html>
<html>
<body>
<h1>Links for vLLM</h1/>
<a href="../{wheel_html_escaped}">{wheel}</a><br/>
</body>
</html>
"""
parser = argparse.ArgumentParser()
parser.add_argument("--wheel", help="The wheel path.", required=True)
args = parser.parse_args()
filename = os.path.basename(args.wheel)
with open("index.html", "w") as f:
print(f"Generated index.html for {args.wheel}")
# cloudfront requires escaping the '+' character
f.write(
template.format(wheel=filename,
wheel_html_escaped=filename.replace("+", "%2B")))

30
.buildkite/hardware_tests/amd.yaml
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@@ -1,30 +0,0 @@
group: Hardware - AMD Build
steps:
- label: "AMD: :docker: build image"
key: image-build-amd
depends_on: []
device: amd_cpu
no_plugin: true
commands:
- >
docker build
--build-arg max_jobs=16
--build-arg REMOTE_VLLM=1
--build-arg ARG_PYTORCH_ROCM_ARCH='gfx942;gfx950'
--build-arg VLLM_BRANCH=$BUILDKITE_COMMIT
--tag "rocm/vllm-ci:${BUILDKITE_COMMIT}"
-f docker/Dockerfile.rocm
--target test
--no-cache
--progress plain .
- docker push "rocm/vllm-ci:${BUILDKITE_COMMIT}"
env:
DOCKER_BUILDKIT: "1"
retry:
automatic:
- exit_status: -1 # Agent was lost
limit: 1
- exit_status: -10 # Agent was lost
limit: 1
- exit_status: 1 # Machine occasionally fail
limit: 1

10
.buildkite/hardware_tests/ascend_npu.yaml
View File

@@ -1,10 +0,0 @@
group: Hardware
depends_on: ~
steps:
- label: "Ascend NPU Test"
soft_fail: true
timeout_in_minutes: 20
no_plugin: true
device: ascend_npu
commands:
- bash .buildkite/scripts/hardware_ci/run-npu-test.sh

100
.buildkite/hardware_tests/cpu.yaml
View File

@@ -1,100 +0,0 @@
group: CPU
depends_on: []
steps:
- label: CPU-Kernel Tests
depends_on: []
soft_fail: true
device: intel_cpu
no_plugin: true
source_file_dependencies:
- csrc/cpu/
- cmake/cpu_extension.cmake
- CMakeLists.txt
- vllm/_custom_ops.py
- tests/kernels/attention/test_cpu_attn.py
- tests/kernels/moe/test_cpu_fused_moe.py
- tests/kernels/test_onednn.py
commands:
- |
bash .buildkite/scripts/hardware_ci/run-cpu-test.sh 20m "
pytest -x -v -s tests/kernels/attention/test_cpu_attn.py
pytest -x -v -s tests/kernels/moe/test_cpu_fused_moe.py
pytest -x -v -s tests/kernels/test_onednn.py"
- label: CPU-Language Generation and Pooling Model Tests
depends_on: []
soft_fail: true
device: intel_cpu
no_plugin: true
source_file_dependencies:
- csrc/cpu/
- vllm/
- tests/models/language/generation/
- tests/models/language/pooling/
commands:
- |
bash .buildkite/scripts/hardware_ci/run-cpu-test.sh 30m "
pytest -x -v -s tests/models/language/generation -m cpu_model
pytest -x -v -s tests/models/language/pooling -m cpu_model"
- label: CPU-Quantization Model Tests
depends_on: []
soft_fail: true
device: intel_cpu
no_plugin: true
source_file_dependencies:
- csrc/cpu/
- vllm/model_executor/layers/quantization/cpu_wna16.py
- vllm/model_executor/layers/quantization/gptq_marlin.py
- vllm/model_executor/layers/quantization/compressed_tensors/schemes/compressed_tensors_w8a8_int8.py
- vllm/model_executor/layers/quantization/kernels/scaled_mm/cpu.py
- vllm/model_executor/layers/quantization/kernels/mixed_precision/cpu.py
- tests/quantization/test_compressed_tensors.py
- tests/quantization/test_cpu_wna16.py
commands:
- |
bash .buildkite/scripts/hardware_ci/run-cpu-test.sh 20m "
pytest -x -v -s tests/quantization/test_compressed_tensors.py::test_compressed_tensors_w8a8_logprobs
pytest -x -v -s tests/quantization/test_cpu_wna16.py"
- label: CPU-Distributed Tests
depends_on: []
soft_fail: true
device: intel_cpu
no_plugin: true
source_file_dependencies:
- csrc/cpu/shm.cpp
- vllm/v1/worker/cpu_worker.py
- vllm/v1/worker/gpu_worker.py
- vllm/v1/worker/cpu_model_runner.py
- vllm/v1/worker/gpu_model_runner.py
- vllm/platforms/cpu.py
- vllm/distributed/parallel_state.py
- vllm/distributed/device_communicators/cpu_communicator.py
commands:
- |
bash .buildkite/scripts/hardware_ci/run-cpu-test.sh 10m "
bash .buildkite/scripts/hardware_ci/run-cpu-distributed-smoke-test.sh"
- label: CPU-Multi-Modal Model Tests %N
depends_on: []
soft_fail: true
device: intel_cpu
no_plugin: true
source_file_dependencies:
# - vllm/
- vllm/model_executor/layers/rotary_embedding
- tests/models/multimodal/generation/
commands:
- |
bash .buildkite/scripts/hardware_ci/run-cpu-test.sh 45m "
pytest -x -v -s tests/models/multimodal/generation --ignore=tests/models/multimodal/generation/test_pixtral.py -m cpu_model --num-shards=$$BUILDKITE_PARALLEL_JOB_COUNT --shard-id=$$BUILDKITE_PARALLEL_JOB"
parallelism: 2
- label: "Arm CPU Test"
depends_on: []
soft_fail: true
device: arm_cpu
no_plugin: true
commands:
- bash .buildkite/scripts/hardware_ci/run-cpu-test-arm.sh

10
.buildkite/hardware_tests/gh200.yaml
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@@ -1,10 +0,0 @@
group: Hardware
steps:
- label: "GH200 Test"
soft_fail: true
device: gh200
no_plugin: true
optional: true
commands:
- nvidia-smi
- bash .buildkite/scripts/hardware_ci/run-gh200-test.sh

17
.buildkite/hardware_tests/intel.yaml
View File

@@ -1,17 +0,0 @@
group: Hardware
depends_on: ~
steps:
- label: "Intel HPU Test"
soft_fail: true
device: intel_hpu
no_plugin: true
commands:
- bash .buildkite/scripts/hardware_ci/run-hpu-test.sh
- label: "Intel GPU Test"
depends_on: []
soft_fail: true
device: intel_gpu
no_plugin: true
commands:
- bash .buildkite/scripts/hardware_ci/run-xpu-test.sh

255
.buildkite/image_build/image_build.sh
View File

@@ -1,255 +0,0 @@
#!/bin/bash
set -euo pipefail
# replace invalid characters in Docker image tags and truncate to 128 chars
clean_docker_tag() {
local input="$1"
echo "$input" | sed 's/[^a-zA-Z0-9._-]/_/g' | cut -c1-128
}
print_usage_and_exit() {
echo "Usage: $0 <registry> <repo> <commit> <branch> <image_tag> [<image_tag_latest>]"
exit 1
}
print_instance_info() {
echo ""
echo "=== Debug: Instance Information ==="
# Get IMDSv2 token
if TOKEN=$(curl -s -X PUT "http://169.254.169.254/latest/api/token" \
-H "X-aws-ec2-metadata-token-ttl-seconds: 21600" 2>/dev/null); then
AMI_ID=$(curl -s -H "X-aws-ec2-metadata-token: $TOKEN" \
http://169.254.169.254/latest/meta-data/ami-id 2>/dev/null || echo "unknown")
INSTANCE_TYPE=$(curl -s -H "X-aws-ec2-metadata-token: $TOKEN" \
http://169.254.169.254/latest/meta-data/instance-type 2>/dev/null || echo "unknown")
INSTANCE_ID=$(curl -s -H "X-aws-ec2-metadata-token: $TOKEN" \
http://169.254.169.254/latest/meta-data/instance-id 2>/dev/null || echo "unknown")
AZ=$(curl -s -H "X-aws-ec2-metadata-token: $TOKEN" \
http://169.254.169.254/latest/meta-data/placement/availability-zone 2>/dev/null || echo "unknown")
echo "AMI ID: ${AMI_ID}"
echo "Instance Type: ${INSTANCE_TYPE}"
echo "Instance ID: ${INSTANCE_ID}"
echo "AZ: ${AZ}"
else
echo "Not running on EC2 or IMDS not available"
fi
# Check for warm cache AMI (marker file baked into custom AMI)
if [[ -f /etc/vllm-ami-info ]]; then
echo "Cache: warm (custom vLLM AMI)"
cat /etc/vllm-ami-info
else
echo "Cache: cold (standard AMI)"
fi
echo "==================================="
echo ""
}
setup_buildx_builder() {
echo "--- :buildkite: Setting up buildx builder"
if [[ -S "${BUILDKIT_SOCKET}" ]]; then
# Custom AMI with standalone buildkitd - use remote driver for warm cache
echo "✅ Found local buildkitd socket at ${BUILDKIT_SOCKET}"
echo "Using remote driver to connect to buildkitd (warm cache available)"
if docker buildx inspect baked-vllm-builder >/dev/null 2>&1; then
echo "Using existing baked-vllm-builder"
docker buildx use baked-vllm-builder
else
echo "Creating baked-vllm-builder with remote driver"
docker buildx create \
--name baked-vllm-builder \
--driver remote \
--use \
"unix://${BUILDKIT_SOCKET}"
fi
docker buildx inspect --bootstrap
elif docker buildx inspect "${BUILDER_NAME}" >/dev/null 2>&1; then
# Existing builder available
echo "Using existing builder: ${BUILDER_NAME}"
docker buildx use "${BUILDER_NAME}"
docker buildx inspect --bootstrap
else
# No local buildkitd, no existing builder - create new docker-container builder
echo "No local buildkitd found, using docker-container driver"
docker buildx create --name "${BUILDER_NAME}" --driver docker-container --use
docker buildx inspect --bootstrap
fi
# builder info
echo "Active builder:"
docker buildx ls | grep -E '^\*|^NAME' || docker buildx ls
}
check_and_skip_if_image_exists() {
if [[ -n "${IMAGE_TAG:-}" ]]; then
echo "--- :mag: Checking if image exists"
if docker manifest inspect "${IMAGE_TAG}" >/dev/null 2>&1; then
echo "Image already exists: ${IMAGE_TAG}"
echo "Skipping build"
exit 0
fi
echo "Image not found, proceeding with build"
fi
}
ecr_login() {
aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin "$REGISTRY"
aws ecr get-login-password --region us-east-1 | docker login --username AWS --password-stdin 936637512419.dkr.ecr.us-east-1.amazonaws.com
}
prepare_cache_tags() {
# resolve and set: CACHE_TO, CACHE_FROM, CACHE_FROM_BASE_BRANCH, CACHE_FROM_MAIN
TEST_CACHE_ECR="936637512419.dkr.ecr.us-east-1.amazonaws.com/vllm-ci-test-cache"
MAIN_CACHE_ECR="936637512419.dkr.ecr.us-east-1.amazonaws.com/vllm-ci-postmerge-cache"
if [[ "$BUILDKITE_PULL_REQUEST" == "false" ]]; then
if [[ "$BUILDKITE_BRANCH" == "main" ]]; then
cache="${MAIN_CACHE_ECR}:latest"
else
clean_branch=$(clean_docker_tag "$BUILDKITE_BRANCH")
cache="${TEST_CACHE_ECR}:${clean_branch}"
fi
CACHE_TO="$cache"
CACHE_FROM="$cache"
CACHE_FROM_BASE_BRANCH="$cache"
else
CACHE_TO="${TEST_CACHE_ECR}:pr-${BUILDKITE_PULL_REQUEST}"
CACHE_FROM="${TEST_CACHE_ECR}:pr-${BUILDKITE_PULL_REQUEST}"
if [[ "$BUILDKITE_PULL_REQUEST_BASE_BRANCH" == "main" ]]; then
CACHE_FROM_BASE_BRANCH="${MAIN_CACHE_ECR}:latest"
else
clean_base=$(clean_docker_tag "$BUILDKITE_PULL_REQUEST_BASE_BRANCH")
CACHE_FROM_BASE_BRANCH="${TEST_CACHE_ECR}:${clean_base}"
fi
fi
CACHE_FROM_MAIN="${MAIN_CACHE_ECR}:latest"
export CACHE_TO CACHE_FROM CACHE_FROM_BASE_BRANCH CACHE_FROM_MAIN
}
resolve_parent_commit() {
if [[ -z "${PARENT_COMMIT:-}" ]]; then
PARENT_COMMIT=$(git rev-parse HEAD~1 2>/dev/null || echo "")
if [[ -n "${PARENT_COMMIT}" ]]; then
echo "Computed parent commit for cache fallback: ${PARENT_COMMIT}"
export PARENT_COMMIT
else
echo "Could not determine parent commit (may be first commit in repo)"
fi
else
echo "Using provided PARENT_COMMIT: ${PARENT_COMMIT}"
fi
}
print_bake_config() {
echo "--- :page_facing_up: Resolved bake configuration"
# Write to a temp directory to avoid polluting the repo root (which is the
# Docker build context). Files left in the repo root get COPY'd into the
# image and can cause duplicate artifact uploads from downstream steps.
local bake_tmp
bake_tmp="$(mktemp -d)"
BAKE_CONFIG_FILE="${bake_tmp}/bake-config-build-${BUILDKITE_BUILD_NUMBER:-local}.json"
docker buildx bake -f "${VLLM_BAKE_FILE_PATH}" -f "${CI_HCL_PATH}" --print "${TARGET}" | tee "${BAKE_CONFIG_FILE}" || true
echo "Saved bake config to ${BAKE_CONFIG_FILE}"
echo "--- :arrow_down: Uploading bake config to Buildkite"
(cd "$(dirname "${BAKE_CONFIG_FILE}")" && buildkite-agent artifact upload "$(basename "${BAKE_CONFIG_FILE}")")
}
#################################
# Main Script #
#################################
print_instance_info
if [[ $# -lt 5 ]]; then
print_usage_and_exit
fi
# input args
REGISTRY=$1
REPO=$2
BUILDKITE_COMMIT=$3
BRANCH=$4
IMAGE_TAG=$5
IMAGE_TAG_LATEST=${6:-} # only used for main branch, optional
# build config
TARGET="test-ci"
VLLM_BAKE_FILE_PATH="${VLLM_BAKE_FILE_PATH:-docker/docker-bake.hcl}"
BUILDER_NAME="${BUILDER_NAME:-vllm-builder}"
CI_HCL_URL="${CI_HCL_URL:-https://raw.githubusercontent.com/vllm-project/ci-infra/main/docker/ci.hcl}"
CI_HCL_PATH="/tmp/ci.hcl"
BUILDKIT_SOCKET="/run/buildkit/buildkitd.sock"
prepare_cache_tags
ecr_login
# Environment info (for docs and human readers)
# VLLM_CI_BRANCH - ci-infra branch to use (default: main)
# VLLM_BAKE_FILE_PATH - Path to vLLM's bake file (default: docker/docker-bake.hcl)
# BUILDER_NAME - Name for buildx builder (default: vllm-builder)
#
# Build configuration (exported as environment variables for bake):
export BUILDKITE_COMMIT
export PARENT_COMMIT
export IMAGE_TAG
export IMAGE_TAG_LATEST
export CACHE_FROM
export CACHE_FROM_BASE_BRANCH
export CACHE_FROM_MAIN
export CACHE_TO
# print args
echo "--- :mag: Arguments"
echo "REGISTRY: ${REGISTRY}"
echo "REPO: ${REPO}"
echo "BUILDKITE_COMMIT: ${BUILDKITE_COMMIT}"
echo "BRANCH: ${BRANCH}"
echo "IMAGE_TAG: ${IMAGE_TAG}"
echo "IMAGE_TAG_LATEST: ${IMAGE_TAG_LATEST}"
# print build configuration
echo "--- :mag: Build configuration"
echo "TARGET: ${TARGET}"
echo "vLLM bake file: ${VLLM_BAKE_FILE_PATH}"
echo "BUILDER_NAME: ${BUILDER_NAME}"
echo "CI_HCL_URL: ${CI_HCL_URL}"
echo "BUILDKIT_SOCKET: ${BUILDKIT_SOCKET}"
echo "--- :mag: Cache tags"
echo "CACHE_TO: ${CACHE_TO}"
echo "CACHE_FROM: ${CACHE_FROM}"
echo "CACHE_FROM_BASE_BRANCH: ${CACHE_FROM_BASE_BRANCH}"
echo "CACHE_FROM_MAIN: ${CACHE_FROM_MAIN}"
check_and_skip_if_image_exists
echo "--- :docker: Setting up Docker buildx bake"
echo "Target: ${TARGET}"
echo "vLLM bake file: ${VLLM_BAKE_FILE_PATH}"
echo "CI HCL path: ${CI_HCL_PATH}"
if [[ ! -f "${VLLM_BAKE_FILE_PATH}" ]]; then
echo "Error: vLLM bake file not found at ${VLLM_BAKE_FILE_PATH}"
echo "Make sure you're running from the vLLM repository root"
exit 1
fi
echo "--- :arrow_down: Downloading ci.hcl"
curl -sSfL -o "${CI_HCL_PATH}" "${CI_HCL_URL}"
echo "Downloaded to ${CI_HCL_PATH}"
if [[ ! -f "${CI_HCL_PATH}" ]]; then
echo "Error: ci.hcl not found at ${CI_HCL_PATH}"
exit 1
fi
setup_buildx_builder
resolve_parent_commit
export PARENT_COMMIT
print_bake_config
echo "--- :docker: Building ${TARGET}"
docker --debug buildx bake -f "${VLLM_BAKE_FILE_PATH}" -f "${CI_HCL_PATH}" --progress plain "${TARGET}"
echo "--- :white_check_mark: Build complete"

58
.buildkite/image_build/image_build.yaml
View File

@@ -1,58 +0,0 @@
group: Abuild
steps:
- label: ":docker: Build image"
key: image-build
depends_on: []
timeout_in_minutes: 600
commands:
- if [[ "$BUILDKITE_BRANCH" == "main" ]]; then .buildkite/image_build/image_build.sh $REGISTRY $REPO $BUILDKITE_COMMIT $BRANCH $IMAGE_TAG $IMAGE_TAG_LATEST; else .buildkite/image_build/image_build.sh $REGISTRY $REPO $BUILDKITE_COMMIT $BRANCH $IMAGE_TAG; fi
retry:
automatic:
- exit_status: -1 # Agent was lost
limit: 2
- exit_status: -10 # Agent was lost
limit: 2
- label: ":docker: Build CPU image"
key: image-build-cpu
depends_on: []
commands:
- .buildkite/image_build/image_build_cpu.sh $REGISTRY $REPO $BUILDKITE_COMMIT
env:
DOCKER_BUILDKIT: "1"
retry:
automatic:
- exit_status: -1 # Agent was lost
limit: 2
- exit_status: -10 # Agent was lost
limit: 2
- label: ":docker: Build HPU image"
soft_fail: true
depends_on: []
key: image-build-hpu
commands:
- .buildkite/image_build/image_build_hpu.sh $REGISTRY $REPO $BUILDKITE_COMMIT
env:
DOCKER_BUILDKIT: "1"
retry:
automatic:
- exit_status: -1 # Agent was lost
limit: 2
- exit_status: -10 # Agent was lost
limit: 2
- label: ":docker: Build CPU arm64 image"
key: cpu-arm64-image-build
depends_on: []
optional: true
commands:
- .buildkite/image_build/image_build_cpu_arm64.sh $REGISTRY $REPO $BUILDKITE_COMMIT
env:
DOCKER_BUILDKIT: "1"
retry:
automatic:
- exit_status: -1 # Agent was lost
limit: 2
- exit_status: -10 # Agent was lost
limit: 2

36
.buildkite/image_build/image_build_cpu.sh
View File

@@ -1,36 +0,0 @@
#!/bin/bash
set -e
if [[ $# -lt 3 ]]; then
echo "Usage: $0 <registry> <repo> <commit>"
exit 1
fi
REGISTRY=$1
REPO=$2
BUILDKITE_COMMIT=$3
# authenticate with AWS ECR
aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin "$REGISTRY"
# skip build if image already exists
if [[ -z $(docker manifest inspect "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-cpu) ]]; then
echo "Image not found, proceeding with build..."
else
echo "Image found"
exit 0
fi
# build
docker build --file docker/Dockerfile.cpu \
--build-arg max_jobs=16 \
--build-arg buildkite_commit="$BUILDKITE_COMMIT" \
--build-arg VLLM_CPU_AVX512BF16=true \
--build-arg VLLM_CPU_AVX512VNNI=true \
--build-arg VLLM_CPU_AMXBF16=true \
--tag "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-cpu \
--target vllm-test \
--progress plain .
# push
docker push "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-cpu

33
.buildkite/image_build/image_build_cpu_arm64.sh
View File

@@ -1,33 +0,0 @@
#!/bin/bash
set -e
if [[ $# -lt 3 ]]; then
echo "Usage: $0 <registry> <repo> <commit>"
exit 1
fi
REGISTRY=$1
REPO=$2
BUILDKITE_COMMIT=$3
# authenticate with AWS ECR
aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin "$REGISTRY"
# skip build if image already exists
if [[ -z $(docker manifest inspect "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-arm64-cpu) ]]; then
echo "Image not found, proceeding with build..."
else
echo "Image found"
exit 0
fi
# build
docker build --file docker/Dockerfile.cpu \
--build-arg max_jobs=16 \
--build-arg buildkite_commit="$BUILDKITE_COMMIT" \
--tag "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-arm64-cpu \
--target vllm-test \
--progress plain .
# push
docker push "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-arm64-cpu

34
.buildkite/image_build/image_build_hpu.sh
View File

@@ -1,34 +0,0 @@
#!/bin/bash
set -e
if [[ $# -lt 3 ]]; then
echo "Usage: $0 <registry> <repo> <commit>"
exit 1
fi
REGISTRY=$1
REPO=$2
BUILDKITE_COMMIT=$3
# authenticate with AWS ECR
aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin "$REGISTRY"
# skip build if image already exists
if [[ -z $(docker manifest inspect "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-hpu) ]]; then
echo "Image not found, proceeding with build..."
else
echo "Image found"
exit 0
fi
# build
docker build \
--file tests/pytorch_ci_hud_benchmark/Dockerfile.hpu \
--build-arg max_jobs=16 \
--build-arg buildkite_commit="$BUILDKITE_COMMIT" \
--tag "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-hpu \
--progress plain \
https://github.com/vllm-project/vllm-gaudi.git
# push
docker push "$REGISTRY"/"$REPO":"$BUILDKITE_COMMIT"-hpu

1
.buildkite/lm-eval-harness/configs/DeepSeek-V2-Lite-Chat.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash ./run-lm-eval-gsm-vllm-baseline.sh -m deepseek-ai/DeepSeek-V2-Lite-Chat -b "auto" -l 1000 -f 5 -t 2 # bash ./run-lm-eval-gsm-vllm-baseline.sh -m deepseek-ai/DeepSeek-V2-Lite-Chat -b "auto" -l 1000 -f 5 -t 2
model_name: "deepseek-ai/DeepSeek-V2-Lite-Chat" model_name: "deepseek-ai/DeepSeek-V2-Lite-Chat"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-70B-Instruct-FBGEMM-nonuniform.yaml
View File

@@ -1,4 +1,3 @@
# For hf script, without -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m nm-testing/Meta-Llama-3-70B-Instruct-FBGEMM-nonuniform -b auto -l 1000 -f 5 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m nm-testing/Meta-Llama-3-70B-Instruct-FBGEMM-nonuniform -b auto -l 1000 -f 5
model_name: "nm-testing/Meta-Llama-3-70B-Instruct-FBGEMM-nonuniform" model_name: "nm-testing/Meta-Llama-3-70B-Instruct-FBGEMM-nonuniform"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-70B-Instruct.yaml
View File

@@ -1,4 +1,3 @@
# For hf script, without -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m meta-llama/Meta-Llama-3-70B-Instruct -b 32 -l 250 -f 5 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m meta-llama/Meta-Llama-3-70B-Instruct -b 32 -l 250 -f 5
model_name: "meta-llama/Meta-Llama-3-70B-Instruct" model_name: "meta-llama/Meta-Llama-3-70B-Instruct"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct-Channelwise-compressed-tensors.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-W8A8-FP8-Channelwise-compressed-tensors -b auto -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-W8A8-FP8-Channelwise-compressed-tensors -b auto -l 1000 -f 5 -t 1
model_name: "nm-testing/Meta-Llama-3-8B-Instruct-W8A8-FP8-Channelwise-compressed-tensors" model_name: "nm-testing/Meta-Llama-3-8B-Instruct-W8A8-FP8-Channelwise-compressed-tensors"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct-FBGEMM-nonuniform.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-FBGEMM-nonuniform -b auto -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-FBGEMM-nonuniform -b auto -l 1000 -f 5 -t 1
model_name: "nm-testing/Meta-Llama-3-8B-Instruct-FBGEMM-nonuniform" model_name: "nm-testing/Meta-Llama-3-8B-Instruct-FBGEMM-nonuniform"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct-FP8-compressed-tensors.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-FP8-compressed-tensors-test -b 32 -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-FP8-compressed-tensors-test -b 32 -l 1000 -f 5 -t 1
model_name: "nm-testing/Meta-Llama-3-8B-FP8-compressed-tensors-test" model_name: "nm-testing/Meta-Llama-3-8B-FP8-compressed-tensors-test"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct-FP8.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Meta-Llama-3-8B-Instruct-FP8 -b 32 -l 250 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Meta-Llama-3-8B-Instruct-FP8 -b 32 -l 250 -f 5 -t 1
model_name: "neuralmagic/Meta-Llama-3-8B-Instruct-FP8" model_name: "neuralmagic/Meta-Llama-3-8B-Instruct-FP8"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct-INT8-compressed-tensors-asym.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Asym-Per-Token-Test -b "auto" -l 250 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Asym-Per-Token-Test -b "auto" -l 250 -f 5 -t 1
model_name: "nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Asym-Per-Token-Test" model_name: "nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Asym-Per-Token-Test"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct-INT8-compressed-tensors.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Per-Token-Test -b "auto" -l 250 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Per-Token-Test -b "auto" -l 250 -f 5 -t 1
model_name: "nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Per-Token-Test" model_name: "nm-testing/Meta-Llama-3-8B-Instruct-W8-Channel-A8-Dynamic-Per-Token-Test"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct-nonuniform-compressed-tensors.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-nonuniform-test -b auto -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Meta-Llama-3-8B-Instruct-nonuniform-test -b auto -l 1000 -f 5 -t 1
model_name: "nm-testing/Meta-Llama-3-8B-Instruct-nonuniform-test" model_name: "nm-testing/Meta-Llama-3-8B-Instruct-nonuniform-test"
tasks: tasks:

3
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct.yaml
View File

@@ -1,5 +1,4 @@
# For hf script, without -t option (tensor parallel size). # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m meta-llama/Meta-Llama-3-8B-Instruct -b 32 -l 250 -f 5 -t 1
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m meta-llama/Meta-Llama-3-8B-Instruct -b 32 -l 250 -f 5
model_name: "meta-llama/Meta-Llama-3-8B-Instruct" model_name: "meta-llama/Meta-Llama-3-8B-Instruct"
tasks: tasks:
- name: "gsm8k" - name: "gsm8k"

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-QQQ.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m HandH1998/QQQ-Llama-3-8b-g128 -b 32 -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m HandH1998/QQQ-Llama-3-8b-g128 -b 32 -l 1000 -f 5 -t 1
model_name: "HandH1998/QQQ-Llama-3-8b-g128" model_name: "HandH1998/QQQ-Llama-3-8b-g128"
tasks: tasks:

11
.buildkite/lm-eval-harness/configs/Meta-Llama-3.2-1B-Instruct-FP8-compressed-tensors.yaml
View File

@@ -1,11 +0,0 @@
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m RedHatAI/Llama-3.2-1B-Instruct-FP8 -b "auto" -l 1319 -f 5 -t 1
model_name: "RedHatAI/Llama-3.2-1B-Instruct-FP8"
tasks:
- name: "gsm8k"
metrics:
- name: "exact_match,strict-match"
value: 0.335
- name: "exact_match,flexible-extract"
value: 0.323
limit: 1319
num_fewshot: 5

1
.buildkite/lm-eval-harness/configs/Meta-Llama-3.2-1B-Instruct-INT8-compressed-tensors.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Llama-3.2-1B-Instruct-quantized.w8a8 -b "auto" -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Llama-3.2-1B-Instruct-quantized.w8a8 -b "auto" -l 1000 -f 5 -t 1
model_name: "neuralmagic/Llama-3.2-1B-Instruct-quantized.w8a8" model_name: "neuralmagic/Llama-3.2-1B-Instruct-quantized.w8a8"
tasks: tasks:

12
.buildkite/lm-eval-harness/configs/Meta-Llama-4-Maverick-17B-128E-Instruct-FP8-MM.yaml
View File

@@ -1,12 +0,0 @@
# For hf script, without -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-chartqa-vllm-vlm-baseline.sh -m meta-llama/Llama-4-Maverick-17B-128E-Instruct-FP8 -l 100 -t 8
model_name: "meta-llama/Llama-4-Maverick-17B-128E-Instruct-FP8"
backend: "vllm-vlm"
tasks:
- name: "chartqa"
metrics:
- name: "relaxed_accuracy,none"
# TODO(zhewenl): model card is 0.90, but the actual score is 0.80.
value: 0.80
limit: 100
num_fewshot: 0

11
.buildkite/lm-eval-harness/configs/Meta-Llama-4-Maverick-17B-128E-Instruct-FP8.yaml
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@@ -1,11 +0,0 @@
# For hf script, without -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-mmlupro-vllm-baseline.sh -m meta-llama/Llama-4-Maverick-17B-128E-Instruct-FP8 -l 250 -t 8 -f 5
model_name: "meta-llama/Llama-4-Maverick-17B-128E-Instruct-FP8"
tasks:
- name: "mmlu_pro"
metrics:
- name: "exact_match,custom-extract"
value: 0.80
limit: 250 # will run on 250 * 14 subjects = 3500 samples
num_fewshot: 5
rtol: 0.05

1
.buildkite/lm-eval-harness/configs/Minitron-4B-Base-FP8.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m mgoin/Minitron-4B-Base-FP8 -b auto -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m mgoin/Minitron-4B-Base-FP8 -b auto -l 1000 -f 5 -t 1
model_name: "mgoin/Minitron-4B-Base-FP8" model_name: "mgoin/Minitron-4B-Base-FP8"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Mixtral-8x22B-Instruct-v0.1-FP8-Dynamic.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash ./run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Mixtral-8x22B-Instruct-v0.1-FP8-dynamic -b "auto" -l 250 -f 5 -t 8 # bash ./run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Mixtral-8x22B-Instruct-v0.1-FP8-dynamic -b "auto" -l 250 -f 5 -t 8
model_name: "neuralmagic/Mixtral-8x22B-Instruct-v0.1-FP8-dynamic" model_name: "neuralmagic/Mixtral-8x22B-Instruct-v0.1-FP8-dynamic"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Mixtral-8x7B-Instruct-v0.1-FP8.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash ./run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Mixtral-8x7B-Instruct-v0.1-FP8 -b "auto" -l 250 -f 5 -t 4 # bash ./run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Mixtral-8x7B-Instruct-v0.1-FP8 -b "auto" -l 250 -f 5 -t 4
model_name: "neuralmagic/Mixtral-8x7B-Instruct-v0.1-FP8" model_name: "neuralmagic/Mixtral-8x7B-Instruct-v0.1-FP8"
tasks: tasks:

3
.buildkite/lm-eval-harness/configs/Mixtral-8x7B-Instruct-v0.1.yaml
View File

@@ -1,5 +1,4 @@
# For hf script, without -t option (tensor parallel size). # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m neuralmagic/Mixtral-8x7B-Instruct-v0.1 -b 32 -l 250 -f 5 -t 4
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh -m neuralmagic/Mixtral-8x7B-Instruct-v0.1 -b 32 -l 250 -f 5
model_name: "mistralai/Mixtral-8x7B-Instruct-v0.1" model_name: "mistralai/Mixtral-8x7B-Instruct-v0.1"
tasks: tasks:
- name: "gsm8k" - name: "gsm8k"

15
.buildkite/lm-eval-harness/configs/NVIDIA-Nemotron-3-Nano-30B-A3B-BF16.yaml
View File

@@ -1,15 +0,0 @@
model_name: "nvidia/NVIDIA-Nemotron-3-Nano-30B-A3B-BF16"
tasks:
- name: "gsm8k"
metrics:
- name: "exact_match,strict-match"
value: 0.695
- name: "exact_match,flexible-extract"
value: 0.447
limit: 1319
num_fewshot: 5
max_model_len: 262144
enforce_eager: false
apply_chat_template: true
fewshot_as_multiturn: true
trust_remote_code: true

19
.buildkite/lm-eval-harness/configs/NVIDIA-Nemotron-3-Nano-30B-A3B-FP8.yaml
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@@ -1,19 +0,0 @@
model_name: "nvidia/NVIDIA-Nemotron-3-Nano-30B-A3B-FP8"
tasks:
- name: "gsm8k"
metrics:
- name: "exact_match,strict-match"
value: 0.7142
- name: "exact_match,flexible-extract"
value: 0.4579
env_vars:
VLLM_USE_FLASHINFER_MOE_FP8: "1"
VLLM_FLASHINFER_MOE_BACKEND: "throughput"
limit: 1319
num_fewshot: 5
max_model_len: 262144
kv_cache_dtype: fp8
enforce_eager: false
apply_chat_template: true
fewshot_as_multiturn: true
trust_remote_code: true

12
.buildkite/lm-eval-harness/configs/Qwen1.5-MoE-W4A16-compressed-tensors.yaml
View File

@@ -1,12 +0,0 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Qwen1.5-MoE-A2.7B-Chat-quantized.w4a16 -b auto -l 1319 -f 5 -t 1
model_name: "nm-testing/Qwen1.5-MoE-A2.7B-Chat-quantized.w4a16"
tasks:
- name: "gsm8k"
metrics:
- name: "exact_match,strict-match"
value: 0.30
- name: "exact_match,flexible-extract"
value: 0.465
limit: 1319
num_fewshot: 5

1
.buildkite/lm-eval-harness/configs/Qwen2-1.5B-Instruct-FP8W8.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Qwen2-1.5B-Instruct-FP8W8 -b auto -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Qwen2-1.5B-Instruct-FP8W8 -b auto -l 1000 -f 5 -t 1
model_name: "nm-testing/Qwen2-1.5B-Instruct-FP8W8" model_name: "nm-testing/Qwen2-1.5B-Instruct-FP8W8"
tasks: tasks:

1
.buildkite/lm-eval-harness/configs/Qwen2-1.5B-Instruct-INT8-compressed-tensors.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Qwen2-1.5B-Instruct-quantized.w8a8 -b "auto" -l 1000 -f 5 -t 1 # bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m neuralmagic/Qwen2-1.5B-Instruct-quantized.w8a8 -b "auto" -l 1000 -f 5 -t 1
model_name: "neuralmagic/Qwen2-1.5B-Instruct-quantized.w8a8" model_name: "neuralmagic/Qwen2-1.5B-Instruct-quantized.w8a8"
tasks: tasks:

11
.buildkite/lm-eval-harness/configs/Qwen2-1.5B-Instruct-W8A16-compressed-tensors.yaml Normal file
View File

@@ -0,0 +1,11 @@
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/Qwen2-1.5B-Instruct-W8A16-Channelwise -b "auto" -l 1000 -f 5 -t 1
model_name: "nm-testing/Qwen2-1.5B-Instruct-W8A16-Channelwise"
tasks:
- name: "gsm8k"
metrics:
- name: "exact_match,strict-match"
value: 0.595
- name: "exact_match,flexible-extract"
value: 0.582
limit: 1000
num_fewshot: 5

1
.buildkite/lm-eval-harness/configs/Qwen2-57B-A14-Instruct.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash ./run-lm-eval-gsm-vllm-baseline.sh -m Qwen/Qwen2-57B-A14B-Instruct -b "auto" -l 250 -f 5 -t 4 # bash ./run-lm-eval-gsm-vllm-baseline.sh -m Qwen/Qwen2-57B-A14B-Instruct -b "auto" -l 250 -f 5 -t 4
model_name: "Qwen/Qwen2-57B-A14B-Instruct" model_name: "Qwen/Qwen2-57B-A14B-Instruct"
tasks: tasks:

11
.buildkite/lm-eval-harness/configs/Qwen2.5-1.5B-Instruct.yaml
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@@ -1,11 +0,0 @@
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m Qwen/Qwen2.5-1.5B-Instruct -b auto -l 1319 -f 5 -t 1
model_name: "Qwen/Qwen2.5-1.5B-Instruct"
tasks:
- name: "gsm8k"
metrics:
- name: "exact_match,strict-match"
value: 0.54
- name: "exact_match,flexible-extract"
value: 0.59
limit: 1319
num_fewshot: 5

12
.buildkite/lm-eval-harness/configs/Qwen2.5-VL-3B-Instruct-FP8-dynamic.yaml
View File

@@ -1,12 +0,0 @@
# For vllm script, with -t option (tensor parallel size)
# bash .buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh -m RedHatAI/Qwen2.5-VL-3B-Instruct-FP8-Dynamic -l 1319 -t 1
model_name: "RedHatAI/Qwen2.5-VL-3B-Instruct-FP8-Dynamic"
tasks:
- name: "gsm8k"
metrics:
- name: "exact_match,strict-match"
value: 0.47
- name: "exact_match,flexible-extract"
value: 0.64
limit: 1319
num_fewshot: 5

12
.buildkite/lm-eval-harness/configs/Qwen2.5-VL-7B-Instruct.yaml
View File

@@ -1,12 +0,0 @@
# For vllm script, with -t option (tensor parallel size).
# bash .buildkite/lm-eval-harness/run-lm-eval-chartqa-vllm-vlm-baseline.sh -m Qwen/Qwen2.5-VL-7B-Instruct -l 2500 -t 1
model_name: "Qwen/Qwen2.5-VL-7B-Instruct"
backend: "vllm-vlm"
tasks:
- name: "chartqa"
metrics:
- name: "relaxed_accuracy,none"
value: 0.855
limit: 2500
num_fewshot: 0

14
.buildkite/lm-eval-harness/configs/Qwen3-235B-A22B-Instruct-2507-FP8.yaml
View File

@@ -1,14 +0,0 @@
model_name: "Qwen/Qwen3-235B-A22B-Instruct-2507-FP8"
tasks:
- name: "mmlu_pro"
metrics:
- name: "exact_match,custom-extract"
value: 0.82
limit: 250 # will run on 250 * 14 subjects = 3500 samples
num_fewshot: 5
enforce_eager: false # we use false to speed up the eval process
kv_cache_dtype: fp8 # we use fp8 to speed up the eval process
max_model_len: 40960
apply_chat_template: true
fewshot_as_multiturn: true
gen_kwargs: "temperature=0,top_p=1,top_k=0,max_gen_toks=5632,until=<|ENDANSWER|>"

1
.buildkite/lm-eval-harness/configs/SparseLlama3.1_2of4_fp8_compressed.yaml
View File

@@ -1,4 +1,3 @@
# For vllm script, with -t option (tensor parallel size).
# bash ./run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/SparseLlama-3.1-8B-gsm8k-pruned.2of4-chnl_wts_per_tok_dyn_act_fp8-BitM -b "auto" -t 2 # bash ./run-lm-eval-gsm-vllm-baseline.sh -m nm-testing/SparseLlama-3.1-8B-gsm8k-pruned.2of4-chnl_wts_per_tok_dyn_act_fp8-BitM -b "auto" -t 2
model_name: "nm-testing/SparseLlama-3.1-8B-gsm8k-pruned.2of4-chnl_wts_per_tok_dyn_act_fp8-BitM" model_name: "nm-testing/SparseLlama-3.1-8B-gsm8k-pruned.2of4-chnl_wts_per_tok_dyn_act_fp8-BitM"
tasks: tasks:

2
.buildkite/lm-eval-harness/configs/models-large-hopper.txt
View File

@@ -1,2 +0,0 @@
Qwen3-235B-A22B-Instruct-2507-FP8.yaml
NVIDIA-Nemotron-3-Nano-30B-A3B-FP8.yaml

1
.buildkite/lm-eval-harness/configs/models-large-rocm.txt
View File

@@ -1 +0,0 @@
Meta-Llama-4-Maverick-17B-128E-Instruct-FP8.yaml

1
.buildkite/lm-eval-harness/configs/models-large.txt
View File

@@ -3,4 +3,3 @@ Meta-Llama-3-70B-Instruct.yaml
Mixtral-8x7B-Instruct-v0.1.yaml Mixtral-8x7B-Instruct-v0.1.yaml
Qwen2-57B-A14-Instruct.yaml Qwen2-57B-A14-Instruct.yaml
DeepSeek-V2-Lite-Chat.yaml DeepSeek-V2-Lite-Chat.yaml
NVIDIA-Nemotron-3-Nano-30B-A3B-BF16.yaml

1
.buildkite/lm-eval-harness/configs/models-mm-large-h100.txt
View File

@@ -1 +0,0 @@
Meta-Llama-4-Maverick-17B-128E-Instruct-FP8-MM.yaml

1
.buildkite/lm-eval-harness/configs/models-mm-small.txt
View File

@@ -1 +0,0 @@
Qwen2.5-VL-7B-Instruct.yaml

5
.buildkite/lm-eval-harness/configs/models-small-rocm.txt
View File

@@ -1,5 +0,0 @@
Qwen2.5-1.5B-Instruct.yaml
Meta-Llama-3.2-1B-Instruct-INT8-compressed-tensors.yaml
Meta-Llama-3-8B-Instruct-nonuniform-compressed-tensors.yaml
Qwen2.5-VL-3B-Instruct-FP8-dynamic.yaml
Qwen1.5-MoE-W4A16-compressed-tensors.yaml

10
.buildkite/lm-eval-harness/configs/models-small.txt
View File

@@ -1,6 +1,10 @@
Qwen2.5-1.5B-Instruct.yaml Meta-Llama-3-8B-Instruct.yaml
Meta-Llama-3-8B-Instruct-FP8-compressed-tensors.yaml
Meta-Llama-3.2-1B-Instruct-INT8-compressed-tensors.yaml Meta-Llama-3.2-1B-Instruct-INT8-compressed-tensors.yaml
Meta-Llama-3-8B-Instruct-INT8-compressed-tensors-asym.yaml Meta-Llama-3-8B-Instruct-INT8-compressed-tensors-asym.yaml
Meta-Llama-3-8B-Instruct-nonuniform-compressed-tensors.yaml Meta-Llama-3-8B-Instruct-nonuniform-compressed-tensors.yaml
Qwen2.5-VL-3B-Instruct-FP8-dynamic.yaml Meta-Llama-3-8B-Instruct-Channelwise-compressed-tensors.yaml
Qwen1.5-MoE-W4A16-compressed-tensors.yaml Minitron-4B-Base-FP8.yaml
Qwen2-1.5B-Instruct-INT8-compressed-tensors.yaml
Qwen2-1.5B-Instruct-FP8W8.yaml
Meta-Llama-3-8B-QQQ.yaml

44
.buildkite/lm-eval-harness/conftest.py
View File

@@ -1,44 +0,0 @@
# SPDX-License-Identifier: Apache-2.0
# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
from pathlib import Path
import pytest
def pytest_addoption(parser):
parser.addoption(
"--config-list-file",
action="store",
help="Path to the file listing model config YAMLs (one per line)",
)
parser.addoption(
"--tp-size",
action="store",
default="1",
help="Tensor parallel size to use for evaluation",
)
@pytest.fixture(scope="session")
def config_list_file(pytestconfig, config_dir):
rel_path = pytestconfig.getoption("--config-list-file")
return config_dir / rel_path
@pytest.fixture(scope="session")
def tp_size(pytestconfig):
return pytestconfig.getoption("--tp-size")
def pytest_generate_tests(metafunc):
if "config_filename" in metafunc.fixturenames:
rel_path = metafunc.config.getoption("--config-list-file")
config_list_file = Path(rel_path).resolve()
config_dir = config_list_file.parent
with open(config_list_file, encoding="utf-8") as f:
configs = [
config_dir / line.strip()
for line in f
if line.strip() and not line.startswith("#")
]
metafunc.parametrize("config_filename", configs)

44
.buildkite/lm-eval-harness/run-lm-eval-chartqa-vllm-vlm-baseline.sh
View File

@@ -1,44 +0,0 @@
#!/bin/bash
# We can use this script to compute baseline accuracy on chartqa for vllm.
#
# Make sure you have lm-eval-harness installed:
# pip install "lm-eval[api]>=0.4.11"
usage() {
echo``
echo "Runs lm eval harness on ChartQA using multimodal vllm."
echo "This pathway is intended to be used to create baselines for "
echo "our correctness tests in vllm's CI."
echo
echo "usage: ${0} <options>"
echo
echo " -m - huggingface stub or local directory of the model"
echo " -l - limit number of samples to run"
echo " -t - tensor parallel size to run at"
echo
}
while getopts "m:l:t:" OPT; do
case ${OPT} in
m )
MODEL="$OPTARG"
;;
l )
LIMIT="$OPTARG"
;;
t )
TP_SIZE="$OPTARG"
;;
\? )
usage
exit 1
;;
esac
done
lm_eval --model vllm-vlm \
--model_args "pretrained=$MODEL,tensor_parallel_size=$TP_SIZE" \
--tasks chartqa \
--batch_size auto \
--apply_chat_template \
--limit "$LIMIT"

2
.buildkite/lm-eval-harness/run-lm-eval-gsm-hf-baseline.sh Executable file → Normal file
View File

@@ -2,7 +2,7 @@
# We can use this script to compute baseline accuracy on GSM for transformers. # We can use this script to compute baseline accuracy on GSM for transformers.
# #
# Make sure you have lm-eval-harness installed: # Make sure you have lm-eval-harness installed:
# pip install "lm-eval[api]>=0.4.11" # pip install lm-eval==0.4.4
usage() { usage() {
echo`` echo``

4
.buildkite/lm-eval-harness/run-lm-eval-gsm-vllm-baseline.sh
View File

@@ -3,7 +3,7 @@
# We use this for fp8, which HF does not support. # We use this for fp8, which HF does not support.
# #
# Make sure you have lm-eval-harness installed: # Make sure you have lm-eval-harness installed:
# pip install "lm-eval[api]>=0.4.11" # pip install lm-eval==0.4.4
usage() { usage() {
echo`` echo``
@@ -46,6 +46,6 @@ while getopts "m:b:l:f:t:" OPT; do
done done
lm_eval --model vllm \ lm_eval --model vllm \
--model_args "pretrained=$MODEL,tensor_parallel_size=$TP_SIZE,add_bos_token=true,trust_remote_code=true,max_model_len=4096" \ --model_args "pretrained=$MODEL,tensor_parallel_size=$TP_SIZE,distributed_executor_backend=ray,trust_remote_code=true,max_model_len=4096" \
--tasks gsm8k --num_fewshot "$FEWSHOT" --limit "$LIMIT" \ --tasks gsm8k --num_fewshot "$FEWSHOT" --limit "$LIMIT" \
--batch_size "$BATCH_SIZE" --batch_size "$BATCH_SIZE"

47
.buildkite/lm-eval-harness/run-lm-eval-mmlupro-vllm-baseline.sh
View File

@@ -1,47 +0,0 @@
#!/bin/bash
# We can use this script to compute baseline accuracy on MMLUPRO for vllm.
# We use this for fp8, which HF does not support.
#
# Make sure you have lm-eval-harness installed:
# pip install "lm-eval[api]>=0.4.11"
usage() {
echo``
echo "Runs lm eval harness on MMLU Pro using huggingface transformers."
echo "This pathway is intended to be used to create baselines for "
echo "our automated nm-test-accuracy workflow"
echo
echo "usage: ${0} <options>"
echo
echo " -m - huggingface stub or local directory of the model"
echo " -l - limit number of samples to run"
echo " -f - number of fewshot samples to use"
echo " -t - tensor parallel size to run at"
echo
}
while getopts "m:l:f:t:" OPT; do
case ${OPT} in
m )
MODEL="$OPTARG"
;;
l )
LIMIT="$OPTARG"
;;
f )
FEWSHOT="$OPTARG"
;;
t )
TP_SIZE="$OPTARG"
;;
\? )
usage
exit 1
;;
esac
done
lm_eval --model vllm \
--model_args "pretrained=$MODEL,tensor_parallel_size=$TP_SIZE,add_bos_token=true,trust_remote_code=true,max_model_len=4096" \
--tasks mmlu_pro --num_fewshot "$FEWSHOT" --limit "$LIMIT" \
--batch_size auto

59
.buildkite/lm-eval-harness/run-tests.sh Normal file
View File

@@ -0,0 +1,59 @@
#!/bin/bash
usage() {
echo``
echo "Runs lm eval harness on GSM8k using vllm and compares to "
echo "precomputed baseline (measured by HF transformers.)"
echo
echo "usage: ${0} <options>"
echo
echo " -c - path to the test data config (e.g. configs/small-models.txt)"
echo " -t - tensor parallel size"
echo
}
SUCCESS=0
while getopts "c:t:" OPT; do
case ${OPT} in
c )
CONFIG="$OPTARG"
;;
t )
TP_SIZE="$OPTARG"
;;
\? )
usage
exit 1
;;
esac
done
# Parse list of configs.
IFS=$'\n' read -d '' -r -a MODEL_CONFIGS < "$CONFIG"
for MODEL_CONFIG in "${MODEL_CONFIGS[@]}"
do
LOCAL_SUCCESS=0
echo "=== RUNNING MODEL: $MODEL_CONFIG WITH TP SIZE: $TP_SIZE==="
export LM_EVAL_TEST_DATA_FILE=$PWD/configs/${MODEL_CONFIG}
export LM_EVAL_TP_SIZE=$TP_SIZE
pytest -s test_lm_eval_correctness.py || LOCAL_SUCCESS=$?
if [[ $LOCAL_SUCCESS == 0 ]]; then
echo "=== PASSED MODEL: ${MODEL_CONFIG} ==="
else
echo "=== FAILED MODEL: ${MODEL_CONFIG} ==="
fi
SUCCESS=$((SUCCESS + LOCAL_SUCCESS))
done
if [ "${SUCCESS}" -eq "0" ]; then
exit 0
else
exit 1
fi

116
.buildkite/lm-eval-harness/test_lm_eval_correctness.py
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@@ -1,107 +1,69 @@
# SPDX-License-Identifier: Apache-2.0 # SPDX-License-Identifier: Apache-2.0
# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
""" """
LM eval harness on model to compare vs HF baseline computed offline. LM eval harness on model to compare vs HF baseline computed offline.
Configs are found in configs/$MODEL.yaml Configs are found in configs/$MODEL.yaml
pytest -s -v test_lm_eval_correctness.py \ * export LM_EVAL_TEST_DATA_FILE=configs/Meta-Llama-3-70B-Instruct.yaml
--config-list-file=configs/models-small.txt \ * export LM_EVAL_TP_SIZE=4
--tp-size=1 * pytest -s test_lm_eval_correctness.py
""" """
import os import os
from contextlib import contextmanager from pathlib import Path
import lm_eval import lm_eval
import numpy as np import numpy
import pytest
import yaml import yaml
DEFAULT_RTOL = 0.08 RTOL = 0.05
TEST_DATA_FILE = os.environ.get(
"LM_EVAL_TEST_DATA_FILE",
".buildkite/lm-eval-harness/configs/Meta-Llama-3-8B-Instruct.yaml")
TP_SIZE = os.environ.get("LM_EVAL_TP_SIZE", 1)
@contextmanager def launch_lm_eval(eval_config):
def scoped_env_vars(new_env: dict[str, str]): trust_remote_code = eval_config.get('trust_remote_code', False)
if not new_env:
# Fast path: nothing to do
yield
return
old_values = {} model_args = f"pretrained={eval_config['model_name']}," \
new_keys = [] f"tensor_parallel_size={TP_SIZE}," \
f"add_bos_token=true," \
f"trust_remote_code={trust_remote_code}"
try: results = lm_eval.simple_evaluate(
for key, value in new_env.items(): model="vllm",
if key in os.environ: model_args=model_args,
old_values[key] = os.environ[key] tasks=[task["name"] for task in eval_config["tasks"]],
else: num_fewshot=eval_config["num_fewshot"],
new_keys.append(key) limit=eval_config["limit"],
os.environ[key] = str(value) batch_size="auto")
yield
finally:
# Restore / clean up
for key, value in old_values.items():
os.environ[key] = value
for key in new_keys:
os.environ.pop(key, None)
def launch_lm_eval(eval_config, tp_size):
trust_remote_code = eval_config.get("trust_remote_code", False)
max_model_len = eval_config.get("max_model_len", 4096)
batch_size = eval_config.get("batch_size", "auto")
backend = eval_config.get("backend", "vllm")
enforce_eager = eval_config.get("enforce_eager", "true")
kv_cache_dtype = eval_config.get("kv_cache_dtype", "auto")
model_args = (
f"pretrained={eval_config['model_name']},"
f"tensor_parallel_size={tp_size},"
f"enforce_eager={enforce_eager},"
f"kv_cache_dtype={kv_cache_dtype},"
f"add_bos_token=true,"
f"trust_remote_code={trust_remote_code},"
f"max_model_len={max_model_len},"
"allow_deprecated_quantization=True,"
)
env_vars = eval_config.get("env_vars", None)
with scoped_env_vars(env_vars):
results = lm_eval.simple_evaluate(
model=backend,
model_args=model_args,
tasks=[task["name"] for task in eval_config["tasks"]],
num_fewshot=eval_config["num_fewshot"],
limit=eval_config["limit"],
# TODO(yeq): using chat template w/ fewshot_as_multiturn is supposed help
# text models. however, this is regressing measured strict-match for
# existing text models in CI, so only apply it for mm, or explicitly set
apply_chat_template=eval_config.get(
"apply_chat_template", backend == "vllm-vlm"
),
fewshot_as_multiturn=eval_config.get("fewshot_as_multiturn", False),
# Forward decoding and early-stop controls (e.g., max_gen_toks, until=...)
gen_kwargs=eval_config.get("gen_kwargs"),
batch_size=batch_size,
)
return results return results
def test_lm_eval_correctness_param(config_filename, tp_size): def test_lm_eval_correctness():
eval_config = yaml.safe_load(config_filename.read_text(encoding="utf-8")) eval_config = yaml.safe_load(
Path(TEST_DATA_FILE).read_text(encoding="utf-8"))
results = launch_lm_eval(eval_config, tp_size) if eval_config[
"model_name"] == "nm-testing/Meta-Llama-3-70B-Instruct-FBGEMM-nonuniform": #noqa: E501
pytest.skip("FBGEMM is currently failing on main.")
rtol = eval_config.get("rtol", DEFAULT_RTOL) # Launch eval requests.
results = launch_lm_eval(eval_config)
# Confirm scores match ground truth.
success = True success = True
for task in eval_config["tasks"]: for task in eval_config["tasks"]:
for metric in task["metrics"]: for metric in task["metrics"]:
ground_truth = metric["value"] ground_truth = metric["value"]
measured_value = results["results"][task["name"]][metric["name"]] measured_value = results["results"][task["name"]][metric["name"]]
print( print(f'{task["name"]} | {metric["name"]}: '
f"{task['name']} | {metric['name']}: " f'ground_truth={ground_truth} | measured={measured_value}')
f"ground_truth={ground_truth:.3f} | " success = success and numpy.isclose(
f"measured={measured_value:.3f} | rtol={rtol}" ground_truth, measured_value, rtol=RTOL)
)
success = success and np.isclose(ground_truth, measured_value, rtol=rtol)
# Assert at the end, print all scores even on failure for debugging.
assert success assert success

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# vLLM benchmark suite
## Introduction
This directory contains two sets of benchmark for vllm.
- Performance benchmark: benchmark vllm's performance under various workload, for **developers** to gain clarity on whether their PR improves/degrades vllm's performance
- Nightly benchmark: compare vllm's performance against alternatives (tgi, trt-llm and lmdeploy), for **the public** to know when to choose vllm.
See [vLLM performance dashboard](https://perf.vllm.ai) for the latest performance benchmark results and [vLLM GitHub README](https://github.com/vllm-project/vllm/blob/main/README.md) for latest nightly benchmark results.
## Performance benchmark quick overview
**Benchmarking Coverage**: latency, throughput and fix-qps serving on A100 (the support for FP8 benchmark on H100 is coming!), with different models.
**Benchmarking Duration**: about 1hr.
**For benchmarking developers**: please try your best to constraint the duration of benchmarking to about 1 hr so that it won't take forever to run.
## Nightly benchmark quick overview
**Benchmarking Coverage**: Fix-qps serving on A100 (the support for FP8 benchmark on H100 is coming!) on Llama-3 8B, 70B and Mixtral 8x7B.
**Benchmarking engines**: vllm, TGI, trt-llm and lmdeploy.
**Benchmarking Duration**: about 3.5hrs.
## Trigger the benchmark
Performance benchmark will be triggered when:
- A PR being merged into vllm.
- Every commit for those PRs with `perf-benchmarks` label AND `ready` label.
Nightly benchmark will be triggered when:
- Every commit for those PRs with `perf-benchmarks` label and `nightly-benchmarks` label.
## Performance benchmark details
See [performance-benchmarks-descriptions.md](performance-benchmarks-descriptions.md) for detailed descriptions, and use `tests/latency-tests.json`, `tests/throughput-tests.json`, `tests/serving-tests.json` to configure the test cases.
### Latency test
Here is an example of one test inside `latency-tests.json`:
```json
[
{
"test_name": "latency_llama8B_tp1",
"parameters": {
"model": "meta-llama/Meta-Llama-3-8B",
"tensor_parallel_size": 1,
"load_format": "dummy",
"num_iters_warmup": 5,
"num_iters": 15
}
},
]
```
In this example:
- The `test_name` attributes is a unique identifier for the test. In `latency-tests.json`, it must start with `latency_`.
- The `parameters` attribute control the command line arguments to be used for `benchmark_latency.py`. Note that please use underline `_` instead of the dash `-` when specifying the command line arguments, and `run-performance-benchmarks.sh` will convert the underline to dash when feeding the arguments to `benchmark_latency.py`. For example, the corresponding command line arguments for `benchmark_latency.py` will be `--model meta-llama/Meta-Llama-3-8B --tensor-parallel-size 1 --load-format dummy --num-iters-warmup 5 --num-iters 15`
Note that the performance numbers are highly sensitive to the value of the parameters. Please make sure the parameters are set correctly.
WARNING: The benchmarking script will save json results by itself, so please do not configure `--output-json` parameter in the json file.
### Throughput test
The tests are specified in `throughput-tests.json`. The syntax is similar to `latency-tests.json`, except for that the parameters will be fed forward to `benchmark_throughput.py`.
The number of this test is also stable -- a slight change on the value of this number might vary the performance numbers by a lot.
### Serving test
We test the throughput by using `benchmark_serving.py` with request rate = inf to cover the online serving overhead. The corresponding parameters are in `serving-tests.json`, and here is an example:
```json
[
{
"test_name": "serving_llama8B_tp1_sharegpt",
"qps_list": [1, 4, 16, "inf"],
"server_parameters": {
"model": "meta-llama/Meta-Llama-3-8B",
"tensor_parallel_size": 1,
"swap_space": 16,
"disable_log_stats": "",
"disable_log_requests": "",
"load_format": "dummy"
},
"client_parameters": {
"model": "meta-llama/Meta-Llama-3-8B",
"backend": "vllm",
"dataset_name": "sharegpt",
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"num_prompts": 200
}
},
]
```
Inside this example:
- The `test_name` attribute is also a unique identifier for the test. It must start with `serving_`.
- The `server-parameters` includes the command line arguments for vLLM server.
- The `client-parameters` includes the command line arguments for `benchmark_serving.py`.
- The `qps_list` controls the list of qps for test. It will be used to configure the `--request-rate` parameter in `benchmark_serving.py`
The number of this test is less stable compared to the delay and latency benchmarks (due to randomized sharegpt dataset sampling inside `benchmark_serving.py`), but a large change on this number (e.g. 5% change) still vary the output greatly.
WARNING: The benchmarking script will save json results by itself, so please do not configure `--save-results` or other results-saving-related parameters in `serving-tests.json`.
### Visualizing the results
The `convert-results-json-to-markdown.py` helps you put the benchmarking results inside a markdown table, by formatting [descriptions.md](tests/descriptions.md) with real benchmarking results.
You can find the result presented as a table inside the `buildkite/performance-benchmark` job page.
If you do not see the table, please wait till the benchmark finish running.
The json version of the table (together with the json version of the benchmark) will be also attached to the markdown file.
The raw benchmarking results (in the format of json files) are in the `Artifacts` tab of the benchmarking.
## Nightly test details
See [nightly-descriptions.md](nightly-descriptions.md) for the detailed description on test workload, models and docker containers of benchmarking other llm engines.
### Workflow
- The [nightly-pipeline.yaml](nightly-pipeline.yaml) specifies the docker containers for different LLM serving engines.
- Inside each container, we run [run-nightly-suite.sh](run-nightly-suite.sh), which will probe the serving engine of the current container.
- The `run-nightly-suite.sh` will redirect the request to `tests/run-[llm serving engine name]-nightly.sh`, which parses the workload described in [nightly-tests.json](tests/nightly-tests.json) and performs the benchmark.
- At last, we run [scripts/plot-nightly-results.py](scripts/plot-nightly-results.py) to collect and plot the final benchmarking results, and update the results to buildkite.
### Nightly tests
In [nightly-tests.json](tests/nightly-tests.json), we include the command line arguments for benchmarking commands, together with the benchmarking test cases. The format is highly similar to performance benchmark.
### Docker containers
The docker containers for benchmarking are specified in `nightly-pipeline.yaml`.
WARNING: the docker versions are HARD-CODED and SHOULD BE ALIGNED WITH `nightly-descriptions.md`. The docker versions need to be hard-coded as there are several version-specific bug fixes inside `tests/run-[llm serving engine name]-nightly.sh`.
WARNING: populating `trt-llm` to latest version is not easy, as it requires updating several protobuf files in [tensorrt-demo](https://github.com/neuralmagic/tensorrt-demo.git).

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steps:
- label: "Wait for container to be ready"
key: wait-for-container-image
agents:
queue: A100
plugins:
- kubernetes:
podSpec:
containers:
- image: badouralix/curl-jq
command:
- sh .buildkite/nightly-benchmarks/scripts/wait-for-image.sh
- label: "Cleanup H100"
agents:
queue: H100
depends_on: ~
command: docker system prune -a --volumes --force
- label: "A100"
# skip: "use this flag to conditionally skip the benchmark step, useful for PR testing"
agents:
queue: A100
depends_on: wait-for-container-image
if: build.branch == "main"
plugins:
- kubernetes:
podSpec:
priorityClassName: perf-benchmark
containers:
- image: public.ecr.aws/q9t5s3a7/vllm-ci-postmerge-repo:$BUILDKITE_COMMIT
command:
- bash .buildkite/nightly-benchmarks/scripts/run-performance-benchmarks.sh
resources:
limits:
nvidia.com/gpu: 8
volumeMounts:
- name: devshm
mountPath: /dev/shm
env:
- name: VLLM_USAGE_SOURCE
value: ci-test
- name: HF_TOKEN
valueFrom:
secretKeyRef:
name: hf-token-secret
key: token
nodeSelector:
nvidia.com/gpu.product: NVIDIA-A100-SXM4-80GB
volumes:
- name: devshm
emptyDir:
medium: Memory
- label: "H200"
# skip: "use this flag to conditionally skip the benchmark step, useful for PR testing"
agents:
queue: H200
depends_on: wait-for-container-image
if: build.branch == "main"
plugins:
- docker#v5.12.0:
image: public.ecr.aws/q9t5s3a7/vllm-ci-postmerge-repo:$BUILDKITE_COMMIT
command:
- bash
- .buildkite/nightly-benchmarks/scripts/run-performance-benchmarks.sh
mount-buildkite-agent: true
propagate-environment: true
ipc: host
gpus: 4,5,6,7
volumes:
- /data/benchmark-hf-cache:/root/.cache/huggingface
environment:
- VLLM_USAGE_SOURCE
- HF_TOKEN
#- block: "Run H100 Benchmark"
#key: block-h100
#depends_on: ~
- label: "H100"
# skip: "use this flag to conditionally skip the benchmark step, useful for PR testing"
agents:
queue: H100
depends_on: wait-for-container-image
if: build.branch == "main"
plugins:
- docker#v5.12.0:
image: public.ecr.aws/q9t5s3a7/vllm-ci-postmerge-repo:$BUILDKITE_COMMIT
command:
- bash
- .buildkite/nightly-benchmarks/scripts/run-performance-benchmarks.sh
mount-buildkite-agent: true
propagate-environment: true
ipc: host
gpus: all # see CUDA_VISIBLE_DEVICES for actual GPUs used
volumes:
- /data/benchmark-hf-cache:/root/.cache/huggingface
environment:
- VLLM_USAGE_SOURCE
- HF_TOKEN
# Premerge benchmark
- label: "A100"
# skip: "use this flag to conditionally skip the benchmark step, useful for PR testing"
agents:
queue: A100
depends_on: wait-for-container-image
if: build.branch != "main"
plugins:
- kubernetes:
podSpec:
priorityClassName: perf-benchmark
containers:
- image: public.ecr.aws/q9t5s3a7/vllm-ci-test-repo:$BUILDKITE_COMMIT
command:
- bash .buildkite/nightly-benchmarks/scripts/run-performance-benchmarks.sh
resources:
limits:
nvidia.com/gpu: 8
volumeMounts:
- name: devshm
mountPath: /dev/shm
env:
- name: VLLM_USAGE_SOURCE
value: ci-test
- name: HF_TOKEN
valueFrom:
secretKeyRef:
name: hf-token-secret
key: token
nodeSelector:
nvidia.com/gpu.product: NVIDIA-A100-SXM4-80GB
volumes:
- name: devshm
emptyDir:
medium: Memory
- label: "H200"
# skip: "use this flag to conditionally skip the benchmark step, useful for PR testing"
agents:
queue: H200
depends_on: wait-for-container-image
if: build.branch != "main"
plugins:
- docker#v5.12.0:
image: public.ecr.aws/q9t5s3a7/vllm-ci-test-repo:$BUILDKITE_COMMIT
command:
- bash
- .buildkite/nightly-benchmarks/scripts/run-performance-benchmarks.sh
mount-buildkite-agent: true
propagate-environment: true
ipc: host
gpus: 4,5,6,7
volumes:
- /data/benchmark-hf-cache:/root/.cache/huggingface
environment:
- VLLM_USAGE_SOURCE
- HF_TOKEN
#- block: "Run H100 Benchmark"
#key: block-h100
#depends_on: ~
- label: "H100"
# skip: "use this flag to conditionally skip the benchmark step, useful for PR testing"
agents:
queue: H100
depends_on: wait-for-container-image
if: build.branch != "main"
plugins:
- docker#v5.12.0:
image: public.ecr.aws/q9t5s3a7/vllm-ci-test-repo:$BUILDKITE_COMMIT
command:
- bash
- .buildkite/nightly-benchmarks/scripts/run-performance-benchmarks.sh
mount-buildkite-agent: true
propagate-environment: true
ipc: host
gpus: all # see CUDA_VISIBLE_DEVICES for actual GPUs used
volumes:
- /data/benchmark-hf-cache:/root/.cache/huggingface
environment:
- VLLM_USAGE_SOURCE
- HF_TOKEN

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.buildkite/nightly-benchmarks/nightly-annotation.md Normal file
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## Description
This file contains the downloading link for benchmarking results.
- [benchmarking pipeline](artifact://nightly-pipeline.yaml)
- [benchmarking results](artifact://results.zip)
- [benchmarking code](artifact://nightly-benchmarks.zip)
Please download the visualization scripts in the post
## Results reproduction
- Find the docker we use in `benchmarking pipeline`
- Deploy the docker, and inside the docker:
- Download `nightly-benchmarks.zip`.
- In the same folder, run the following code:
```console
export HF_TOKEN=<your HF token>
apt update
apt install -y git
unzip nightly-benchmarks.zip
VLLM_SOURCE_CODE_LOC=./ bash .buildkite/nightly-benchmarks/scripts/run-nightly-benchmarks.sh
```
And the results will be inside `./benchmarks/results`.

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# Nightly benchmark
This benchmark aims to:
- Provide performance clarity: Provide clarity on which one (vllm, tensorrt-llm, lmdeploy and SGLang) leads in performance in what workload.
- Be reproducible: one can run the exact same set of benchmarking commands inside the exact same docker by following reproducing instructions.
Latest results: [results link](https://blog.vllm.ai/2024/09/05/perf-update.html), scroll to the end.
Latest reproduction guilde: [github issue link](https://github.com/vllm-project/vllm/issues/8176)
## Setup
- Docker images:
- vLLM: `vllm/vllm-openai:v0.6.2`
- SGLang: `lmsysorg/sglang:v0.3.2-cu121`
- LMDeploy: `openmmlab/lmdeploy:v0.6.1-cu12`
- TensorRT-LLM: `nvcr.io/nvidia/tritonserver:24.07-trtllm-python-py3`
- *NOTE: we uses r24.07 as the current implementation only works for this version. We are going to bump this up.*
- Check [nightly-pipeline.yaml](nightly-pipeline.yaml) for the concrete docker images, specs and commands we use for the benchmark.
- Hardware
- 8x Nvidia A100 GPUs
- Workload:
- Dataset
- ShareGPT dataset
- Prefill-heavy dataset (in average 462 input tokens, 16 tokens as output)
- Decode-heavy dataset (in average 462 input tokens, 256 output tokens)
- Check [nightly-tests.json](tests/nightly-tests.json) for the concrete configuration of datasets we use.
- Models: llama-3 8B, llama-3 70B.
- We do not use llama 3.1 as it is incompatible with trt-llm r24.07. ([issue](https://github.com/NVIDIA/TensorRT-LLM/issues/2105)).
- Average QPS (query per second): 2, 4, 8, 16, 32 and inf.
- Queries are randomly sampled, and arrival patterns are determined via Poisson process, but all with fixed random seed.
- Evaluation metrics: Throughput (higher the better), TTFT (time to the first token, lower the better), ITL (inter-token latency, lower the better).
## Known issues
- TRT-LLM crashes with Llama 3.1 8B [issue](https://github.com/NVIDIA/TensorRT-LLM/issues/2105).
- TGI does not support `ignore-eos` flag.

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common_pod_spec: &common_pod_spec
priorityClassName: perf-benchmark
nodeSelector:
nvidia.com/gpu.product: NVIDIA-A100-SXM4-80GB
volumes:
- name: devshm
emptyDir:
medium: Memory
- name: hf-cache
hostPath:
path: /root/.cache/huggingface
type: Directory
common_container_settings: &common_container_settings
command:
- bash .buildkite/nightly-benchmarks/scripts/run-nightly-benchmarks.sh
resources:
limits:
nvidia.com/gpu: 8
volumeMounts:
- name: devshm
mountPath: /dev/shm
- name: hf-cache
mountPath: /root/.cache/huggingface
env:
- name: VLLM_USAGE_SOURCE
value: ci-test
- name: HF_HOME
value: /root/.cache/huggingface
- name: VLLM_SOURCE_CODE_LOC
value: /workspace/build/buildkite/vllm/performance-benchmark
- name: HF_TOKEN
valueFrom:
secretKeyRef:
name: hf-token-secret
key: token
steps:
- block: ":rocket: Ready for comparing vllm against alternatives? This will take 4 hours."
- label: "A100 vllm step 10"
priority: 100
agents:
queue: A100
plugins:
- kubernetes:
podSpec:
<<: *common_pod_spec
containers:
- image: vllm/vllm-openai:v0.6.2
<<: *common_container_settings
- label: "A100 sglang benchmark"
priority: 100
agents:
queue: A100
plugins:
- kubernetes:
podSpec:
<<: *common_pod_spec
containers:
- image: lmsysorg/sglang:v0.3.2-cu121
<<: *common_container_settings
- label: "A100 lmdeploy benchmark"
priority: 100
agents:
queue: A100
plugins:
- kubernetes:
podSpec:
<<: *common_pod_spec
containers:
- image: openmmlab/lmdeploy:v0.6.1-cu12
<<: *common_container_settings
- label: "A100 trt llama-8B"
priority: 100
agents:
queue: A100
plugins:
- kubernetes:
podSpec:
<<: *common_pod_spec
containers:
- image: nvcr.io/nvidia/tritonserver:24.07-trtllm-python-py3
<<: *common_container_settings
env:
- name: VLLM_USAGE_SOURCE
value: ci-test
- name: HF_HOME
value: /root/.cache/huggingface
- name: VLLM_SOURCE_CODE_LOC
value: /workspace/build/buildkite/vllm/performance-benchmark
- name: HF_TOKEN
valueFrom:
secretKeyRef:
name: hf-token-secret
key: token
- name: TEST_SELECTOR
value: "llama8B"
- label: "A100 trt llama-70B"
priority: 100
agents:
queue: A100
plugins:
- kubernetes:
podSpec:
<<: *common_pod_spec
containers:
- image: nvcr.io/nvidia/tritonserver:24.07-trtllm-python-py3
<<: *common_container_settings
env:
- name: VLLM_USAGE_SOURCE
value: ci-test
- name: HF_HOME
value: /root/.cache/huggingface
- name: VLLM_SOURCE_CODE_LOC
value: /workspace/build/buildkite/vllm/performance-benchmark
- name: HF_TOKEN
valueFrom:
secretKeyRef:
name: hf-token-secret
key: token
- name: TEST_SELECTOR
value: "llama70B"
# FIXME(Kuntai): uncomment this after NVIDIA gives us their test docker image
# - label: "A100 trt benchmark"
# priority: 100
# agents:
# queue: A100
# plugins:
# - kubernetes:
# podSpec:
# <<: *common_pod_spec
# containers:
# - image: nvcr.io/nvidia/tritonserver:24.07-trtllm-python-py3
# <<: *common_container_settings
# FIXME(Kuntai): uncomment this after TGI supports `--ignore-eos`.
# - label: "A100 tgi benchmark"
# priority: 100
# agents:
# queue: A100
# plugins:
# - kubernetes:
# podSpec:
# <<: *common_pod_spec
# containers:
# - image: ghcr.io/huggingface/text-generation-inference:2.2.0
# <<: *common_container_settings
- wait
- label: "Collect the results"
priority: 100
agents:
queue: A100
plugins:
- kubernetes:
podSpec:
<<: *common_pod_spec
containers:
- image: vllm/vllm-openai:v0.5.0.post1
command:
- bash .buildkite/nightly-benchmarks/scripts/nightly-annotate.sh
resources:
limits:
nvidia.com/gpu: 8
volumeMounts:
- name: devshm
mountPath: /dev/shm
env:
- name: VLLM_USAGE_SOURCE
value: ci-test
- name: VLLM_SOURCE_CODE_LOC
value: /workspace/build/buildkite/vllm/performance-benchmark
- name: HF_TOKEN
valueFrom:
secretKeyRef:
name: hf-token-secret
key: token
- block: ":rocket: check the results!"

17
.buildkite/performance-benchmarks/performance-benchmarks-descriptions.md → .buildkite/nightly-benchmarks/performance-benchmarks-descriptions.md
View File

@@ -1,12 +1,10 @@
# Performance benchmarks descriptions
## Latency tests ## Latency tests
- Input length: 32 tokens. - Input length: 32 tokens.
- Output length: 128 tokens. - Output length: 128 tokens.
- Batch size: fixed (8). - Batch size: fixed (8).
- GPU/HPU Models: llama-3.1 8B, llama-3 70B, mixtral 8x7B. - Models: llama-3.1 8B, llama-3 70B, mixtral 8x7B.
- CPU Models: llama-3.1 8B.
- Evaluation metrics: end-to-end latency (mean, median, p99). - Evaluation metrics: end-to-end latency (mean, median, p99).
{latency_tests_markdown_table} {latency_tests_markdown_table}
@@ -16,8 +14,7 @@
- Input length: randomly sample 200 prompts from ShareGPT dataset (with fixed random seed). - Input length: randomly sample 200 prompts from ShareGPT dataset (with fixed random seed).
- Output length: the corresponding output length of these 200 prompts. - Output length: the corresponding output length of these 200 prompts.
- Batch size: dynamically determined by vllm to achieve maximum throughput. - Batch size: dynamically determined by vllm to achieve maximum throughput.
- GPU/HPU Models: llama-3.1 8B, llama-3 70B, mixtral 8x7B. - Models: llama-3.1 8B, llama-3 70B, mixtral 8x7B.
- CPU Models: llama-3.1 8B.
- Evaluation metrics: throughput. - Evaluation metrics: throughput.
{throughput_tests_markdown_table} {throughput_tests_markdown_table}
@@ -28,18 +25,12 @@
- Output length: the corresponding output length of these 200 prompts. - Output length: the corresponding output length of these 200 prompts.
- Batch size: dynamically determined by vllm and the arrival pattern of the requests. - Batch size: dynamically determined by vllm and the arrival pattern of the requests.
- **Average QPS (query per second)**: 1, 4, 16 and inf. QPS = inf means all requests come at once. For other QPS values, the arrival time of each query is determined using a random Poisson process (with fixed random seed). - **Average QPS (query per second)**: 1, 4, 16 and inf. QPS = inf means all requests come at once. For other QPS values, the arrival time of each query is determined using a random Poisson process (with fixed random seed).
- GPU/HPU Models: llama-3.1 8B, llama-3 70B, mixtral 8x7B. - Models: llama-3.1 8B, llama-3 70B, mixtral 8x7B.
- We also added a speculative decoding test for llama-3 70B on GPU, under QPS 2 - We also added a speculative decoding test for llama-3 70B, under QPS 2
- CPU Models: llama-3.1 8B.
- Evaluation metrics: throughput, TTFT (time to the first token, with mean, median and p99), ITL (inter-token latency, with mean, median and p99). - Evaluation metrics: throughput, TTFT (time to the first token, with mean, median and p99), ITL (inter-token latency, with mean, median and p99).
- For CPU, we added random dataset tests to benchmark fixed input/output length with 100 prompts.
{serving_tests_markdown_table} {serving_tests_markdown_table}
## Platform Information
{platform_markdown_table}
## json version of the benchmarking tables ## json version of the benchmarking tables
This section contains the data of the markdown tables above in JSON format. This section contains the data of the markdown tables above in JSON format.

221
.buildkite/nightly-benchmarks/scripts/convert-results-json-to-markdown.py Normal file
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@@ -0,0 +1,221 @@
# SPDX-License-Identifier: Apache-2.0
import json
import os
from pathlib import Path
import pandas as pd
from tabulate import tabulate
results_folder = Path("results/")
# latency results and the keys that will be printed into markdown
latency_results = []
latency_column_mapping = {
"test_name": "Test name",
"gpu_type": "GPU",
"avg_latency": "Mean latency (ms)",
# "P10": "P10 (s)",
# "P25": "P25 (s)",
"P50": "Median latency (ms)",
# "P75": "P75 (s)",
# "P90": "P90 (s)",
"P99": "P99 latency (ms)",
}
# throughput tests and the keys that will be printed into markdown
throughput_results = []
throughput_results_column_mapping = {
"test_name": "Test name",
"gpu_type": "GPU",
# "num_requests": "# of req.",
# "total_num_tokens": "Total # of tokens",
# "elapsed_time": "Elapsed time (s)",
"requests_per_second": "Tput (req/s)",
# "tokens_per_second": "Tput (tok/s)",
}
# serving results and the keys that will be printed into markdown
serving_results = []
serving_column_mapping = {
"test_name": "Test name",
"gpu_type": "GPU",
# "completed": "# of req.",
"request_throughput": "Tput (req/s)",
# "input_throughput": "Input Tput (tok/s)",
# "output_throughput": "Output Tput (tok/s)",
"mean_ttft_ms": "Mean TTFT (ms)",
"median_ttft_ms": "Median TTFT (ms)",
"p99_ttft_ms": "P99 TTFT (ms)",
# "mean_tpot_ms": "Mean TPOT (ms)",
# "median_tpot_ms": "Median",
# "p99_tpot_ms": "P99",
"mean_itl_ms": "Mean ITL (ms)",
"median_itl_ms": "Median ITL (ms)",
"p99_itl_ms": "P99 ITL (ms)",
}
def read_markdown(file):
if os.path.exists(file):
with open(file) as f:
return f.read() + "\n"
else:
return f"{file} not found.\n"
def results_to_json(latency, throughput, serving):
return json.dumps({
'latency': latency.to_dict(),
'throughput': throughput.to_dict(),
'serving': serving.to_dict()
})
if __name__ == "__main__":
# collect results
for test_file in results_folder.glob("*.json"):
with open(test_file) as f:
raw_result = json.loads(f.read())
if "serving" in str(test_file):
# this result is generated via `benchmark_serving.py`
# attach the benchmarking command to raw_result
try:
with open(test_file.with_suffix(".commands")) as f:
command = json.loads(f.read())
except OSError as e:
print(e)
continue
raw_result.update(command)
# update the test name of this result
raw_result.update({"test_name": test_file.stem})
# add the result to raw_result
serving_results.append(raw_result)
continue
elif "latency" in f.name:
# this result is generated via `benchmark_latency.py`
# attach the benchmarking command to raw_result
try:
with open(test_file.with_suffix(".commands")) as f:
command = json.loads(f.read())
except OSError as e:
print(e)
continue
raw_result.update(command)
# update the test name of this result
raw_result.update({"test_name": test_file.stem})
# get different percentiles
for perc in [10, 25, 50, 75, 90, 99]:
# Multiply 1000 to convert the time unit from s to ms
raw_result.update(
{f"P{perc}": 1000 * raw_result["percentiles"][str(perc)]})
raw_result["avg_latency"] = raw_result["avg_latency"] * 1000
# add the result to raw_result
latency_results.append(raw_result)
continue
elif "throughput" in f.name:
# this result is generated via `benchmark_throughput.py`
# attach the benchmarking command to raw_result
try:
with open(test_file.with_suffix(".commands")) as f:
command = json.loads(f.read())
except OSError as e:
print(e)
continue
raw_result.update(command)
# update the test name of this result
raw_result.update({"test_name": test_file.stem})
# add the result to raw_result
throughput_results.append(raw_result)
continue
print(f"Skipping {test_file}")
latency_results = pd.DataFrame.from_dict(latency_results)
serving_results = pd.DataFrame.from_dict(serving_results)
throughput_results = pd.DataFrame.from_dict(throughput_results)
raw_results_json = results_to_json(latency_results, throughput_results,
serving_results)
# remapping the key, for visualization purpose
if not latency_results.empty:
latency_results = latency_results[list(
latency_column_mapping.keys())].rename(
columns=latency_column_mapping)
if not serving_results.empty:
serving_results = serving_results[list(
serving_column_mapping.keys())].rename(
columns=serving_column_mapping)
if not throughput_results.empty:
throughput_results = throughput_results[list(
throughput_results_column_mapping.keys())].rename(
columns=throughput_results_column_mapping)
processed_results_json = results_to_json(latency_results,
throughput_results,
serving_results)
for df in [latency_results, serving_results, throughput_results]:
if df.empty:
continue
# Sort all dataframes by their respective "Test name" columns
df.sort_values(by="Test name", inplace=True)
# The GPUs sometimes come in format of "GPUTYPE\nGPUTYPE\n...",
# we want to turn it into "8xGPUTYPE"
df["GPU"] = df["GPU"].apply(
lambda x: f"{len(x.split('\n'))}x{x.split('\n')[0]}")
# get markdown tables
latency_md_table = tabulate(latency_results,
headers='keys',
tablefmt='pipe',
showindex=False)
serving_md_table = tabulate(serving_results,
headers='keys',
tablefmt='pipe',
showindex=False)
throughput_md_table = tabulate(throughput_results,
headers='keys',
tablefmt='pipe',
showindex=False)
# document the result
with open(results_folder / "benchmark_results.md", "w") as f:
results = read_markdown("../.buildkite/nightly-benchmarks/" +
"performance-benchmarks-descriptions.md")
results = results.format(
latency_tests_markdown_table=latency_md_table,
throughput_tests_markdown_table=throughput_md_table,
serving_tests_markdown_table=serving_md_table,
benchmarking_results_in_json_string=processed_results_json)
f.write(results)
# document benchmarking results in json
with open(results_folder / "benchmark_results.json", "w") as f:
results = latency_results.to_dict(
orient='records') + throughput_results.to_dict(
orient='records') + serving_results.to_dict(orient='records')
f.write(json.dumps(results))

28
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@@ -0,0 +1,28 @@
# SPDX-License-Identifier: Apache-2.0
import argparse
from transformers import AutoTokenizer
def main(model, cachedir):
# Load the tokenizer and save it to the specified directory
tokenizer = AutoTokenizer.from_pretrained(model)
tokenizer.save_pretrained(cachedir)
print(f"Tokenizer saved to {cachedir}")
if __name__ == "__main__":
parser = argparse.ArgumentParser(
description="Download and save Hugging Face tokenizer")
parser.add_argument("--model",
type=str,
required=True,
help="Name of the model")
parser.add_argument("--cachedir",
type=str,
required=True,
help="Directory to save the tokenizer")
args = parser.parse_args()
main(args.model, args.cachedir)

97
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@@ -0,0 +1,97 @@
# SPDX-License-Identifier: Apache-2.0
import argparse
import json
from pathlib import Path
import numpy as np
import pandas as pd
from tabulate import tabulate
def parse_arguments():
parser = argparse.ArgumentParser(
description=
'Parse command line arguments for summary-nightly-results script.')
parser.add_argument('--results-folder',
type=str,
required=True,
help='The folder where the results are stored.')
parser.add_argument('--description',
type=str,
required=True,
help='Description of the results.')
args = parser.parse_args()
return args
def get_perf(df, method, model, metric):
means = []
for qps in [2, 4, 8, 16, "inf"]:
target = df['Test name'].str.contains(model)
target = target & df['Engine'].str.contains(method)
target = target & df['Test name'].str.contains("qps_" + str(qps))
filtered_df = df[target]
if filtered_df.empty:
means.append(0.)
else:
means.append(filtered_df[metric].values[0])
return np.array(means)
def get_perf_w_std(df, method, model, metric):
if metric in ["TTFT", "ITL"]:
mean = get_perf(df, method, model, "Mean " + metric + " (ms)")
mean = mean.tolist()
std = get_perf(df, method, model, "Std " + metric + " (ms)")
if std.mean() == 0:
std = None
success = get_perf(df, method, model, "Successful req.")
if std is not None:
std = std / np.sqrt(success)
std = std.tolist()
else:
assert metric == "Tput"
mean = get_perf(df, method, model, "Input Tput (tok/s)") + get_perf(
df, method, model, "Output Tput (tok/s)")
mean = mean.tolist()
std = None
return mean, std
def main(args):
results_folder = Path(args.results_folder)
results = []
# collect results
for test_file in results_folder.glob("*_nightly_results.json"):
with open(test_file) as f:
results = results + json.loads(f.read())
# generate markdown table
df = pd.DataFrame.from_dict(results)
md_table = tabulate(df, headers='keys', tablefmt='pipe', showindex=False)
with open(args.description) as f:
description = f.read()
description = description.format(
nightly_results_benchmarking_table=md_table)
with open("nightly_results.md", "w") as f:
f.write(description)
if __name__ == '__main__':
args = parse_arguments()
main(args)

8
.buildkite/nightly-benchmarks/scripts/get-lmdeploy-modelname.py Normal file
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@@ -0,0 +1,8 @@
# SPDX-License-Identifier: Apache-2.0
from lmdeploy.serve.openai.api_client import APIClient
api_client = APIClient("http://localhost:8000")
model_name = api_client.available_models[0]
print(model_name)

8
.buildkite/performance-benchmarks/scripts/launch-server.sh → .buildkite/nightly-benchmarks/scripts/launch-server.sh
View File

@@ -181,14 +181,18 @@ launch_vllm_server() {
if echo "$common_params" | jq -e 'has("fp8")' >/dev/null; then if echo "$common_params" | jq -e 'has("fp8")' >/dev/null; then
echo "Key 'fp8' exists in common params. Use neuralmagic fp8 model for convenience." echo "Key 'fp8' exists in common params. Use neuralmagic fp8 model for convenience."
model=$(echo "$common_params" | jq -r '.neuralmagic_quantized_model') model=$(echo "$common_params" | jq -r '.neuralmagic_quantized_model')
server_command="vllm serve $model \ server_command="python3 \
-m vllm.entrypoints.openai.api_server \
-tp $tp \ -tp $tp \
--model $model \
--port $port \ --port $port \
$server_args" $server_args"
else else
echo "Key 'fp8' does not exist in common params." echo "Key 'fp8' does not exist in common params."
server_command="vllm serve $model \ server_command="python3 \
-m vllm.entrypoints.openai.api_server \
-tp $tp \ -tp $tp \
--model $model \
--port $port \ --port $port \
$server_args" $server_args"
fi fi

78
.buildkite/nightly-benchmarks/scripts/nightly-annotate.sh Normal file
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@@ -0,0 +1,78 @@
#!/bin/bash
set -ex
set -o pipefail
main() {
(which wget && which curl) || (apt-get update && apt-get install -y wget curl)
(which jq) || (apt-get update && apt-get -y install jq)
(which zip) || (apt-get install -y zip)
if [ ! -f /workspace/buildkite-agent ]; then
echo "buildkite-agent binary not found. Skip plotting the results."
exit 0
fi
# initial annotation
#description="$VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/nightly-descriptions.md"
# download results
cd "$VLLM_SOURCE_CODE_LOC/benchmarks"
mkdir -p results/
/workspace/buildkite-agent artifact download 'results/*nightly_results.json' results/
ls
ls results/
# upload benchmark results
zip -r results.zip results/
/workspace/buildkite-agent artifact upload "results.zip"
# upload benchmarking scripts
cd "$VLLM_SOURCE_CODE_LOC/"
zip -r nightly-benchmarks.zip .buildkite/ benchmarks/
/workspace/buildkite-agent artifact upload "nightly-benchmarks.zip"
cd "$VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/"
# upload benchmarking pipeline
/workspace/buildkite-agent artifact upload "nightly-pipeline.yaml"
cd "$VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/"
/workspace/buildkite-agent annotate --style "success" --context "nightly-benchmarks-results" --append < nightly-annotation.md
# The figures should be generated by a separate process outside the CI/CD pipeline
# # generate figures
# python3 -m pip install tabulate pandas matplotlib
# python3 $VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/scripts/generate-nightly-markdown.py \
# --description $description \
# --results-folder results/
# python3 $VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/scripts/plot-nightly-results.py \
# --description $description \
# --results-folder results/ \
# --dataset sharegpt
# python3 $VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/scripts/plot-nightly-results.py \
# --description $description \
# --results-folder results/ \
# --dataset sonnet_2048_128
# python3 $VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/scripts/plot-nightly-results.py \
# --description $description \
# --results-folder results/ \
# --dataset sonnet_128_2048
# # upload results and figures
# /workspace/buildkite-agent artifact upload "nightly_results*.png"
# /workspace/buildkite-agent artifact upload $VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/nightly-pipeline.yaml
# /workspace/buildkite-agent artifact upload $VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/tests/nightly-tests.json
# /workspace/buildkite-agent annotate --style "success" --context "nightly-benchmarks-results" --append < nightly_results.md
}
main "$@"

462
.buildkite/nightly-benchmarks/scripts/run-nightly-benchmarks.sh Normal file
View File

@@ -0,0 +1,462 @@
#!/bin/bash
set -o pipefail
set -x
check_gpus() {
# check the number of GPUs and GPU type.
declare -g gpu_count=$(nvidia-smi --list-gpus | wc -l)
if [[ $gpu_count -gt 0 ]]; then
echo "GPU found."
else
echo "Need at least 1 GPU to run benchmarking."
exit 1
fi
declare -g gpu_type="$(nvidia-smi --query-gpu=name --format=csv,noheader | awk '{print $2}')"
echo "GPU type is $gpu_type"
}
check_hf_token() {
# check if HF_TOKEN is available and valid
if [[ -z "$HF_TOKEN" ]]; then
echo "Error: HF_TOKEN is not set."
exit 1
elif [[ ! "$HF_TOKEN" =~ ^hf_ ]]; then
echo "Error: HF_TOKEN does not start with 'hf_'."
exit 1
else
echo "HF_TOKEN is set and valid."
fi
}
upload_to_buildkite() {
# upload the benchmarking results to buildkite
# if the agent binary is not found, skip uploading the results, exit 0
if [ ! -f /workspace/buildkite-agent ]; then
echo "buildkite-agent binary not found. Skip uploading the results."
return 0
fi
# /workspace/buildkite-agent annotate --style "success" --context "benchmark-results" --append < $RESULTS_FOLDER/${CURRENT_LLM_SERVING_ENGINE}_nightly_results.md
/workspace/buildkite-agent artifact upload "$RESULTS_FOLDER/*"
}
get_current_llm_serving_engine() {
if which lmdeploy >/dev/null; then
echo "Container: lmdeploy"
export CURRENT_LLM_SERVING_ENGINE=lmdeploy
return
fi
if [ -e /tgi-entrypoint.sh ]; then
echo "Container: tgi"
export CURRENT_LLM_SERVING_ENGINE=tgi
return
fi
if which trtllm-build >/dev/null; then
echo "Container: tensorrt-llm"
export CURRENT_LLM_SERVING_ENGINE=trt
return
fi
if [ -e /sgl-workspace ]; then
echo "Container: sglang"
export CURRENT_LLM_SERVING_ENGINE=sglang
return
fi
if [ -e /vllm-workspace ]; then
echo "Container: vllm"
# move to a completely irrelevant directory, to avoid import vllm from current folder
export CURRENT_LLM_SERVING_ENGINE=vllm
return
fi
}
json2args() {
# transforms the JSON string to command line args, and '_' is replaced to '-'
# example:
# input: { "model": "meta-llama/Llama-2-7b-chat-hf", "tensor_parallel_size": 1 }
# output: --model meta-llama/Llama-2-7b-chat-hf --tensor-parallel-size 1
local json_string=$1
local args=$(
echo "$json_string" | jq -r '
to_entries |
map("--" + (.key | gsub("_"; "-")) + " " + (.value | tostring)) |
join(" ")
'
)
echo "$args"
}
kill_gpu_processes() {
pkill -f python
pkill -f python3
pkill -f tritonserver
pkill -f pt_main_thread
pkill -f text-generation
pkill -f lmdeploy
while [ "$(nvidia-smi --query-gpu=memory.used --format=csv,noheader,nounits | head -n 1)" -ge 1000 ]; do
sleep 1
done
}
wait_for_server() {
# wait for vllm server to start
# return 1 if vllm server crashes
timeout 1200 bash -c '
until curl -s localhost:8000/v1/completions > /dev/null; do
sleep 1
done' && return 0 || return 1
}
ensure_installed() {
# Ensure that the given command is installed by apt-get
local cmd=$1
if ! which "$cmd" >/dev/null; then
apt-get update && apt-get install -y "$cmd"
fi
}
run_serving_tests() {
# run serving tests using `benchmark_serving.py`
# $1: a json file specifying serving test cases
local serving_test_file
serving_test_file=$1
# Iterate over serving tests
jq -c '.[]' "$serving_test_file" | while read -r params; do
# get the test name, and append the GPU type back to it.
test_name=$(echo "$params" | jq -r '.test_name')
# if TEST_SELECTOR is set, only run the test cases that match the selector
if [[ -n "$TEST_SELECTOR" ]] && [[ ! "$test_name" =~ $TEST_SELECTOR ]]; then
echo "Skip test case $test_name."
continue
fi
# prepend the current serving engine to the test name
test_name=${CURRENT_LLM_SERVING_ENGINE}_${test_name}
# get common parameters
common_params=$(echo "$params" | jq -r '.common_parameters')
model=$(echo "$common_params" | jq -r '.model')
tp=$(echo "$common_params" | jq -r '.tp')
dataset_name=$(echo "$common_params" | jq -r '.dataset_name')
dataset_path=$(echo "$common_params" | jq -r '.dataset_path')
port=$(echo "$common_params" | jq -r '.port')
num_prompts=$(echo "$common_params" | jq -r '.num_prompts')
reuse_server=$(echo "$common_params" | jq -r '.reuse_server')
# get client and server arguments
server_params=$(echo "$params" | jq -r ".${CURRENT_LLM_SERVING_ENGINE}_server_parameters")
client_params=$(echo "$params" | jq -r ".${CURRENT_LLM_SERVING_ENGINE}_client_parameters")
client_args=$(json2args "$client_params")
qps_list=$(echo "$params" | jq -r '.qps_list')
qps_list=$(echo "$qps_list" | jq -r '.[] | @sh')
echo "Running over qps list $qps_list"
# check if there is enough GPU to run the test
if [[ $gpu_count -lt $tp ]]; then
echo "Required num-shard $tp but only $gpu_count GPU found. Skip testcase $test_name."
continue
fi
if [[ $reuse_server == "true" ]]; then
echo "Reuse previous server for test case $test_name"
else
kill_gpu_processes
bash "$VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/scripts/launch-server.sh" \
"$server_params" "$common_params"
fi
if wait_for_server; then
echo ""
echo "$CURRENT_LLM_SERVING_ENGINE server is up and running."
else
echo ""
echo "$CURRENT_LLM_SERVING_ENGINE failed to start within the timeout period."
break
fi
# prepare tokenizer
# this is required for lmdeploy.
cd "$VLLM_SOURCE_CODE_LOC/benchmarks"
rm -rf /tokenizer_cache
mkdir /tokenizer_cache
python3 ../.buildkite/nightly-benchmarks/scripts/download-tokenizer.py \
--model "$model" \
--cachedir /tokenizer_cache
cd "$VLLM_SOURCE_CODE_LOC/benchmarks"
# change model name for lmdeploy (it will not follow standard hf name)
if [[ "$CURRENT_LLM_SERVING_ENGINE" == "lmdeploy" ]]; then
model=$(python ../.buildkite/nightly-benchmarks/scripts/get-lmdeploy-modelname.py)
fi
# iterate over different QPS
for qps in $qps_list; do
# remove the surrounding single quote from qps
if [[ "$qps" == *"inf"* ]]; then
echo "qps was $qps"
qps="inf"
echo "now qps is $qps"
fi
new_test_name=$test_name"_qps_"$qps
backend=$CURRENT_LLM_SERVING_ENGINE
if [[ $backend = "trt" ]]; then
backend="tensorrt-llm"
fi
if [[ "$backend" == *"vllm"* ]]; then
backend="vllm"
fi
if [[ "$dataset_name" = "sharegpt" ]]; then
client_command="python3 benchmark_serving.py \
--backend $backend \
--tokenizer /tokenizer_cache \
--model $model \
--dataset-name $dataset_name \
--dataset-path $dataset_path \
--num-prompts $num_prompts \
--port $port \
--save-result \
--result-dir $RESULTS_FOLDER \
--result-filename ${new_test_name}.json \
--request-rate $qps \
--ignore-eos \
$client_args"
elif [[ "$dataset_name" = "sonnet" ]]; then
sonnet_input_len=$(echo "$common_params" | jq -r '.sonnet_input_len')
sonnet_output_len=$(echo "$common_params" | jq -r '.sonnet_output_len')
sonnet_prefix_len=$(echo "$common_params" | jq -r '.sonnet_prefix_len')
client_command="python3 benchmark_serving.py \
--backend $backend \
--tokenizer /tokenizer_cache \
--model $model \
--dataset-name $dataset_name \
--dataset-path $dataset_path \
--num-prompts $num_prompts \
--sonnet-input-len $sonnet_input_len \
--sonnet-output-len $sonnet_output_len \
--sonnet-prefix-len $sonnet_prefix_len \
--port $port \
--save-result \
--result-dir $RESULTS_FOLDER \
--result-filename ${new_test_name}.json \
--request-rate $qps \
--ignore-eos \
$client_args"
else
echo "The dataset name must be either 'sharegpt' or 'sonnet'. Got $dataset_name."
exit 1
fi
echo "Running test case $test_name with qps $qps"
echo "Client command: $client_command"
eval "$client_command"
server_command="None"
# record the benchmarking commands
jq_output=$(jq -n \
--arg server "$server_command" \
--arg client "$client_command" \
--arg gpu "$gpu_type" \
--arg engine "$CURRENT_LLM_SERVING_ENGINE" \
'{
server_command: $server,
client_command: $client,
gpu_type: $gpu,
engine: $engine
}')
echo "$jq_output" >"$RESULTS_FOLDER/${new_test_name}.commands"
done
done
kill_gpu_processes
}
run_genai_perf_tests() {
# run genai-perf tests
# $1: a json file specifying genai-perf test cases
local genai_perf_test_file
genai_perf_test_file=$1
# Iterate over genai-perf tests
jq -c '.[]' "$genai_perf_test_file" | while read -r params; do
# get the test name, and append the GPU type back to it.
test_name=$(echo "$params" | jq -r '.test_name')
# if TEST_SELECTOR is set, only run the test cases that match the selector
if [[ -n "$TEST_SELECTOR" ]] && [[ ! "$test_name" =~ $TEST_SELECTOR ]]; then
echo "Skip test case $test_name."
continue
fi
# prepend the current serving engine to the test name
test_name=${CURRENT_LLM_SERVING_ENGINE}_${test_name}
# get common parameters
common_params=$(echo "$params" | jq -r '.common_parameters')
model=$(echo "$common_params" | jq -r '.model')
tp=$(echo "$common_params" | jq -r '.tp')
dataset_name=$(echo "$common_params" | jq -r '.dataset_name')
dataset_path=$(echo "$common_params" | jq -r '.dataset_path')
port=$(echo "$common_params" | jq -r '.port')
num_prompts=$(echo "$common_params" | jq -r '.num_prompts')
reuse_server=$(echo "$common_params" | jq -r '.reuse_server')
# get client and server arguments
server_params=$(echo "$params" | jq -r ".${CURRENT_LLM_SERVING_ENGINE}_server_parameters")
qps_list=$(echo "$params" | jq -r '.qps_list')
qps_list=$(echo "$qps_list" | jq -r '.[] | @sh')
echo "Running over qps list $qps_list"
# check if there is enough GPU to run the test
if [[ $gpu_count -lt $tp ]]; then
echo "Required num-shard $tp but only $gpu_count GPU found. Skip testcase $test_name."
continue
fi
if [[ $reuse_server == "true" ]]; then
echo "Reuse previous server for test case $test_name"
else
kill_gpu_processes
bash "$VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/scripts/launch-server.sh" \
"$server_params" "$common_params"
fi
if wait_for_server; then
echo ""
echo "$CURRENT_LLM_SERVING_ENGINE server is up and running."
else
echo ""
echo "$CURRENT_LLM_SERVING_ENGINE failed to start within the timeout period."
break
fi
# iterate over different QPS
for qps in $qps_list; do
# remove the surrounding single quote from qps
if [[ "$qps" == *"inf"* ]]; then
echo "qps was $qps"
qps=$num_prompts
echo "now qps is $qps"
fi
new_test_name=$test_name"_qps_"$qps
backend=$CURRENT_LLM_SERVING_ENGINE
if [[ "$backend" == *"vllm"* ]]; then
backend="vllm"
fi
#TODO: add output dir.
client_command="genai-perf profile \
-m $model \
--service-kind openai \
--backend vllm \
--endpoint-type chat \
--streaming \
--url localhost:$port \
--request-rate $qps \
--num-prompts $num_prompts \
"
echo "Client command: $client_command"
eval "$client_command"
#TODO: process/record outputs
done
done
kill_gpu_processes
}
prepare_dataset() {
# download sharegpt dataset
cd "$VLLM_SOURCE_CODE_LOC/benchmarks"
wget https://huggingface.co/datasets/anon8231489123/ShareGPT_Vicuna_unfiltered/resolve/main/ShareGPT_V3_unfiltered_cleaned_split.json
# duplicate sonnet by 4x, to allow benchmarking with input length 2048
cd "$VLLM_SOURCE_CODE_LOC/benchmarks"
echo "" > sonnet_4x.txt
for _ in {1..4}
do
cat sonnet.txt >> sonnet_4x.txt
done
}
main() {
# check if the environment variable is successfully injected from yaml
check_gpus
check_hf_token
get_current_llm_serving_engine
pip install -U transformers
pip install -r requirements/dev.txt
which genai-perf
# check storage
df -h
ensure_installed wget
ensure_installed curl
ensure_installed jq
# genai-perf dependency
ensure_installed libb64-0d
prepare_dataset
cd "$VLLM_SOURCE_CODE_LOC/benchmarks"
declare -g RESULTS_FOLDER=results/
mkdir -p $RESULTS_FOLDER
BENCHMARK_ROOT="$VLLM_SOURCE_CODE_LOC/.buildkite/nightly-benchmarks/"
# run the test
run_serving_tests "$BENCHMARK_ROOT/tests/nightly-tests.json"
# run genai-perf tests
run_genai_perf_tests "$BENCHMARK_ROOT/tests/genai-perf-tests.json"
mv artifacts/ $RESULTS_FOLDER/
# upload benchmark results to buildkite
python3 -m pip install tabulate pandas
python3 "$BENCHMARK_ROOT/scripts/summary-nightly-results.py"
upload_to_buildkite
}
main "$@"

400
.buildkite/nightly-benchmarks/scripts/run-performance-benchmarks.sh Normal file
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@@ -0,0 +1,400 @@
#!/bin/bash
# This script should be run inside the CI process
# This script assumes that we are already inside the vllm/ directory
# Benchmarking results will be available inside vllm/benchmarks/results/
# Do not set -e, as the mixtral 8x22B model tends to crash occasionally
# and we still want to see other benchmarking results even when mixtral crashes.
set -x
set -o pipefail
check_gpus() {
if command -v nvidia-smi; then
# check the number of GPUs and GPU type.
declare -g gpu_count=$(nvidia-smi --list-gpus | wc -l)
elif command -v amd-smi; then
declare -g gpu_count=$(amd-smi list | grep 'GPU' | wc -l)
fi
if [[ $gpu_count -gt 0 ]]; then
echo "GPU found."
else
echo "Need at least 1 GPU to run benchmarking."
exit 1
fi
if command -v nvidia-smi; then
declare -g gpu_type=$(nvidia-smi --query-gpu=name --format=csv,noheader | awk '{print $2}')
elif command -v amd-smi; then
declare -g gpu_type=$(amd-smi static -g 0 -a | grep 'MARKET_NAME' | awk '{print $2}')
fi
echo "GPU type is $gpu_type"
}
check_hf_token() {
# check if HF_TOKEN is available and valid
if [[ -z "$HF_TOKEN" ]]; then
echo "Error: HF_TOKEN is not set."
exit 1
elif [[ ! "$HF_TOKEN" =~ ^hf_ ]]; then
echo "Error: HF_TOKEN does not start with 'hf_'."
exit 1
else
echo "HF_TOKEN is set and valid."
fi
}
ensure_sharegpt_downloaded() {
local FILE=ShareGPT_V3_unfiltered_cleaned_split.json
if [ ! -f "$FILE" ]; then
wget https://huggingface.co/datasets/anon8231489123/ShareGPT_Vicuna_unfiltered/resolve/main/$FILE
else
echo "$FILE already exists."
fi
}
json2args() {
# transforms the JSON string to command line args, and '_' is replaced to '-'
# example:
# input: { "model": "meta-llama/Llama-2-7b-chat-hf", "tensor_parallel_size": 1 }
# output: --model meta-llama/Llama-2-7b-chat-hf --tensor-parallel-size 1
local json_string=$1
local args=$(
echo "$json_string" | jq -r '
to_entries |
map("--" + (.key | gsub("_"; "-")) + " " + (.value | tostring)) |
join(" ")
'
)
echo "$args"
}
wait_for_server() {
# wait for vllm server to start
# return 1 if vllm server crashes
timeout 1200 bash -c '
until curl -X POST localhost:8000/v1/completions; do
sleep 1
done' && return 0 || return 1
}
kill_processes_launched_by_current_bash() {
# Kill all python processes launched from current bash script
current_shell_pid=$$
processes=$(ps -eo pid,ppid,command | awk -v ppid="$current_shell_pid" -v proc="$1" '$2 == ppid && $3 ~ proc {print $1}')
if [ -n "$processes" ]; then
echo "Killing the following processes matching '$1':"
echo "$processes"
echo "$processes" | xargs kill -9
else
echo "No processes found matching '$1'."
fi
}
kill_gpu_processes() {
ps -aux
lsof -t -i:8000 | xargs -r kill -9
pgrep python3 | xargs -r kill -9
# wait until GPU memory usage smaller than 1GB
if command -v nvidia-smi; then
while [ "$(nvidia-smi --query-gpu=memory.used --format=csv,noheader,nounits | head -n 1)" -ge 1000 ]; do
sleep 1
done
elif command -v amd-smi; then
while [ "$(amd-smi metric -g 0 | grep 'USED_VRAM' | awk '{print $2}')" -ge 1000 ]; do
sleep 1
done
fi
# remove vllm config file
rm -rf ~/.config/vllm
}
upload_to_buildkite() {
# upload the benchmarking results to buildkite
# if the agent binary is not found, skip uploading the results, exit 0
# Check if buildkite-agent is available in the PATH or at /workspace/buildkite-agent
if command -v buildkite-agent >/dev/null 2>&1; then
BUILDKITE_AGENT_COMMAND="buildkite-agent"
elif [ -f /workspace/buildkite-agent ]; then
BUILDKITE_AGENT_COMMAND="/workspace/buildkite-agent"
else
echo "buildkite-agent binary not found. Skip uploading the results."
return 0
fi
# Use the determined command to annotate and upload artifacts
$BUILDKITE_AGENT_COMMAND annotate --style "info" --context "$BUILDKITE_LABEL-benchmark-results" < "$RESULTS_FOLDER/benchmark_results.md"
$BUILDKITE_AGENT_COMMAND artifact upload "$RESULTS_FOLDER/*"
}
run_latency_tests() {
# run latency tests using `benchmark_latency.py`
# $1: a json file specifying latency test cases
local latency_test_file
latency_test_file=$1
# Iterate over latency tests
jq -c '.[]' "$latency_test_file" | while read -r params; do
# get the test name, and append the GPU type back to it.
test_name=$(echo "$params" | jq -r '.test_name')
if [[ ! "$test_name" =~ ^latency_ ]]; then
echo "In latency-test.json, test_name must start with \"latency_\"."
exit 1
fi
# if TEST_SELECTOR is set, only run the test cases that match the selector
if [[ -n "$TEST_SELECTOR" ]] && [[ ! "$test_name" =~ $TEST_SELECTOR ]]; then
echo "Skip test case $test_name."
continue
fi
# get arguments
latency_params=$(echo "$params" | jq -r '.parameters')
latency_args=$(json2args "$latency_params")
# check if there is enough GPU to run the test
tp=$(echo "$latency_params" | jq -r '.tensor_parallel_size')
if [[ $gpu_count -lt $tp ]]; then
echo "Required tensor-parallel-size $tp but only $gpu_count GPU found. Skip testcase $test_name."
continue
fi
latency_command="python3 benchmark_latency.py \
--output-json $RESULTS_FOLDER/${test_name}.json \
$latency_args"
echo "Running test case $test_name"
echo "Latency command: $latency_command"
# recoding benchmarking command ang GPU command
jq_output=$(jq -n \
--arg latency "$latency_command" \
--arg gpu "$gpu_type" \
'{
latency_command: $latency,
gpu_type: $gpu
}')
echo "$jq_output" >"$RESULTS_FOLDER/$test_name.commands"
# run the benchmark
eval "$latency_command"
kill_gpu_processes
done
}
run_throughput_tests() {
# run throughput tests using `benchmark_throughput.py`
# $1: a json file specifying throughput test cases
local throughput_test_file
throughput_test_file=$1
# Iterate over throughput tests
jq -c '.[]' "$throughput_test_file" | while read -r params; do
# get the test name, and append the GPU type back to it.
test_name=$(echo "$params" | jq -r '.test_name')
if [[ ! "$test_name" =~ ^throughput_ ]]; then
echo "In throughput-test.json, test_name must start with \"throughput_\"."
exit 1
fi
# if TEST_SELECTOR is set, only run the test cases that match the selector
if [[ -n "$TEST_SELECTOR" ]] && [[ ! "$test_name" =~ $TEST_SELECTOR ]]; then
echo "Skip test case $test_name."
continue
fi
# get arguments
throughput_params=$(echo "$params" | jq -r '.parameters')
throughput_args=$(json2args "$throughput_params")
# check if there is enough GPU to run the test
tp=$(echo "$throughput_params" | jq -r '.tensor_parallel_size')
if [[ $gpu_count -lt $tp ]]; then
echo "Required tensor-parallel-size $tp but only $gpu_count GPU found. Skip testcase $test_name."
continue
fi
throughput_command="python3 benchmark_throughput.py \
--output-json $RESULTS_FOLDER/${test_name}.json \
$throughput_args"
echo "Running test case $test_name"
echo "Throughput command: $throughput_command"
# recoding benchmarking command ang GPU command
jq_output=$(jq -n \
--arg command "$throughput_command" \
--arg gpu "$gpu_type" \
'{
throughput_command: $command,
gpu_type: $gpu
}')
echo "$jq_output" >"$RESULTS_FOLDER/$test_name.commands"
# run the benchmark
eval "$throughput_command"
kill_gpu_processes
done
}
run_serving_tests() {
# run serving tests using `benchmark_serving.py`
# $1: a json file specifying serving test cases
local serving_test_file
serving_test_file=$1
# Iterate over serving tests
jq -c '.[]' "$serving_test_file" | while read -r params; do
# get the test name, and append the GPU type back to it.
test_name=$(echo "$params" | jq -r '.test_name')
if [[ ! "$test_name" =~ ^serving_ ]]; then
echo "In serving-test.json, test_name must start with \"serving_\"."
exit 1
fi
# if TEST_SELECTOR is set, only run the test cases that match the selector
if [[ -n "$TEST_SELECTOR" ]] && [[ ! "$test_name" =~ $TEST_SELECTOR ]]; then
echo "Skip test case $test_name."
continue
fi
# get client and server arguments
server_params=$(echo "$params" | jq -r '.server_parameters')
client_params=$(echo "$params" | jq -r '.client_parameters')
server_args=$(json2args "$server_params")
client_args=$(json2args "$client_params")
qps_list=$(echo "$params" | jq -r '.qps_list')
qps_list=$(echo "$qps_list" | jq -r '.[] | @sh')
echo "Running over qps list $qps_list"
# check if there is enough GPU to run the test
tp=$(echo "$server_params" | jq -r '.tensor_parallel_size')
if [[ $gpu_count -lt $tp ]]; then
echo "Required tensor-parallel-size $tp but only $gpu_count GPU found. Skip testcase $test_name."
continue
fi
# check if server model and client model is aligned
server_model=$(echo "$server_params" | jq -r '.model')
client_model=$(echo "$client_params" | jq -r '.model')
if [[ $server_model != "$client_model" ]]; then
echo "Server model and client model must be the same. Skip testcase $test_name."
continue
fi
server_command="python3 \
-m vllm.entrypoints.openai.api_server \
$server_args"
# run the server
echo "Running test case $test_name"
echo "Server command: $server_command"
bash -c "$server_command" &
server_pid=$!
# wait until the server is alive
if wait_for_server; then
echo ""
echo "vllm server is up and running."
else
echo ""
echo "vllm failed to start within the timeout period."
fi
# iterate over different QPS
for qps in $qps_list; do
# remove the surrounding single quote from qps
if [[ "$qps" == *"inf"* ]]; then
echo "qps was $qps"
qps="inf"
echo "now qps is $qps"
fi
new_test_name=$test_name"_qps_"$qps
# pass the tensor parallel size to the client so that it can be displayed
# on the benchmark dashboard
client_command="python3 benchmark_serving.py \
--save-result \
--result-dir $RESULTS_FOLDER \
--result-filename ${new_test_name}.json \
--request-rate $qps \
--metadata "tensor_parallel_size=$tp" \
$client_args"
echo "Running test case $test_name with qps $qps"
echo "Client command: $client_command"
bash -c "$client_command"
# record the benchmarking commands
jq_output=$(jq -n \
--arg server "$server_command" \
--arg client "$client_command" \
--arg gpu "$gpu_type" \
'{
server_command: $server,
client_command: $client,
gpu_type: $gpu
}')
echo "$jq_output" >"$RESULTS_FOLDER/${new_test_name}.commands"
done
# clean up
kill -9 $server_pid
kill_gpu_processes
done
}
main() {
check_gpus
check_hf_token
# Set to v1 to run v1 benchmark
if [[ "${ENGINE_VERSION:-v0}" == "v1" ]]; then
export VLLM_USE_V1=1
fi
# dependencies
(which wget && which curl) || (apt-get update && apt-get install -y wget curl)
(which jq) || (apt-get update && apt-get -y install jq)
(which lsof) || (apt-get update && apt-get install -y lsof)
# get the current IP address, required by benchmark_serving.py
export VLLM_HOST_IP=$(hostname -I | awk '{print $1}')
# turn of the reporting of the status of each request, to clean up the terminal output
export VLLM_LOGGING_LEVEL="WARNING"
# prepare for benchmarking
cd benchmarks || exit 1
ensure_sharegpt_downloaded
declare -g RESULTS_FOLDER=results/
mkdir -p $RESULTS_FOLDER
QUICK_BENCHMARK_ROOT=../.buildkite/nightly-benchmarks/
# benchmarking
run_serving_tests $QUICK_BENCHMARK_ROOT/tests/serving-tests.json
run_latency_tests $QUICK_BENCHMARK_ROOT/tests/latency-tests.json
run_throughput_tests $QUICK_BENCHMARK_ROOT/tests/throughput-tests.json
# postprocess benchmarking results
pip install tabulate pandas
python3 $QUICK_BENCHMARK_ROOT/scripts/convert-results-json-to-markdown.py
upload_to_buildkite
}
main "$@"

85
.buildkite/nightly-benchmarks/scripts/summary-nightly-results.py Normal file
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@@ -0,0 +1,85 @@
# SPDX-License-Identifier: Apache-2.0
import datetime
import json
import os
from pathlib import Path
import pandas as pd
from tabulate import tabulate
results_folder = Path("results/")
# serving results and the keys that will be printed into markdown
serving_results = []
serving_column_mapping = {
"test_name": "Test name",
"gpu_type": "GPU",
"completed": "Successful req.",
"request_throughput": "Tput (req/s)",
"mean_ttft_ms": "Mean TTFT (ms)",
"std_ttft_ms": "Std TTFT (ms)",
"median_ttft_ms": "Median TTFT (ms)",
"mean_itl_ms": "Mean ITL (ms)",
"std_itl_ms": "Std ITL (ms)",
"median_itl_ms": "Median ITL (ms)",
"mean_tpot_ms": "Mean TPOT (ms)",
"std_tpot_ms": "Std TPOT (ms)",
"median_tpot_ms": "Median TPOT (ms)",
"total_token_throughput": "Total Token Tput (tok/s)",
"output_throughput": "Output Tput (tok/s)",
"total_input_tokens": "Total input tokens",
"total_output_tokens": "Total output tokens",
"engine": "Engine",
}
if __name__ == "__main__":
# collect results
for test_file in results_folder.glob("*.json"):
with open(test_file) as f:
raw_result = json.loads(f.read())
# attach the benchmarking command to raw_result
with open(test_file.with_suffix(".commands")) as f:
command = json.loads(f.read())
raw_result.update(command)
# update the test name of this result
raw_result.update({"test_name": test_file.stem})
# add the result to raw_result
serving_results.append(raw_result)
continue
serving_results = pd.DataFrame.from_dict(serving_results)
if not serving_results.empty:
serving_results = serving_results[list(
serving_column_mapping.keys())].rename(
columns=serving_column_mapping)
serving_md_table_with_headers = tabulate(serving_results,
headers='keys',
tablefmt='pipe',
showindex=False)
# remove the first line of header
serving_md_table_lines = serving_md_table_with_headers.split('\n')
serving_md_table_without_header = '\n'.join(serving_md_table_lines[2:])
prefix = datetime.datetime.now().strftime("%Y-%m-%d_%H-%M-%S")
prefix = prefix + "_" + os.environ.get("CURRENT_LLM_SERVING_ENGINE")
# document benchmarking results in markdown
with open(results_folder / f"{prefix}_nightly_results.md", "w") as f:
# document results with header.
# for those who wants to reproduce our benchmark.
f.write(serving_md_table_with_headers)
f.write('\n')
# document benchmarking results in json
with open(results_folder / f"{prefix}_nightly_results.json", "w") as f:
results = serving_results.to_dict(orient='records')
f.write(json.dumps(results))

23
.buildkite/nightly-benchmarks/scripts/wait-for-image.sh Normal file
View File

@@ -0,0 +1,23 @@
#!/bin/sh
TOKEN=$(curl -s -L "https://public.ecr.aws/token?service=public.ecr.aws&scope=repository:q9t5s3a7/vllm-ci-postmerge-repo:pull" | jq -r .token)
if [[ "$BUILDKITE_BRANCH" == "main" ]]; then
URL="https://public.ecr.aws/v2/q9t5s3a7/vllm-ci-postmerge-repo/manifests/$BUILDKITE_COMMIT"
else
URL="https://public.ecr.aws/v2/q9t5s3a7/vllm-ci-test-repo/manifests/$BUILDKITE_COMMIT"
fi
TIMEOUT_SECONDS=10
retries=0
while [ $retries -lt 1000 ]; do
if [ "$(curl -s --max-time "$TIMEOUT_SECONDS" -L -H "Authorization: Bearer $TOKEN" -o /dev/null -w "%{http_code}" "$URL")" -eq 200 ]; then
exit 0
fi
echo "Waiting for image to be available..."
retries=$((retries + 1))
sleep 5
done
exit 1

2
.buildkite/performance-benchmarks/tests/genai-perf-tests.json → .buildkite/nightly-benchmarks/tests/genai-perf-tests.json
View File

@@ -11,7 +11,9 @@
}, },
"vllm_server_parameters": { "vllm_server_parameters": {
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"gpu_memory_utilization": 0.9, "gpu_memory_utilization": 0.9,
"num_scheduler_steps": 10,
"max_num_seqs": 512, "max_num_seqs": 512,
"dtype": "bfloat16" "dtype": "bfloat16"
}, },

0
.buildkite/performance-benchmarks/tests/latency-tests.json → .buildkite/nightly-benchmarks/tests/latency-tests.json
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12
.buildkite/performance-benchmarks/tests/nightly-tests.json → .buildkite/nightly-benchmarks/tests/nightly-tests.json
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@@ -35,7 +35,9 @@
}, },
"vllm_server_parameters": { "vllm_server_parameters": {
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"gpu_memory_utilization": 0.9, "gpu_memory_utilization": 0.9,
"num_scheduler_steps": 10,
"max_num_seqs": 512, "max_num_seqs": 512,
"dtype": "bfloat16" "dtype": "bfloat16"
}, },
@@ -88,7 +90,9 @@
}, },
"vllm_server_parameters": { "vllm_server_parameters": {
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"gpu_memory_utilization": 0.9, "gpu_memory_utilization": 0.9,
"num_scheduler_steps": 10,
"max_num_seqs": 512, "max_num_seqs": 512,
"dtype": "bfloat16" "dtype": "bfloat16"
}, },
@@ -141,7 +145,9 @@
}, },
"vllm_server_parameters": { "vllm_server_parameters": {
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"gpu_memory_utilization": 0.9, "gpu_memory_utilization": 0.9,
"num_scheduler_steps": 10,
"max_num_seqs": 512, "max_num_seqs": 512,
"dtype": "bfloat16" "dtype": "bfloat16"
}, },
@@ -191,7 +197,9 @@
}, },
"vllm_server_parameters": { "vllm_server_parameters": {
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"gpu_memory_utilization": 0.9, "gpu_memory_utilization": 0.9,
"num_scheduler_steps": 10,
"max_num_seqs": 512, "max_num_seqs": 512,
"dtype": "bfloat16" "dtype": "bfloat16"
}, },
@@ -243,7 +251,9 @@
}, },
"vllm_server_parameters": { "vllm_server_parameters": {
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"gpu_memory_utilization": 0.9, "gpu_memory_utilization": 0.9,
"num_scheduler_steps": 10,
"max_num_seqs": 512, "max_num_seqs": 512,
"dtype": "bfloat16" "dtype": "bfloat16"
}, },
@@ -295,7 +305,9 @@
}, },
"vllm_server_parameters": { "vllm_server_parameters": {
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"gpu_memory_utilization": 0.9, "gpu_memory_utilization": 0.9,
"num_scheduler_steps": 10,
"max_num_seqs": 512, "max_num_seqs": 512,
"dtype": "bfloat16" "dtype": "bfloat16"
}, },

6
.buildkite/performance-benchmarks/tests/serving-tests.json → .buildkite/nightly-benchmarks/tests/serving-tests.json
View File

@@ -7,6 +7,7 @@
"tensor_parallel_size": 1, "tensor_parallel_size": 1,
"swap_space": 16, "swap_space": 16,
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"load_format": "dummy" "load_format": "dummy"
}, },
"client_parameters": { "client_parameters": {
@@ -25,6 +26,7 @@
"tensor_parallel_size": 4, "tensor_parallel_size": 4,
"swap_space": 16, "swap_space": 16,
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"load_format": "dummy" "load_format": "dummy"
}, },
"client_parameters": { "client_parameters": {
@@ -43,6 +45,7 @@
"tensor_parallel_size": 2, "tensor_parallel_size": 2,
"swap_space": 16, "swap_space": 16,
"disable_log_stats": "", "disable_log_stats": "",
"disable_log_requests": "",
"load_format": "dummy" "load_format": "dummy"
}, },
"client_parameters": { "client_parameters": {
@@ -57,7 +60,8 @@
"test_name": "serving_llama70B_tp4_sharegpt_specdecode", "test_name": "serving_llama70B_tp4_sharegpt_specdecode",
"qps_list": [2], "qps_list": [2],
"server_parameters": { "server_parameters": {
"model": "meta-llama/Meta-Llama-3.1-70B-Instruct", "model": "meta-llama/Meta-Llama-3.1-70B-Instruct",
"disable_log_requests": "",
"tensor_parallel_size": 4, "tensor_parallel_size": 4,
"swap_space": 16, "swap_space": 16,
"speculative_config": { "speculative_config": {

0
.buildkite/performance-benchmarks/tests/throughput-tests.json → .buildkite/nightly-benchmarks/tests/throughput-tests.json
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181
.buildkite/performance-benchmarks/README.md
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@@ -1,181 +0,0 @@
# vLLM benchmark suite
## Introduction
This directory contains a benchmarking suite for **developers** to run locally and gain clarity on whether their PR improves/degrades vllm's performance.
vLLM also maintains a continuous performance benchmark under [perf.vllm.ai](https://perf.vllm.ai/), hosted under PyTorch CI HUD.
## Performance benchmark quick overview
**Benchmarking Coverage**: latency, throughput and fix-qps serving on B200, A100, H100, Intel® Xeon® Processors, Intel® Gaudi® 3 Accelerators and Arm® Neoverse™ with different models.
**Benchmarking Duration**: about 1hr.
**For benchmarking developers**: please try your best to constraint the duration of benchmarking to about 1 hr so that it won't take forever to run.
## Trigger the benchmark
The benchmark needs to be triggered manually:
```bash
bash .buildkite/performance-benchmarks/scripts/run-performance-benchmarks.sh
```
Runtime environment variables:
- `ON_CPU`: set the value to '1' on Intel® Xeon® and Arm® Neoverse™ Processors. Default value is 0.
- `SERVING_JSON`: JSON file to use for the serving tests. Default value is empty string (use default file).
- `LATENCY_JSON`: JSON file to use for the latency tests. Default value is empty string (use default file).
- `THROUGHPUT_JSON`: JSON file to use for the throughout tests. Default value is empty string (use default file).
- `REMOTE_HOST`: IP for the remote vLLM service to benchmark. Default value is empty string.
- `REMOTE_PORT`: Port for the remote vLLM service to benchmark. Default value is empty string.
## Performance benchmark details
See [performance-benchmarks-descriptions.md](performance-benchmarks-descriptions.md) for detailed descriptions, and use `tests/latency-tests.json`, `tests/throughput-tests.json`, `tests/serving-tests.json` to configure the test cases.
> NOTE: For Intel® Xeon® Processors, use `tests/latency-tests-cpu.json`, `tests/throughput-tests-cpu.json`, `tests/serving-tests-cpu.json` instead.
> For Intel® Gaudi® 3 Accelerators, use `tests/latency-tests-hpu.json`, `tests/throughput-tests-hpu.json`, `tests/serving-tests-hpu.json` instead.
> For Arm® Neoverse™, use `tests/latency-tests-arm64-cpu.json`, `tests/throughput-tests-arm64-cpu.json`, `tests/serving-tests-arm64-cpu.json` instead.
### Latency test
Here is an example of one test inside `latency-tests.json`:
```json
[
{
"test_name": "latency_llama8B_tp1",
"parameters": {
"model": "meta-llama/Meta-Llama-3-8B",
"tensor_parallel_size": 1,
"load_format": "dummy",
"num_iters_warmup": 5,
"num_iters": 15
}
},
]
```
In this example:
- The `test_name` attributes is a unique identifier for the test. In `latency-tests.json`, it must start with `latency_`.
- The `parameters` attribute control the command line arguments to be used for `vllm bench latency`. Note that please use underline `_` instead of the dash `-` when specifying the command line arguments, and `run-performance-benchmarks.sh` will convert the underline to dash when feeding the arguments to `vllm bench latency`. For example, the corresponding command line arguments for `vllm bench latency` will be `--model meta-llama/Meta-Llama-3-8B --tensor-parallel-size 1 --load-format dummy --num-iters-warmup 5 --num-iters 15`
Note that the performance numbers are highly sensitive to the value of the parameters. Please make sure the parameters are set correctly.
WARNING: The benchmarking script will save json results by itself, so please do not configure `--output-json` parameter in the json file.
### Throughput test
The tests are specified in `throughput-tests.json`. The syntax is similar to `latency-tests.json`, except for that the parameters will be fed forward to `vllm bench throughput`.
The number of this test is also stable -- a slight change on the value of this number might vary the performance numbers by a lot.
### Serving test
We test the throughput by using `vllm bench serve` with request rate = inf to cover the online serving overhead. The corresponding parameters are in `serving-tests.json`, and here is an example:
```json
[
{
"test_name": "serving_llama8B_tp1_sharegpt",
"qps_list": [1, 4, 16, "inf"],
"server_parameters": {
"model": "meta-llama/Meta-Llama-3-8B",
"tensor_parallel_size": 1,
"swap_space": 16,
"disable_log_stats": "",
"load_format": "dummy"
},
"client_parameters": {
"model": "meta-llama/Meta-Llama-3-8B",
"backend": "vllm",
"dataset_name": "sharegpt",
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"num_prompts": 200
}
},
]
```
Inside this example:
- The `test_name` attribute is also a unique identifier for the test. It must start with `serving_`.
- The `server-parameters` includes the command line arguments for vLLM server.
- The `client-parameters` includes the command line arguments for `vllm bench serve`.
- The `qps_list` controls the list of qps for test. It will be used to configure the `--request-rate` parameter in `vllm bench serve`
The number of this test is less stable compared to the delay and latency benchmarks (due to randomized sharegpt dataset sampling inside `benchmark_serving.py`), but a large change on this number (e.g. 5% change) still vary the output greatly.
WARNING: The benchmarking script will save json results by itself, so please do not configure `--save-results` or other results-saving-related parameters in `serving-tests.json`.
#### Default Parameters Field
We can specify default parameters in a JSON field with key `defaults`. Parameters defined in the field are applied globally to all serving tests, and can be overridden in test case fields. Here is an example:
<details>
<summary> An Example of default parameters field </summary>
```json
{
"defaults": {
"qps_list": [
"inf"
],
"server_environment_variables": {
"VLLM_ALLOW_LONG_MAX_MODEL_LEN": 1
},
"server_parameters": {
"tensor_parallel_size": 1,
"dtype": "bfloat16",
"block_size": 128,
"disable_log_stats": "",
"load_format": "dummy"
},
"client_parameters": {
"backend": "vllm",
"dataset_name": "random",
"random-input-len": 128,
"random-output-len": 128,
"num_prompts": 200,
"ignore-eos": ""
}
},
"tests": [
{
"test_name": "serving_llama3B_tp2_random_128_128",
"server_parameters": {
"model": "meta-llama/Llama-3.2-3B-Instruct",
"tensor_parallel_size": 2,
},
"client_parameters": {
"model": "meta-llama/Llama-3.2-3B-Instruct",
}
},
{
"test_name": "serving_qwen3_tp4_random_128_128",
"server_parameters": {
"model": "Qwen/Qwen3-14B",
"tensor_parallel_size": 4,
},
"client_parameters": {
"model": "Qwen/Qwen3-14B",
}
},
]
}
```
</details>
### Visualizing the results
The `convert-results-json-to-markdown.py` helps you put the benchmarking results inside a markdown table, by formatting [descriptions.md](performance-benchmarks-descriptions.md) with real benchmarking results.
You can find the result presented as a table inside the `buildkite/performance-benchmark` job page.
If you do not see the table, please wait till the benchmark finish running.
The json version of the table (together with the json version of the benchmark) will be also attached to the markdown file.
The raw benchmarking results (in the format of json files) are in the `Artifacts` tab of the benchmarking.
#### Performance Results Comparison
Follow the instructions in [performance results comparison](https://docs.vllm.ai/en/latest/benchmarking/dashboard/#performance-results-comparison) to analyze performance results and the sizing guide.

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@@ -1,414 +0,0 @@
# SPDX-License-Identifier: Apache-2.0
# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
import argparse
import json
import os
import shlex
from importlib import util
from pathlib import Path
from typing import Any
import pandas as pd
import psutil
import regex as re
from tabulate import tabulate
# latency results and the keys that will be printed into markdown
latency_results = []
latency_column_mapping = {
"test_name": "Test name",
"gpu_type": "GPU",
"avg_latency": "Mean latency (ms)",
# "P10": "P10 (s)",
# "P25": "P25 (s)",
"P50": "Median latency (ms)",
# "P75": "P75 (s)",
# "P90": "P90 (s)",
"P99": "P99 latency (ms)",
}
# throughput tests and the keys that will be printed into markdown
throughput_results = []
throughput_results_column_mapping = {
"test_name": "Test name",
"gpu_type": "GPU",
"num_requests": "# of req.",
"total_num_tokens": "Total # of tokens",
"elapsed_time": "Elapsed time (s)",
"requests_per_second": "Tput (req/s)",
"tokens_per_second": "Tput (tok/s)",
}
# serving results and the keys that will be printed into markdown
serving_results = []
serving_column_mapping = {
"test_name": "Test name",
"model_id": "Model",
"dataset_name": "Dataset Name",
"input_len": "Input Len",
"output_len": "Output Len",
"tp_size": "TP Size",
"pp_size": "PP Size",
"dtype": "dtype",
"gpu_type": "GPU",
"completed": "# of req.",
"qps": "qps",
"max_concurrency": "# of max concurrency.",
"request_throughput": "Tput (req/s)",
"total_token_throughput": "Total Token Tput (tok/s)",
"output_throughput": "Output Tput (tok/s)",
# "total_input_tokens": "Total input tokens",
# "total_output_tokens": "Total output tokens",
"mean_ttft_ms": "Mean TTFT (ms)",
"median_ttft_ms": "Median TTFT (ms)",
"p99_ttft_ms": "P99 TTFT (ms)",
"std_ttft_ms": "STD TTFT (ms)",
"mean_tpot_ms": "Mean TPOT (ms)",
"median_tpot_ms": "Median",
"p99_tpot_ms": "P99",
"std_tpot_ms": "STD TPOT (ms)",
"mean_itl_ms": "Mean ITL (ms)",
"median_itl_ms": "Median ITL (ms)",
"p99_itl_ms": "P99 ITL (ms)",
}
def read_markdown(file):
if os.path.exists(file):
with open(file) as f:
return f.read() + "\n"
else:
return f"{file} not found.\n"
def results_to_json(latency, throughput, serving):
return json.dumps(
{
"latency": latency.to_dict(),
"throughput": throughput.to_dict(),
"serving": serving.to_dict(),
}
)
def get_size_with_unit(bytes, suffix="B"):
"""
Scale bytes to its proper format
e.g:
1253656 => '1.20MB'
1253656678 => '1.17GB'
"""
factor = 1024
for unit in ["", "K", "M", "G", "T", "P"]:
if bytes < factor:
return f"{bytes:.2f}{unit}{suffix}"
bytes /= factor
def _coerce(val: str) -> Any:
"""Best-effort type coercion from string to Python types."""
low = val.lower()
if low == "null":
return None
if low == "true":
return True
if low == "false":
return False
# integers
if re.fullmatch(r"[+-]?\d+", val):
try:
return int(val)
except ValueError:
pass
# floats (keep 'inf'/'-inf'/'nan' as strings)
if re.fullmatch(r"[+-]?\d*\.\d+", val):
try:
return float(val)
except ValueError:
pass
return val
def parse_client_command(cmd: str) -> dict[str, Any]:
"""Parse the client_command shell string into {executable, script, args}."""
toks = shlex.split(cmd)
if len(toks) < 2:
raise ValueError("client_command must include an executable and a script")
executable, script = toks[0], toks[1]
args: dict[str, Any] = {}
i = 2
while i < len(toks):
t = toks[i]
if t.startswith("--"):
# --key=value or --key (value) or boolean flag
if "=" in t:
key, val = t.split("=", 1)
if key == "--metadata":
md = {}
if val:
if "=" in val:
k, v = val.split("=", 1)
md[k] = _coerce(v)
else:
md[val] = True
args[key] = md
else:
args[key] = _coerce(val)
i += 1
continue
key = t
# Special: consume metadata k=v pairs until next --flag
if key == "--metadata":
i += 1
md = {}
while i < len(toks) and not toks[i].startswith("--"):
pair = toks[i]
if "=" in pair:
k, v = pair.split("=", 1)
md[k] = _coerce(v)
else:
md[pair] = True
i += 1
args[key] = md
continue
# Standard: check if next token is a value (not a flag)
if i + 1 < len(toks) and not toks[i + 1].startswith("--"):
args[key] = _coerce(toks[i + 1])
i += 2
else:
# lone flag -> True
args[key] = True
i += 1
else:
# unexpected positional; skip
i += 1
return {"executable": executable, "script": script, "args": args}
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument(
"-r",
"--result",
type=str,
default="results",
help="Folder name for benchmark output results.",
)
args = parser.parse_args()
results_folder = Path(args.result)
if not results_folder.exists():
raise FileNotFoundError(f"results folder does not exist: {results_folder}")
# collect results
for test_file in results_folder.glob("*.json"):
with open(test_file) as f:
raw_result = json.loads(f.read())
if "serving" in str(test_file):
# this result is generated via `vllm bench serve` command
# attach the benchmarking command to raw_result
try:
with open(test_file.with_suffix(".commands")) as f:
command = json.loads(f.read())
except OSError as e:
print(e)
continue
# Parse Server Command Arg
out: dict[str, Any] = {
"server_command": parse_client_command(command["server_command"])
}
parse_args = [
"--tensor-parallel-size",
"--pipeline-parallel-size",
"--dtype",
]
col_mapping = ["tp_size", "pp_size", "dtype"]
for index, arg in enumerate(parse_args):
if arg in out["server_command"]["args"]:
raw_result.update(
{col_mapping[index]: out["server_command"]["args"][arg]}
)
# Parse Client Command Arg
out: dict[str, Any] = {
"client_command": parse_client_command(command["client_command"])
}
parse_args = [
"--dataset-name",
"--random-input-len",
"--random-output-len",
"--request-rate",
]
col_mapping = ["dataset_name", "input_len", "output_len", "qps"]
for index, arg in enumerate(parse_args):
if arg in out["client_command"]["args"]:
raw_result.update(
{col_mapping[index]: out["client_command"]["args"][arg]}
)
# Add Server, Client command
raw_result.update(command)
# update the test name of this result
raw_result.update({"test_name": test_file.stem})
# add the result to raw_result
serving_results.append(raw_result)
continue
elif "latency" in f.name:
# this result is generated via `vllm bench latency` command
# attach the benchmarking command to raw_result
try:
with open(test_file.with_suffix(".commands")) as f:
command = json.loads(f.read())
except OSError as e:
print(e)
continue
raw_result.update(command)
# update the test name of this result
raw_result.update({"test_name": test_file.stem})
# get different percentiles
for perc in [10, 25, 50, 75, 90, 99]:
# Multiply 1000 to convert the time unit from s to ms
raw_result.update(
{f"P{perc}": 1000 * raw_result["percentiles"][str(perc)]}
)
raw_result["avg_latency"] = raw_result["avg_latency"] * 1000
# add the result to raw_result
latency_results.append(raw_result)
continue
elif "throughput" in f.name:
# this result is generated via `vllm bench throughput` command
# attach the benchmarking command to raw_result
try:
with open(test_file.with_suffix(".commands")) as f:
command = json.loads(f.read())
except OSError as e:
print(e)
continue
raw_result.update(command)
# update the test name of this result
raw_result.update({"test_name": test_file.stem})
# add the result to raw_result
throughput_results.append(raw_result)
continue
print(f"Skipping {test_file}")
latency_results = pd.DataFrame.from_dict(latency_results)
serving_results = pd.DataFrame.from_dict(serving_results)
throughput_results = pd.DataFrame.from_dict(throughput_results)
svmem = psutil.virtual_memory()
platform_data = {
"Physical cores": [psutil.cpu_count(logical=False)],
"Total cores": [psutil.cpu_count(logical=True)],
"Total Memory": [get_size_with_unit(svmem.total)],
}
if util.find_spec("numa") is not None:
from numa import info
platform_data["Total NUMA nodes"] = [info.get_num_configured_nodes()]
if util.find_spec("cpuinfo") is not None:
from cpuinfo import get_cpu_info
platform_data["CPU Brand"] = [get_cpu_info()["brand_raw"]]
platform_results = pd.DataFrame.from_dict(
platform_data, orient="index", columns=["Platform Info"]
)
raw_results_json = results_to_json(
latency_results, throughput_results, serving_results
)
# remapping the key, for visualization purpose
if not latency_results.empty:
latency_results = latency_results[list(latency_column_mapping.keys())].rename(
columns=latency_column_mapping
)
if not serving_results.empty:
valid_columns = [
col for col in serving_column_mapping if col in serving_results.columns
]
serving_results = serving_results[valid_columns].rename(
columns=serving_column_mapping
)
if not throughput_results.empty:
throughput_results = throughput_results[
list(throughput_results_column_mapping.keys())
].rename(columns=throughput_results_column_mapping)
processed_results_json = results_to_json(
latency_results, throughput_results, serving_results
)
for df in [latency_results, serving_results, throughput_results]:
if df.empty:
continue
# Sort all dataframes by their respective "Test name" columns
df.sort_values(by="Test name", inplace=True)
# The GPUs sometimes come in format of "GPUTYPE\nGPUTYPE\n...",
# we want to turn it into "8xGPUTYPE"
df["GPU"] = df["GPU"].apply(
lambda x: "{}x{}".format(len(x.split("\n")), x.split("\n")[0])
)
# get markdown tables
latency_md_table = tabulate(
latency_results, headers="keys", tablefmt="pipe", showindex=False
)
serving_md_table = tabulate(
serving_results, headers="keys", tablefmt="pipe", showindex=False
)
throughput_md_table = tabulate(
throughput_results, headers="keys", tablefmt="pipe", showindex=False
)
platform_md_table = tabulate(
platform_results, headers="keys", tablefmt="pipe", showindex=True
)
# document the result
md_file = "benchmark_results.md"
json_file = "benchmark_results.json"
with open(results_folder / md_file, "w") as f:
results = read_markdown(
"../.buildkite/performance-benchmarks/"
"performance-benchmarks-descriptions.md"
)
results = results.format(
latency_tests_markdown_table=latency_md_table,
throughput_tests_markdown_table=throughput_md_table,
serving_tests_markdown_table=serving_md_table,
platform_markdown_table=platform_md_table,
benchmarking_results_in_json_string=processed_results_json,
)
f.write(results)
# document benchmarking results in json
with open(results_folder / json_file, "w") as f:
results = (
latency_results.to_dict(orient="records")
+ throughput_results.to_dict(orient="records")
+ serving_results.to_dict(orient="records")
)
f.write(json.dumps(results))

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.buildkite/performance-benchmarks/scripts/run-performance-benchmarks.sh
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@@ -1,539 +0,0 @@
#!/bin/bash
# This script assumes that we are already inside the vllm/ directory
# Benchmarking results will be available inside vllm/benchmarks/results/
# Do not set -e, as the mixtral 8x22B model tends to crash occasionally
# and we still want to see other benchmarking results even when mixtral crashes.
set -x
set -o pipefail
# Environment-driven debug controls (like ON_CPU=1)
DRY_RUN="${DRY_RUN:-0}"
MODEL_FILTER="${MODEL_FILTER:-}"
DTYPE_FILTER="${DTYPE_FILTER:-}"
check_gpus() {
if command -v nvidia-smi; then
# check the number of GPUs and GPU type.
declare -g gpu_count=$(nvidia-smi --list-gpus | grep -c . || true)
elif command -v amd-smi; then
declare -g gpu_count=$(amd-smi list | grep -c 'GPU' || true)
elif command -v hl-smi; then
declare -g gpu_count=$(hl-smi --list | grep -ci "Module ID" || true)
fi
if [[ $gpu_count -gt 0 ]]; then
echo "GPU found."
else
echo "Need at least 1 GPU to run benchmarking."
exit 1
fi
declare -g arch_suffix=''
if command -v nvidia-smi; then
declare -g gpu_type=$(nvidia-smi --query-gpu=name --format=csv,noheader | awk '{print $2}')
elif command -v amd-smi; then
declare -g gpu_type=$(amd-smi static -g 0 -a | grep 'MARKET_NAME' | awk '{print $2}')
elif command -v hl-smi; then
declare -g gpu_type=$(hl-smi -q | grep "Product Name" | head -n 1 | awk -F ':' '{print $2}' | sed 's/^ *//')
arch_suffix='-hpu'
fi
echo "GPU type is $gpu_type"
}
check_cpus() {
# check the number of CPUs and NUMA Node and GPU type.
declare -g numa_count=$(lscpu | grep "NUMA node(s):" | awk '{print $3}')
if [[ $numa_count -gt 0 ]]; then
echo "NUMA found."
echo "$numa_count"
else
echo "Need at least 1 NUMA to run benchmarking."
exit 1
fi
if [[ "$(uname -m)" == "aarch64" ]] || [[ "$(uname -m)" == "arm64" ]]; then
declare -g gpu_type="arm64-cpu"
else
declare -g gpu_type="cpu"
fi
echo "GPU type is $gpu_type"
}
check_hf_token() {
# check if HF_TOKEN is available and valid
if [[ -z "$HF_TOKEN" ]]; then
echo "Error: HF_TOKEN is not set."
exit 1
elif [[ ! "$HF_TOKEN" =~ ^hf_ ]]; then
echo "Error: HF_TOKEN does not start with 'hf_'."
exit 1
else
echo "HF_TOKEN is set and valid."
fi
}
ensure_sharegpt_downloaded() {
local FILE=ShareGPT_V3_unfiltered_cleaned_split.json
if [ ! -f "$FILE" ]; then
wget https://huggingface.co/datasets/anon8231489123/ShareGPT_Vicuna_unfiltered/resolve/main/$FILE
else
echo "$FILE already exists."
fi
}
json2args() {
# transforms the JSON string to command line args, and '_' is replaced to '-'
# example:
# input: { "model": "meta-llama/Llama-2-7b-chat-hf", "tensor_parallel_size": 1 }
# output: --model meta-llama/Llama-2-7b-chat-hf --tensor-parallel-size 1
local json_string=$1
local args=$(
echo "$json_string" | jq -r '
to_entries |
map("--" + (.key | gsub("_"; "-")) + " " + (.value | tostring)) |
join(" ")
'
)
echo "$args"
}
json2envs() {
# transforms the JSON string to environment variables.
# example:
# input: { "VLLM_CPU_KVCACHE_SPACE": 5 }
# output: VLLM_CPU_KVCACHE_SPACE=5
local json_string=$1
local args=$(
echo "$json_string" | jq -r '
to_entries |
map((.key ) + "=" + (.value | tostring)) |
join(" ")
'
)
echo "$args"
}
wait_for_server() {
local timeout_val="1200"
timeout "$timeout_val" bash -c '
until curl -sf http://localhost:8000/v1/models >/dev/null; do
sleep 1
done
'
}
kill_processes_launched_by_current_bash() {
# Kill all python processes launched from current bash script
current_shell_pid=$$
processes=$(ps -eo pid,ppid,command | awk -v ppid="$current_shell_pid" -v proc="$1" '$2 == ppid && $3 ~ proc {print $1}')
if [ -n "$processes" ]; then
echo "Killing the following processes matching '$1':"
echo "$processes"
echo "$processes" | xargs kill -9
else
echo "No processes found matching '$1'."
fi
}
kill_gpu_processes() {
ps -aux
lsof -t -i:8000 | xargs -r kill -9
pgrep python3 | xargs -r kill -9
# vLLM now names the process with VLLM prefix after https://github.com/vllm-project/vllm/pull/21445
pgrep VLLM | xargs -r kill -9
# wait until GPU memory usage smaller than 1GB
if command -v nvidia-smi; then
while [ "$(nvidia-smi --query-gpu=memory.used --format=csv,noheader,nounits | head -n 1)" -ge 1000 ]; do
sleep 1
done
elif command -v amd-smi; then
while [ "$(amd-smi metric -g 0 | grep 'USED_VRAM' | awk '{print $2}')" -ge 1000 ]; do
sleep 1
done
elif command -v hl-smi; then
while [ "$(hl-smi -q | grep "Used" | head -n 1 | awk '{print $3}')" -ge 1000 ]; do
sleep 1
done
fi
# remove vllm config file
rm -rf ~/.config/vllm
}
upload_to_buildkite() {
# upload the benchmarking results to buildkite
# if the agent binary is not found, skip uploading the results, exit 0
# Check if buildkite-agent is available in the PATH or at /workspace/buildkite-agent
if command -v buildkite-agent >/dev/null 2>&1; then
BUILDKITE_AGENT_COMMAND="buildkite-agent"
elif [ -f /workspace/buildkite-agent ]; then
BUILDKITE_AGENT_COMMAND="/workspace/buildkite-agent"
else
echo "buildkite-agent binary not found. Skip uploading the results."
return 0
fi
# Use the determined command to annotate and upload artifacts
$BUILDKITE_AGENT_COMMAND annotate --style "info" --context "$BUILDKITE_LABEL-benchmark-results" < "$RESULTS_FOLDER/benchmark_results.md"
$BUILDKITE_AGENT_COMMAND artifact upload "$RESULTS_FOLDER/*"
}
run_benchmark_tests() {
# run benchmark tests using `vllm bench <test_type>` command
# $1: test type (latency or throughput)
# $2: a json file specifying test cases
local test_type=$1
local test_file=$2
# Iterate over tests
jq -c '.[]' "$test_file" | while read -r params; do
# get the test name, and append the GPU type back to it.
test_name=$(echo "$params" | jq -r '.test_name')
if [[ ! "$test_name" =~ ^${test_type}_ ]]; then
echo "In ${test_type}-test.json, test_name must start with \"${test_type}_\"."
exit 1
fi
# if TEST_SELECTOR is set, only run the test cases that match the selector
if [[ -n "$TEST_SELECTOR" ]] && [[ ! "$test_name" =~ $TEST_SELECTOR ]]; then
echo "Skip test case $test_name."
continue
fi
# get arguments
bench_params=$(echo "$params" | jq -r '.parameters')
bench_args=$(json2args "$bench_params")
bench_environment_variables=$(echo "$params" | jq -r '.environment_variables')
bench_envs=$(json2envs "$bench_environment_variables")
# check if there is enough GPU to run the test
tp=$(echo "$bench_params" | jq -r '.tensor_parallel_size')
if [[ "$ON_CPU" == "1" ]]; then
pp=$(echo "$bench_params" | jq -r '.pipeline_parallel_size // 1')
world_size=$(($tp*$pp))
if [[ $numa_count -lt $world_size && -z "${REMOTE_HOST}" ]]; then
echo "Required world-size $world_size but only $numa_count NUMA nodes found. Skip testcase $test_name."
continue
fi
else
if [[ $gpu_count -lt $tp ]]; then
echo "Required tensor-parallel-size $tp but only $gpu_count GPU found. Skip testcase $test_name."
continue
fi
fi
bench_command=" $bench_envs vllm bench $test_type \
--output-json $RESULTS_FOLDER/${test_name}.json \
$bench_args"
echo "Running test case $test_name"
echo "${test_type^} command: $bench_command"
# recording benchmarking command and GPU command
jq_output=$(jq -n \
--arg command "$bench_command" \
--arg gpu "$gpu_type" \
--arg test_type "$test_type" \
'{
($test_type + "_command"): $command,
gpu_type: $gpu
}')
echo "$jq_output" >"$RESULTS_FOLDER/$test_name.commands"
# run the benchmark
eval "$bench_command"
kill_gpu_processes
done
}
run_latency_tests() { run_benchmark_tests "latency" "$1"; }
run_startup_tests() { run_benchmark_tests "startup" "$1"; }
run_throughput_tests() { run_benchmark_tests "throughput" "$1"; }
merge_serving_tests_stream() {
# Emit merged serving test objects, optionally filtered by MODEL_FILTER/DTYPE_FILTER in DRY_RUN mode.
# This helper does NOT modify JSON; it only filters the stream in dry-run mode.
local serving_test_file="$1"
# shellcheck disable=SC2016
local merged='
if type == "array" then
# Plain format: test cases array
.[]
elif (type == "object" and has("tests")) then
# merge the default parameters into each test cases
. as $root
| ($root.defaults // {}) as $d
| ($root.tests // [])[]
# default qps / max_concurrency from defaults if missing
| .qps_list = (.qps_list // $d.qps_list)
| .max_concurrency_list = (.max_concurrency_list // $d.max_concurrency_list)
# merge envs / params: test overrides defaults
| .server_environment_variables =
(($d.server_environment_variables // {}) + (.server_environment_variables // {}))
| .server_parameters =
(($d.server_parameters // {}) + (.server_parameters // {}))
| .client_parameters =
(($d.client_parameters // {}) + (.client_parameters // {}))
else
error("Unsupported serving test file format: must be array or object with .tests")
end
'
jq -c "$merged" "$serving_test_file" | \
if [[ "${DRY_RUN:-0}" == "1" && ( "${MODEL_FILTER}${DTYPE_FILTER}" != "" ) ]]; then
jq -c --arg model "$MODEL_FILTER" --arg dtype "$DTYPE_FILTER" '
select((($model|length)==0)
or ((.server_parameters.model // "") == $model)
or ((.client_parameters.model // "") == $model))
| select((($dtype|length)==0) or ((.server_parameters.dtype // "") == $dtype))
'
else
cat
fi
}
run_serving_tests() {
# run serving tests using `vllm bench serve` command
# $1: a json file specifying serving test cases
#
# Supported JSON formats:
# 1) Plain format: top-level array
# [ { "test_name": "...", "server_parameters": {...}, ... }, ... ]
#
# 2) Default parameters field + plain format tests
# {
# "defaults": { ... },
# "tests": [ { "test_name": "...", "server_parameters": {...}, ... }, ... ]
# }
local serving_test_file
serving_test_file=$1
# In dry-run mode, if filters are provided but no tests match, fail fast.
if [[ "${DRY_RUN:-0}" == "1" && ( "${MODEL_FILTER}${DTYPE_FILTER}" != "" ) ]]; then
local count
count=$(merge_serving_tests_stream "$serving_test_file" | wc -l | tr -d ' ')
if [[ "$count" -eq 0 ]]; then
echo "No matching serving tests found in $serving_test_file for model='$MODEL_FILTER' dtype='$DTYPE_FILTER'." >&2
return 0
fi
fi
# Iterate over serving tests (merged + optional filtered stream)
merge_serving_tests_stream "$serving_test_file" | while read -r params; do
# get the test name, and append the GPU type back to it.
test_name=$(echo "$params" | jq -r '.test_name')
if [[ ! "$test_name" =~ ^serving_ ]]; then
echo "In serving-test.json, test_name must start with \"serving_\"."
exit 1
fi
# if TEST_SELECTOR is set, only run the test cases that match the selector
if [[ -n "$TEST_SELECTOR" ]] && [[ ! "$test_name" =~ $TEST_SELECTOR ]]; then
echo "Skip test case $test_name."
continue
fi
# get client and server arguments (after merged the default parameters)
server_params=$(echo "$params" | jq -r '.server_parameters')
server_envs=$(echo "$params" | jq -r '.server_environment_variables')
client_params=$(echo "$params" | jq -r '.client_parameters')
server_args=$(json2args "$server_params")
server_envs=$(json2envs "$server_envs")
client_args=$(json2args "$client_params")
# qps_list
qps_list=$(echo "$params" | jq -r '.qps_list')
qps_list=$(echo "$qps_list" | jq -r '.[] | @sh')
echo "Running over qps list $qps_list"
# max_concurrency_list (fallback to num_prompts if missing)
max_concurrency_list=$(echo "$params" | jq -r '.max_concurrency_list')
if [[ -z "$max_concurrency_list" || "$max_concurrency_list" == "null" ]]; then
num_prompts=$(echo "$client_params" | jq -r '.num_prompts')
max_concurrency_list="[$num_prompts]"
fi
max_concurrency_list=$(echo "$max_concurrency_list" | jq -r '.[] | @sh')
echo "Running over max concurrency list $max_concurrency_list"
# check if there is enough resources to run the test
tp=$(echo "$server_params" | jq -r '.tensor_parallel_size')
if [[ "$ON_CPU" == "1" ]]; then
pp=$(echo "$server_params" | jq -r '.pipeline_parallel_size // 1')
world_size=$(($tp*$pp))
if [[ $numa_count -lt $world_size && -z "${REMOTE_HOST}" ]]; then
echo "Required world-size $world_size but only $numa_count NUMA nodes found. Skip testcase $test_name."
continue
fi
else
if [[ $gpu_count -lt $tp ]]; then
echo "Required tensor-parallel-size $tp but only $gpu_count GPU found. Skip testcase $test_name."
continue
fi
fi
# check if server model and client model is aligned
server_model=$(echo "$server_params" | jq -r '.model')
client_model=$(echo "$client_params" | jq -r '.model')
if [[ $server_model != "$client_model" ]]; then
echo "Server model and client model must be the same. Skip testcase $test_name."
continue
fi
server_command="$server_envs vllm serve \
$server_args"
# run the server
echo "Running test case $test_name"
echo "Server command: $server_command"
# support remote vllm server
client_remote_args=""
if [[ -z "${REMOTE_HOST}" && "${DRY_RUN:-0}" != "1" ]]; then
bash -c "$server_command" &
server_pid=$!
# wait until the server is alive
if wait_for_server; then
echo ""
echo "vLLM server is up and running."
else
echo ""
echo "vLLM failed to start within the timeout period."
fi
elif [[ "${DRY_RUN:-0}" == "1" ]]; then
# dry-run: don't start server
echo "Dry Run."
else
server_command="Using Remote Server $REMOTE_HOST $REMOTE_PORT"
if [[ ${REMOTE_PORT} ]]; then
client_remote_args=" --host=$REMOTE_HOST --port=$REMOTE_PORT "
else
client_remote_args=" --host=$REMOTE_HOST "
fi
fi
# save the compilation mode and optimization level on the serving results
# whenever they are set
compilation_config_mode=$(echo "$server_params" | jq -r '."compilation_config.mode" // empty')
optimization_level=$(echo "$server_params" | jq -r '.optimization_level // empty')
# iterate over different QPS
for qps in $qps_list; do
# remove the surrounding single quote from qps
if [[ "$qps" == *"inf"* ]]; then
qps="inf"
fi
# iterate over different max_concurrency
for max_concurrency in $max_concurrency_list; do
new_test_name="${test_name}_qps_${qps}_concurrency_${max_concurrency}"
echo " new test name $new_test_name"
# pass the tensor parallel size, the compilation mode, and the optimization
# level to the client so that they can be used on the benchmark dashboard
client_command="vllm bench serve \
--save-result \
--result-dir $RESULTS_FOLDER \
--result-filename ${new_test_name}.json \
--request-rate $qps \
--max-concurrency $max_concurrency \
--metadata tensor_parallel_size=$tp compilation_config.mode=$compilation_config_mode optimization_level=$optimization_level \
$client_args $client_remote_args "
echo "Running test case $test_name with qps $qps"
echo "Client command: $client_command"
if [[ "${DRY_RUN:-0}" != "1" ]]; then
bash -c "$client_command"
fi
# record the benchmarking commands
jq_output=$(jq -n \
--arg server "$server_command" \
--arg client "$client_command" \
--arg gpu "$gpu_type" \
'{
server_command: $server,
client_command: $client,
gpu_type: $gpu
}')
echo "$jq_output" >"$RESULTS_FOLDER/${new_test_name}.commands"
done
done
# clean up
if [[ "${DRY_RUN:-0}" != "1" ]]; then
kill -9 "$server_pid"
kill_gpu_processes
fi
done
}
main() {
local ARCH
ARCH=''
if [[ "$ON_CPU" == "1" ]]; then
check_cpus
ARCH="-$gpu_type"
else
check_gpus
ARCH="$arch_suffix"
fi
# DRY_RUN does not execute vLLM; do not require HF_TOKEN.
if [[ "${DRY_RUN:-0}" != "1" ]]; then
check_hf_token
else
echo "DRY_RUN=1 -> skip HF_TOKEN validation"
fi
# dependencies
(which wget && which curl) || (apt-get update && apt-get install -y wget curl)
(which jq) || (apt-get update && apt-get -y install jq)
(which lsof) || (apt-get update && apt-get install -y lsof)
# get the current IP address, required by `vllm bench serve` command
export VLLM_HOST_IP=$(hostname -I | awk '{print $1}')
# turn of the reporting of the status of each request, to clean up the terminal output
export VLLM_LOGGING_LEVEL="WARNING"
# prepare for benchmarking
cd benchmarks || exit 1
ensure_sharegpt_downloaded
declare -g RESULTS_FOLDER=results/
mkdir -p $RESULTS_FOLDER
QUICK_BENCHMARK_ROOT=../.buildkite/performance-benchmarks/
# dump vllm info via vllm collect-env
env_output=$(vllm collect-env)
echo "$env_output" >"$RESULTS_FOLDER/vllm_env.txt"
# benchmarking
run_serving_tests $QUICK_BENCHMARK_ROOT/tests/"${SERVING_JSON:-serving-tests$ARCH.json}" || exit $?
if [[ "${DRY_RUN:-0}" == "1" ]]; then
echo "DRY_RUN=1 -> skip latency/startup/throughput suites"
exit 0
fi
run_latency_tests $QUICK_BENCHMARK_ROOT/tests/"${LATENCY_JSON:-latency-tests$ARCH.json}"
run_startup_tests $QUICK_BENCHMARK_ROOT/tests/"${STARTUP_JSON:-startup-tests$ARCH.json}"
run_throughput_tests $QUICK_BENCHMARK_ROOT/tests/"${THROUGHPUT_JSON:-throughput-tests$ARCH.json}"
# postprocess benchmarking results
pip install tabulate pandas
python3 $QUICK_BENCHMARK_ROOT/scripts/convert-results-json-to-markdown.py
upload_to_buildkite
}
main "$@"

26
.buildkite/performance-benchmarks/tests/latency-tests-arm64-cpu.json
View File

@@ -1,26 +0,0 @@
[
{
"test_name": "latency_llama8B_tp1",
"environment_variables": {
"VLLM_RPC_TIMEOUT": 100000,
"VLLM_ALLOW_LONG_MAX_MODEL_LEN": 1,
"VLLM_ENGINE_ITERATION_TIMEOUT_S": 120,
"VLLM_CPU_KVCACHE_SPACE": 40
},
"parameters": {
"model": "meta-llama/Llama-3.1-8B-Instruct",
"tensor_parallel_size": 1,
"load_format": "dummy",
"dtype": "bfloat16",
"distributed_executor_backend": "mp",
"block_size": 128,
"trust_remote_code": "",
"disable_log_stats": "",
"enforce_eager": "",
"max_num_batched_tokens": 2048,
"max_num_seqs": 256,
"num_iters_warmup": 5,
"num_iters": 15
}
}
]

26
.buildkite/performance-benchmarks/tests/latency-tests-cpu.json
View File

@@ -1,26 +0,0 @@
[
{
"test_name": "latency_llama8B_tp2",
"environment_variables": {
"VLLM_RPC_TIMEOUT": 100000,
"VLLM_ALLOW_LONG_MAX_MODEL_LEN": 1,
"VLLM_ENGINE_ITERATION_TIMEOUT_S": 120,
"VLLM_CPU_SGL_KERNEL": 1,
"VLLM_CPU_KVCACHE_SPACE": 40
},
"parameters": {
"model": "meta-llama/Llama-3.1-8B-Instruct",
"tensor_parallel_size": 2,
"dtype": "bfloat16",
"distributed_executor_backend": "mp",
"block_size": 128,
"trust_remote_code": "",
"disable_log_stats": "",
"enforce_eager": "",
"max_num_batched_tokens": 2048,
"max_num_seqs": 256,
"num_iters_warmup": 5,
"num_iters": 15
}
}
]

106
.buildkite/performance-benchmarks/tests/latency-tests-hpu.json
View File

@@ -1,106 +0,0 @@
[
{
"test_name": "latency_llama8B_tp1",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "meta-llama/Meta-Llama-3.1-8B-Instruct",
"tensor_parallel_size": 1,
"load_format": "dummy",
"num-iters-warmup": 5,
"num-iters": 15,
"max-model-len": 256,
"async-scheduling": ""
}
},
{
"test_name": "latency_llama70B_tp4",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "meta-llama/Meta-Llama-3.1-70B-Instruct",
"tensor_parallel_size": 4,
"load_format": "dummy",
"num-iters-warmup": 5,
"num-iters": 15,
"max-model-len": 256,
"async-scheduling": ""
}
},
{
"test_name": "latency_mixtral8x7B_tp2",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "mistralai/Mixtral-8x7B-Instruct-v0.1",
"tensor_parallel_size": 2,
"load_format": "dummy",
"num-iters-warmup": 5,
"num-iters": 15,
"max-model-len": 256,
"async-scheduling": ""
}
},
{
"test_name": "latency_deepseek_r1",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "deepseek-ai/DeepSeek-R1",
"tensor_parallel_size": 8,
"load_format": "dummy",
"max-model-len": 2048,
"dtype": "bfloat16"
}
},
{
"test_name": "latency_llama4_maverick_17b128e_instruct_fp8",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "meta-llama/Llama-4-Maverick-17B-128E-Instruct-FP8",
"tensor_parallel_size": 8,
"max-model-len": 512,
"max-num-seqs": 128,
"async-scheduling": "",
"gpu-memory-utilization": 0.95,
"enable_expert_parallel": ""
}
},
{
"test_name": "latency_qwen3_8b",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "Qwen/Qwen3-8B",
"tensor_parallel_size": 1,
"max-model-len": 2048,
"max-num-seqs": 128,
"dtype": "bfloat16",
"async-scheduling": ""
}
}
]

130
.buildkite/performance-benchmarks/tests/serving-tests-arm64-cpu.json
View File

@@ -1,130 +0,0 @@
{
"defaults": {
"qps_list": [
"inf"
],
"max_concurrency_list": [
12,
16,
24,
32,
64,
128,
200
],
"server_environment_variables": {
"VLLM_RPC_TIMEOUT": 100000,
"VLLM_ALLOW_LONG_MAX_MODEL_LEN": 1,
"VLLM_ENGINE_ITERATION_TIMEOUT_S": 120,
"VLLM_CPU_SGL_KERNEL": 1,
"VLLM_CPU_KVCACHE_SPACE": 40
},
"server_parameters": {
"model": "meta-llama/Llama-3.1-8B-Instruct",
"tensor_parallel_size": 1,
"dtype": "bfloat16",
"distributed_executor_backend": "mp",
"block_size": 128,
"trust_remote_code": "",
"disable_log_stats": "",
"enforce_eager": "",
"max_num_batched_tokens": 2048,
"max_num_seqs": 256,
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41
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283
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153
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@@ -1,153 +0,0 @@
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27
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@@ -1,27 +0,0 @@
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27
.buildkite/performance-benchmarks/tests/throughput-tests-cpu.json
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"max_num_batched_tokens": 2048,
"max_num_seqs": 256,
"dataset": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"num_prompts": 200,
"backend": "vllm"
}
}
]

123
.buildkite/performance-benchmarks/tests/throughput-tests-hpu.json
View File

@@ -1,123 +0,0 @@
[
{
"test_name": "throughput_llama8B_tp1",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "meta-llama/Meta-Llama-3.1-8B-Instruct",
"tensor_parallel_size": 1,
"load_format": "dummy",
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"num_prompts": 1000,
"backend": "vllm",
"max-model-len": 2048,
"max-num-seqs": 512,
"async-scheduling": ""
}
},
{
"test_name": "throughput_llama70B_tp4",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "meta-llama/Meta-Llama-3.1-70B-Instruct",
"tensor_parallel_size": 4,
"load_format": "dummy",
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"num_prompts": 1000,
"backend": "vllm",
"max-model-len": 2048,
"max-num-seqs": 512,
"async-scheduling": ""
}
},
{
"test_name": "throughput_mixtral8x7B_tp2",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "mistralai/Mixtral-8x7B-Instruct-v0.1",
"tensor_parallel_size": 2,
"load_format": "dummy",
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"num_prompts": 1000,
"backend": "vllm",
"max-model-len": 2048,
"max-num-seqs": 512,
"async-scheduling": ""
}
},
{
"test_name": "throughput_deepseek_r1",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "deepseek-ai/DeepSeek-R1",
"tensor_parallel_size": 8,
"load_format": "dummy",
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"dataset_name": "sharegpt",
"num_prompts": 1000,
"backend": "vllm",
"max-model-len": 2048,
"max-num-seqs": 384,
"async-scheduling": ""
}
},
{
"test_name": "throughput_llama4_maverick_17b128e_instruct_fp8",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "meta-llama/Llama-4-Maverick-17B-128E-Instruct-FP8",
"tensor_parallel_size": 8,
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"dataset_name": "sharegpt",
"num_prompts": 1000,
"backend": "vllm",
"max-model-len": 2048,
"max-num-seqs": 512,
"async-scheduling": "",
"enable_expert_parallel": ""
}
},
{
"test_name": "throughput_qwen3_8b",
"environment_variables": {
"PT_HPU_LAZY_MODE": 1,
"PT_HPU_ENABLE_LAZY_COLLECTIVES": 1,
"VLLM_CONTIGUOUS_PA": 1,
"VLLM_DEFRAG": 1
},
"parameters": {
"model": "Qwen/Qwen-3-8B",
"tensor_parallel_size": 1,
"load_format": "dummy",
"dataset_path": "./ShareGPT_V3_unfiltered_cleaned_split.json",
"dataset_name": "sharegpt",
"num_prompts": 1000,
"max-num-seqs": 512,
"backend": "vllm",
"async-scheduling": ""
}
}
]

777
.buildkite/release-pipeline.yaml
View File

@@ -1,713 +1,88 @@
steps: steps:
- label: "Build wheel - CUDA 12.4"
agents:
queue: cpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=12.4.0 --tag vllm-ci:build-image --target build --progress plain -f docker/Dockerfile ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-wheels.sh"
env:
DOCKER_BUILDKIT: "1"
- label: "Build wheel - CUDA 12.1"
agents:
queue: cpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=12.1.0 --tag vllm-ci:build-image --target build --progress plain -f docker/Dockerfile ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-wheels.sh"
env:
DOCKER_BUILDKIT: "1"
# Note(simon): We can always build CUDA 11.8 wheel to ensure the build is working.
# However, this block can be uncommented to save some compute hours.
# - block: "Build CUDA 11.8 wheel"
# key: block-build-cu118-wheel
- label: "Build wheel - CUDA 11.8"
# depends_on: block-build-cu118-wheel
agents:
queue: cpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=11.8.0 --tag vllm-ci:build-image --target build --progress plain -f docker/Dockerfile ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-wheels.sh"
env:
DOCKER_BUILDKIT: "1"
- block: "Build release image"
depends_on: ~
key: block-release-image-build
- label: "Build release image"
depends_on: block-release-image-build
agents:
queue: cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=12.4.0 --tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT --target vllm-openai --progress plain -f docker/Dockerfile ."
- "docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT"
- label: "Build and publish TPU release image"
depends_on: ~
if: build.env("NIGHTLY") == "1"
agents:
queue: tpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --tag vllm/vllm-tpu:nightly --tag vllm/vllm-tpu:$BUILDKITE_COMMIT --progress plain -f docker/Dockerfile.tpu ."
- "docker push vllm/vllm-tpu:nightly"
- "docker push vllm/vllm-tpu:$BUILDKITE_COMMIT"
plugins:
- docker-login#v3.0.0:
username: vllm
password-env: DOCKERHUB_TOKEN
env:
DOCKER_BUILDKIT: "1"
- input: "Provide Release version here" - input: "Provide Release version here"
id: input-release-version
fields: fields:
- text: "What is the release version?" - text: "What is the release version?"
key: release-version key: "release-version"
- group: "Build Python wheels" - block: "Build CPU release image"
key: "build-wheels" key: block-cpu-release-image-build
steps:
- label: "Build wheel - aarch64 - CUDA 12.9"
depends_on: ~
id: build-wheel-arm64-cuda-12-9
agents:
queue: arm64_cpu_queue_postmerge
commands:
# #NOTE: torch_cuda_arch_list is derived from upstream PyTorch build files here:
# https://github.com/pytorch/pytorch/blob/main/.ci/aarch64_linux/aarch64_ci_build.sh#L7
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=12.9.1 --build-arg torch_cuda_arch_list='8.7 8.9 9.0 10.0+PTX 12.0' --tag vllm-ci:build-image --target build --progress plain -f docker/Dockerfile ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-nightly-wheels.sh"
env:
DOCKER_BUILDKIT: "1"
- label: "Build wheel - aarch64 - CUDA 13.0"
depends_on: ~
id: build-wheel-arm64-cuda-13-0
agents:
queue: arm64_cpu_queue_postmerge
commands:
# #NOTE: torch_cuda_arch_list is derived from upstream PyTorch build files here:
# https://github.com/pytorch/pytorch/blob/main/.ci/aarch64_linux/aarch64_ci_build.sh#L7
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=13.0.1 --build-arg torch_cuda_arch_list='8.7 8.9 9.0 10.0+PTX 12.0' --build-arg BUILD_BASE_IMAGE=nvidia/cuda:13.0.1-devel-ubuntu22.04 --tag vllm-ci:build-image --target build --progress plain -f docker/Dockerfile ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-nightly-wheels.sh manylinux_2_35"
env:
DOCKER_BUILDKIT: "1"
- label: "Build wheel - aarch64 - CPU"
depends_on: ~
id: build-wheel-arm64-cpu
agents:
queue: arm64_cpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg GIT_REPO_CHECK=1 --build-arg VLLM_BUILD_ACL=ON --tag vllm-ci:build-image --target vllm-build --progress plain -f docker/Dockerfile.cpu ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-nightly-wheels.sh manylinux_2_35"
env:
DOCKER_BUILDKIT: "1"
- label: "Build wheel - x86_64 - CUDA 12.9"
depends_on: ~
id: build-wheel-x86-cuda-12-9
agents:
queue: cpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=12.9.1 --tag vllm-ci:build-image --target build --progress plain -f docker/Dockerfile ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-nightly-wheels.sh manylinux_2_31"
env:
DOCKER_BUILDKIT: "1"
- label: "Build wheel - x86_64 - CUDA 13.0"
depends_on: ~
id: build-wheel-x86-cuda-13-0
agents:
queue: cpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=13.0.1 --build-arg BUILD_BASE_IMAGE=nvidia/cuda:13.0.1-devel-ubuntu22.04 --tag vllm-ci:build-image --target build --progress plain -f docker/Dockerfile ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-nightly-wheels.sh manylinux_2_35"
env:
DOCKER_BUILDKIT: "1"
- label: "Build wheel - x86_64 - CPU"
depends_on: ~
id: build-wheel-x86-cpu
agents:
queue: cpu_queue_postmerge
commands:
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg GIT_REPO_CHECK=1 --build-arg VLLM_CPU_AVX512BF16=true --build-arg VLLM_CPU_AVX512VNNI=true --build-arg VLLM_CPU_AMXBF16=true --tag vllm-ci:build-image --target vllm-build --progress plain -f docker/Dockerfile.cpu ."
- "mkdir artifacts"
- "docker run --rm -v $(pwd)/artifacts:/artifacts_host vllm-ci:build-image bash -c 'cp -r dist /artifacts_host && chmod -R a+rw /artifacts_host'"
- "bash .buildkite/scripts/upload-nightly-wheels.sh manylinux_2_35"
env:
DOCKER_BUILDKIT: "1"
- group: "Build release Docker images"
key: "build-release-images"
steps:
- label: "Build release image - x86_64 - CUDA 12.9"
depends_on: ~
id: build-release-image-x86
agents:
queue: cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=12.9.1 --build-arg FLASHINFER_AOT_COMPILE=true --build-arg INSTALL_KV_CONNECTORS=true --tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m) --target vllm-openai --progress plain -f docker/Dockerfile ."
- "docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m)"
# re-tag to default image tag and push, just in case arm64 build fails
- "docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m) public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT"
- "docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT"
- label: "Build release image - aarch64 - CUDA 12.9"
depends_on: ~
id: build-release-image-arm64
agents:
queue: arm64_cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=12.9.1 --build-arg FLASHINFER_AOT_COMPILE=true --build-arg torch_cuda_arch_list='8.7 8.9 9.0 10.0+PTX 12.0' --build-arg INSTALL_KV_CONNECTORS=true --tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m) --target vllm-openai --progress plain -f docker/Dockerfile ."
- "docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m)"
- label: "Build release image - x86_64 - CUDA 13.0"
depends_on: ~
id: build-release-image-x86-cuda-13-0
agents:
queue: cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=13.0.1 --build-arg INSTALL_KV_CONNECTORS=true --build-arg BUILD_BASE_IMAGE=nvidia/cuda:13.0.1-devel-ubuntu22.04 --tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m)-cu130 --target vllm-openai --progress plain -f docker/Dockerfile ."
- "docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m)-cu130"
# re-tag to default image tag and push, just in case arm64 build fails
- "docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m)-cu130 public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-cu130"
- "docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-cu130"
- label: "Build release image - aarch64 - CUDA 13.0"
depends_on: ~
id: build-release-image-arm64-cuda-13-0
agents:
queue: arm64_cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
# compute capability 12.0 for RTX-50 series / RTX PRO 6000 Blackwell, 12.1 for DGX Spark
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg USE_SCCACHE=1 --build-arg GIT_REPO_CHECK=1 --build-arg CUDA_VERSION=13.0.1 --build-arg torch_cuda_arch_list='8.7 8.9 9.0 10.0+PTX 12.0 12.1' --build-arg INSTALL_KV_CONNECTORS=true --build-arg BUILD_BASE_IMAGE=nvidia/cuda:13.0.1-devel-ubuntu22.04 --tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m)-cu130 --target vllm-openai --progress plain -f docker/Dockerfile ."
- "docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-$(uname -m)-cu130"
- block: "Build release image for x86_64 CPU"
key: block-cpu-release-image-build
depends_on: ~
- label: "Build release image - x86_64 - CPU"
depends_on:
- block-cpu-release-image-build
- input-release-version
agents:
queue: cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg GIT_REPO_CHECK=1 --build-arg VLLM_CPU_AVX512BF16=true --build-arg VLLM_CPU_AVX512VNNI=true --build-arg VLLM_CPU_AMXBF16=true --tag public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:$(buildkite-agent meta-data get release-version) --tag public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:latest --progress plain --target vllm-openai -f docker/Dockerfile.cpu ."
- "docker push public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:latest"
- "docker push public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:$(buildkite-agent meta-data get release-version)"
env:
DOCKER_BUILDKIT: "1"
- block: "Build release image for arm64 CPU"
key: block-arm64-cpu-release-image-build
depends_on: ~
- label: "Build release image - arm64 - CPU"
depends_on:
- block-arm64-cpu-release-image-build
- input-release-version
agents:
queue: arm64_cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg GIT_REPO_CHECK=1 --tag public.ecr.aws/q9t5s3a7/vllm-arm64-cpu-release-repo:$(buildkite-agent meta-data get release-version) --tag public.ecr.aws/q9t5s3a7/vllm-arm64-cpu-release-repo:latest --progress plain --target vllm-openai -f docker/Dockerfile.cpu ."
- "docker push public.ecr.aws/q9t5s3a7/vllm-arm64-cpu-release-repo:latest"
- "docker push public.ecr.aws/q9t5s3a7/vllm-arm64-cpu-release-repo:$(buildkite-agent meta-data get release-version)"
env:
DOCKER_BUILDKIT: "1"
- group: "Publish release images"
key: "publish-release-images"
steps:
- label: "Create multi-arch manifest - CUDA 12.9"
depends_on:
- build-release-image-x86
- build-release-image-arm64
id: create-multi-arch-manifest
agents:
queue: small_cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "docker manifest create public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-x86_64 public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-aarch64 --amend"
- "docker manifest push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT"
- label: "Annotate release workflow - CUDA 12.9"
depends_on:
- create-multi-arch-manifest
id: annotate-release-workflow
agents:
queue: small_cpu_queue_postmerge
commands:
- "bash .buildkite/scripts/annotate-release.sh"
- label: "Create multi-arch manifest - CUDA 13.0"
depends_on:
- build-release-image-x86-cuda-13-0
- build-release-image-arm64-cuda-13-0
id: create-multi-arch-manifest-cuda-13-0
agents:
queue: small_cpu_queue_postmerge
commands:
- "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- "docker manifest create public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-cu130 public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-x86_64-cu130 public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-aarch64-cu130 --amend"
- "docker manifest push public.ecr.aws/q9t5s3a7/vllm-release-repo:$BUILDKITE_COMMIT-cu130"
- label: "Publish nightly multi-arch image to DockerHub"
depends_on:
- create-multi-arch-manifest
if: build.env("NIGHTLY") == "1"
agents:
queue: small_cpu_queue_postmerge
commands:
- "bash .buildkite/scripts/push-nightly-builds.sh"
# Clean up old nightly builds (keep only last 14)
- "bash .buildkite/scripts/cleanup-nightly-builds.sh"
plugins:
- docker-login#v3.0.0:
username: vllmbot
password-env: DOCKERHUB_TOKEN
env:
DOCKER_BUILDKIT: "1"
DOCKERHUB_USERNAME: "vllmbot"
- label: "Publish nightly multi-arch image to DockerHub - CUDA 13.0"
depends_on:
- create-multi-arch-manifest-cuda-13-0
if: build.env("NIGHTLY") == "1"
agents:
queue: small_cpu_queue_postmerge
commands:
- "bash .buildkite/scripts/push-nightly-builds.sh cu130"
# Clean up old nightly builds (keep only last 14)
- "bash .buildkite/scripts/cleanup-nightly-builds.sh cu130-nightly-"
plugins:
- docker-login#v3.0.0:
username: vllmbot
password-env: DOCKERHUB_TOKEN
env:
DOCKER_BUILDKIT: "1"
DOCKERHUB_USERNAME: "vllmbot"
- group: "Publish wheels"
key: "publish-wheels"
steps:
- block: "Confirm update release wheels to PyPI (experimental, use with caution)?"
key: block-upload-release-wheels
depends_on:
- input-release-version
- build-wheels
- label: "Upload release wheels to PyPI"
depends_on:
- block-upload-release-wheels
id: upload-release-wheels
agents:
queue: small_cpu_queue_postmerge
commands:
- "bash .buildkite/scripts/upload-release-wheels-pypi.sh"
# =============================================================================
# ROCm Release Pipeline (x86_64 only)
# =============================================================================
#
# vLLM version is determined by the Buildkite checkout (like CUDA pipeline).
# To build a specific version, trigger the build from that branch/tag.
#
# Environment variables for ROCm builds (set via Buildkite UI or schedule):
# ROCM_PYTHON_VERSION: Python version (default: 3.12)
# PYTORCH_ROCM_ARCH: GPU architectures (default: gfx90a;gfx942;gfx950;gfx1100;gfx1101;gfx1200;gfx1201;gfx1150;gfx1151)
# ROCM_UPLOAD_WHEELS: Upload to S3 (default: false for nightly, true for releases)
# ROCM_FORCE_REBUILD: Force rebuild base wheels, ignore S3 cache (default: false)
#
# Note: ROCm version is determined by BASE_IMAGE in docker/Dockerfile.rocm_base
# (currently rocm/dev-ubuntu-22.04:7.1-complete)
#
# =============================================================================
# ROCm Input Step - Collect build configuration (manual trigger only)
- input: "ROCm Wheel Release Build Configuration"
key: input-rocm-config
depends_on: ~ depends_on: ~
if: build.source == "ui"
fields:
- text: "Python Version"
key: "rocm-python-version"
default: "3.12"
hint: "Python version (e.g., 3.12)"
- text: "GPU Architectures"
key: "rocm-pytorch-rocm-arch"
default: "gfx90a;gfx942;gfx950;gfx1100;gfx1101;gfx1200;gfx1201;gfx1150;gfx1151"
hint: "Semicolon-separated GPU architectures"
- select: "Upload Wheels to S3"
key: "rocm-upload-wheels"
default: "true"
options:
- label: "No - Build only (nightly/dev)"
value: "false"
- label: "Yes - Upload to S3 (release)"
value: "true"
- select: "Force Rebuild Base Wheels"
key: "rocm-force-rebuild"
default: "false"
hint: "Ignore S3 cache and rebuild base wheels from scratch"
options:
- label: "No - Use cached wheels if available"
value: "false"
- label: "Yes - Rebuild even if cache exists"
value: "true"
# ROCm Job 1: Build ROCm Base Wheels (with S3 caching) - label: "Build and publish CPU release image"
- label: ":rocm: Build ROCm Base Wheels" depends_on: block-cpu-release-image-build
id: build-rocm-base-wheels
depends_on:
- step: input-rocm-config
allow_failure: true # Allow failure so non-UI builds can proceed (input step is skipped)
agents: agents:
queue: cpu_queue_postmerge queue: cpu_queue_postmerge
commands: commands:
# Set configuration and check cache - "aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7"
- | - "DOCKER_BUILDKIT=1 docker build --build-arg max_jobs=16 --build-arg GIT_REPO_CHECK=1 --tag public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:$(buildkite-agent meta-data get release-version) --tag public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:latest --progress plain --target vllm-openai -f docker/Dockerfile.cpu ."
set -euo pipefail - "docker push public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:$(buildkite-agent meta-data get release-version)"
# Get values from meta-data (set by input step) or use defaults
PYTHON_VERSION="$$(buildkite-agent meta-data get rocm-python-version 2>/dev/null || echo '')"
export PYTHON_VERSION="$${PYTHON_VERSION:-3.12}"
PYTORCH_ROCM_ARCH="$$(buildkite-agent meta-data get rocm-pytorch-rocm-arch 2>/dev/null || echo '')"
export PYTORCH_ROCM_ARCH="$${PYTORCH_ROCM_ARCH:-gfx90a;gfx942;gfx950;gfx1100;gfx1101;gfx1200;gfx1201;gfx1150;gfx1151}"
# Check for force rebuild flag
ROCM_FORCE_REBUILD="$${ROCM_FORCE_REBUILD:-}"
if [ -z "$${ROCM_FORCE_REBUILD}" ]; then
ROCM_FORCE_REBUILD="$$(buildkite-agent meta-data get rocm-force-rebuild 2>/dev/null || echo '')"
fi
echo "========================================"
echo "ROCm Base Wheels Build Configuration"
echo "========================================"
echo " PYTHON_VERSION: $${PYTHON_VERSION}"
echo " PYTORCH_ROCM_ARCH: $${PYTORCH_ROCM_ARCH}"
echo " ROCM_FORCE_REBUILD: $${ROCM_FORCE_REBUILD:-false}"
echo "========================================"
# Save resolved config for later jobs
buildkite-agent meta-data set "rocm-python-version" "$${PYTHON_VERSION}"
buildkite-agent meta-data set "rocm-pytorch-rocm-arch" "$${PYTORCH_ROCM_ARCH}"
# Check S3 cache for pre-built wheels
CACHE_KEY=$$(.buildkite/scripts/cache-rocm-base-wheels.sh key)
CACHE_PATH=$$(.buildkite/scripts/cache-rocm-base-wheels.sh path)
echo ""
echo "Cache key: $${CACHE_KEY}"
echo "Cache path: $${CACHE_PATH}"
# Save cache key for downstream jobs
buildkite-agent meta-data set "rocm-cache-key" "$${CACHE_KEY}"
CACHE_STATUS="miss"
if [ "$${ROCM_FORCE_REBUILD}" != "true" ]; then
CACHE_STATUS=$$(.buildkite/scripts/cache-rocm-base-wheels.sh check)
else
echo "Force rebuild requested, skipping cache check"
fi
if [ "$${CACHE_STATUS}" = "hit" ]; then
echo ""
echo "CACHE HIT! Downloading pre-built wheels..."
echo ""
.buildkite/scripts/cache-rocm-base-wheels.sh download
# Set the S3 path for the cached Docker image (for Job 2 to download)
S3_ARTIFACT_PATH="s3://$${S3_BUCKET}/rocm/cache/$${CACHE_KEY}"
buildkite-agent meta-data set "rocm-docker-image-s3-path" "$${S3_ARTIFACT_PATH}/rocm-base-image.tar.gz"
# Mark that we used cache (for Docker image handling)
buildkite-agent meta-data set "rocm-used-cache" "true"
echo ""
echo "Cache download complete. Skipping Docker build."
echo "Docker image will be downloaded from: $${S3_ARTIFACT_PATH}/rocm-base-image.tar.gz"
else
echo ""
echo "CACHE MISS. Building from scratch..."
echo ""
# Build full base image (for later vLLM build)
DOCKER_BUILDKIT=1 docker buildx build \
--file docker/Dockerfile.rocm_base \
--tag rocm/vllm-dev:base-$${BUILDKITE_BUILD_NUMBER} \
--build-arg PYTORCH_ROCM_ARCH="$${PYTORCH_ROCM_ARCH}" \
--build-arg PYTHON_VERSION="$${PYTHON_VERSION}" \
--build-arg USE_SCCACHE=1 \
--build-arg SCCACHE_BUCKET_NAME=vllm-build-sccache \
--build-arg SCCACHE_REGION_NAME=us-west-2 \
--build-arg SCCACHE_S3_NO_CREDENTIALS=0 \
--load \
.
# Build debs_wheel_release stage for wheel extraction
DOCKER_BUILDKIT=1 docker buildx build \
--file docker/Dockerfile.rocm_base \
--tag rocm-base-debs:$${BUILDKITE_BUILD_NUMBER} \
--target debs_wheel_release \
--build-arg PYTORCH_ROCM_ARCH="$${PYTORCH_ROCM_ARCH}" \
--build-arg PYTHON_VERSION="$${PYTHON_VERSION}" \
--build-arg USE_SCCACHE=1 \
--build-arg SCCACHE_BUCKET_NAME=vllm-build-sccache \
--build-arg SCCACHE_REGION_NAME=us-west-2 \
--build-arg SCCACHE_S3_NO_CREDENTIALS=0 \
--load \
.
# Extract wheels from Docker image
mkdir -p artifacts/rocm-base-wheels
container_id=$$(docker create rocm-base-debs:$${BUILDKITE_BUILD_NUMBER})
docker cp $${container_id}:/app/debs/. artifacts/rocm-base-wheels/
docker rm $${container_id}
echo "Extracted base wheels:"
ls -lh artifacts/rocm-base-wheels/
# Upload wheels to S3 cache for future builds
echo ""
echo "Uploading wheels to S3 cache..."
.buildkite/scripts/cache-rocm-base-wheels.sh upload
# Export base Docker image for reuse in vLLM build
mkdir -p artifacts/rocm-docker-image
docker save rocm/vllm-dev:base-$${BUILDKITE_BUILD_NUMBER} | gzip > artifacts/rocm-docker-image/rocm-base-image.tar.gz
echo "Docker image size:"
ls -lh artifacts/rocm-docker-image/
# Upload large Docker image to S3 (also cached by cache key)
S3_ARTIFACT_PATH="s3://$${S3_BUCKET}/rocm/cache/$${CACHE_KEY}"
echo "Uploading Docker image to $${S3_ARTIFACT_PATH}/"
aws s3 cp artifacts/rocm-docker-image/rocm-base-image.tar.gz "$${S3_ARTIFACT_PATH}/rocm-base-image.tar.gz"
# Save the S3 path for downstream jobs
buildkite-agent meta-data set "rocm-docker-image-s3-path" "$${S3_ARTIFACT_PATH}/rocm-base-image.tar.gz"
# Mark that we did NOT use cache
buildkite-agent meta-data set "rocm-used-cache" "false"
echo ""
echo "Build complete. Wheels cached for future builds."
fi
artifact_paths:
- "artifacts/rocm-base-wheels/*.whl"
env: env:
DOCKER_BUILDKIT: "1" DOCKER_BUILDKIT: "1"
S3_BUCKET: "vllm-wheels"
# ROCm Job 2: Build vLLM ROCm Wheel
- label: ":python: Build vLLM ROCm Wheel - x86_64"
id: build-rocm-vllm-wheel
depends_on:
- step: build-rocm-base-wheels
allow_failure: false
agents:
queue: cpu_queue_postmerge
timeout_in_minutes: 180
commands:
# Download artifacts and prepare Docker image
- |
set -euo pipefail
# Ensure git tags are up-to-date (Buildkite's default fetch doesn't update tags)
# This fixes version detection when tags are moved/force-pushed
echo "Fetching latest tags from origin..."
git fetch --tags --force origin
# Log tag information for debugging version detection
echo "========================================"
echo "Git Tag Verification"
echo "========================================"
echo "Current HEAD: $(git rev-parse HEAD)"
echo "git describe --tags: $(git describe --tags 2>/dev/null || echo 'No tags found')"
echo ""
echo "Recent tags (pointing to commits near HEAD):"
git tag -l --sort=-creatordate | head -5
echo "setuptools_scm version detection:"
pip install -q setuptools_scm 2>/dev/null || true
python3 -c "import setuptools_scm; print(' Detected version:', setuptools_scm.get_version())" 2>/dev/null || echo " (setuptools_scm not available in this environment)"
echo "========================================"
# Download wheel artifacts from current build
echo "Downloading wheel artifacts from current build"
buildkite-agent artifact download "artifacts/rocm-base-wheels/*.whl" .
# Download Docker image from S3 (too large for Buildkite artifacts)
DOCKER_IMAGE_S3_PATH="$$(buildkite-agent meta-data get rocm-docker-image-s3-path 2>/dev/null || echo '')"
if [ -z "$${DOCKER_IMAGE_S3_PATH}" ]; then
echo "ERROR: rocm-docker-image-s3-path metadata not found"
echo "This should have been set by the build-rocm-base-wheels job"
exit 1
fi
echo "Downloading Docker image from $${DOCKER_IMAGE_S3_PATH}"
mkdir -p artifacts/rocm-docker-image
aws s3 cp "$${DOCKER_IMAGE_S3_PATH}" artifacts/rocm-docker-image/rocm-base-image.tar.gz
# Load base Docker image and capture the tag
echo "Loading base Docker image..."
LOAD_OUTPUT=$$(gunzip -c artifacts/rocm-docker-image/rocm-base-image.tar.gz | docker load)
echo "$${LOAD_OUTPUT}"
# Extract the actual loaded image tag from "Loaded image: <tag>" output
# This avoids picking up stale images (like rocm/vllm-dev:nightly) already on the agent
BASE_IMAGE_TAG=$$(echo "$${LOAD_OUTPUT}" | grep "Loaded image:" | sed 's/Loaded image: //')
if [ -z "$${BASE_IMAGE_TAG}" ]; then
echo "ERROR: Failed to extract image tag from docker load output"
echo "Load output was: $${LOAD_OUTPUT}"
exit 1
fi
echo "Loaded base image: $${BASE_IMAGE_TAG}"
# Prepare base wheels for Docker build context
mkdir -p docker/context/base-wheels
touch docker/context/base-wheels/.keep
cp artifacts/rocm-base-wheels/*.whl docker/context/base-wheels/
echo "Base wheels for vLLM build:"
ls -lh docker/context/base-wheels/
# Get GPU architectures from meta-data
PYTORCH_ROCM_ARCH="$$(buildkite-agent meta-data get rocm-pytorch-rocm-arch 2>/dev/null || echo '')"
PYTORCH_ROCM_ARCH="$${PYTORCH_ROCM_ARCH:-gfx90a;gfx942;gfx950;gfx1100;gfx1101;gfx1200;gfx1201;gfx1150;gfx1151}"
echo "========================================"
echo "Building vLLM wheel with:"
echo " BUILDKITE_COMMIT: $${BUILDKITE_COMMIT}"
echo " BUILDKITE_BRANCH: $${BUILDKITE_BRANCH}"
echo " PYTORCH_ROCM_ARCH: $${PYTORCH_ROCM_ARCH}"
echo " BASE_IMAGE: $${BASE_IMAGE_TAG}"
echo "========================================"
# Build vLLM wheel using local checkout (REMOTE_VLLM=0)
DOCKER_BUILDKIT=1 docker build \
--file docker/Dockerfile.rocm \
--target export_vllm_wheel_release \
--output type=local,dest=rocm-dist \
--build-arg BASE_IMAGE="$${BASE_IMAGE_TAG}" \
--build-arg ARG_PYTORCH_ROCM_ARCH="$${PYTORCH_ROCM_ARCH}" \
--build-arg REMOTE_VLLM=0 \
--build-arg GIT_REPO_CHECK=1 \
--build-arg USE_SCCACHE=1 \
--build-arg SCCACHE_BUCKET_NAME=vllm-build-sccache \
--build-arg SCCACHE_REGION_NAME=us-west-2 \
--build-arg SCCACHE_S3_NO_CREDENTIALS=0 \
.
echo "Built vLLM wheel:"
ls -lh rocm-dist/*.whl
# Copy wheel to artifacts directory
mkdir -p artifacts/rocm-vllm-wheel
cp rocm-dist/*.whl artifacts/rocm-vllm-wheel/
echo "Final vLLM wheel:"
ls -lh artifacts/rocm-vllm-wheel/
artifact_paths:
- "artifacts/rocm-vllm-wheel/*.whl"
env:
DOCKER_BUILDKIT: "1"
S3_BUCKET: "vllm-wheels"
# ROCm Job 3: Upload Wheels to S3
- label: ":s3: Upload ROCm Wheels to S3"
id: upload-rocm-wheels
depends_on:
- step: build-rocm-vllm-wheel
allow_failure: false
agents:
queue: cpu_queue_postmerge
timeout_in_minutes: 60
commands:
# Download all wheel artifacts and run upload
- |
set -euo pipefail
# Check if upload is enabled (from env var, meta-data, or release branch)
ROCM_UPLOAD_WHEELS="$${ROCM_UPLOAD_WHEELS:-}"
if [ -z "$${ROCM_UPLOAD_WHEELS}" ]; then
# Try to get from meta-data (input form)
ROCM_UPLOAD_WHEELS="$$(buildkite-agent meta-data get rocm-upload-wheels 2>/dev/null || echo '')"
fi
echo "========================================"
echo "Upload check:"
echo " ROCM_UPLOAD_WHEELS: $${ROCM_UPLOAD_WHEELS}"
echo " BUILDKITE_BRANCH: $${BUILDKITE_BRANCH}"
echo "========================================"
# Skip upload if not enabled
if [ "$${ROCM_UPLOAD_WHEELS}" != "true" ]; then
echo "Skipping S3 upload (ROCM_UPLOAD_WHEELS != true, NIGHTLY != 1, not a release branch)"
echo "To enable upload, set 'Upload Wheels to S3' to 'Yes' in the build configuration"
exit 0
fi
echo "Upload enabled, proceeding..."
# Download artifacts from current build
echo "Downloading artifacts from current build"
buildkite-agent artifact download "artifacts/rocm-base-wheels/*.whl" .
buildkite-agent artifact download "artifacts/rocm-vllm-wheel/*.whl" .
# Run upload script
bash .buildkite/scripts/upload-rocm-wheels.sh
env:
DOCKER_BUILDKIT: "1"
S3_BUCKET: "vllm-wheels"
# ROCm Job 4: Annotate ROCm Wheel Release
- label: ":memo: Annotate ROCm wheel release"
id: annotate-rocm-release
depends_on:
- step: upload-rocm-wheels
allow_failure: true
- step: input-release-version
allow_failure: true
agents:
queue: cpu_queue_postmerge
commands:
- "bash .buildkite/scripts/annotate-rocm-release.sh"
env:
S3_BUCKET: "vllm-wheels"
# ROCm Job 5: Generate Root Index for ROCm Wheels (for release only)
# This is the job to create https://wheels.vllm.ai/rocm/ index allowing
# users to install with `uv pip install vllm --extra-index-url https://wheels.vllm.ai/rocm/`
- block: "Generate Root Index for ROCm Wheels for Release"
key: block-generate-root-index-rocm-wheels
depends_on: upload-rocm-wheels
- label: ":package: Generate Root Index for ROCm Wheels for Release"
depends_on: block-generate-root-index-rocm-wheels
id: generate-root-index-rocm-wheels
agents:
queue: cpu_queue_postmerge
commands:
- "bash tools/vllm-rocm/generate-rocm-wheels-root-index.sh"
env:
S3_BUCKET: "vllm-wheels"
VARIANT: "rocm700"
# ROCm Job 5: Build ROCm Release Docker Image
- label: ":docker: Build release image - x86_64 - ROCm"
id: build-rocm-release-image
depends_on:
- step: build-rocm-base-wheels
allow_failure: false
agents:
queue: cpu_queue_postmerge
timeout_in_minutes: 60
commands:
- |
set -euo pipefail
# Login to ECR
aws ecr-public get-login-password --region us-east-1 | \
docker login --username AWS --password-stdin public.ecr.aws/q9t5s3a7
# Download Docker image from S3 (set by build-rocm-base-wheels)
DOCKER_IMAGE_S3_PATH="$$(buildkite-agent meta-data get rocm-docker-image-s3-path 2>/dev/null || echo '')"
if [ -z "$${DOCKER_IMAGE_S3_PATH}" ]; then
echo "ERROR: rocm-docker-image-s3-path metadata not found"
exit 1
fi
echo "Downloading base image from $${DOCKER_IMAGE_S3_PATH}"
mkdir -p artifacts/rocm-docker-image
aws s3 cp "$${DOCKER_IMAGE_S3_PATH}" artifacts/rocm-docker-image/rocm-base-image.tar.gz
# Load base Docker image
echo "Loading base Docker image..."
LOAD_OUTPUT=$$(gunzip -c artifacts/rocm-docker-image/rocm-base-image.tar.gz | docker load)
BASE_IMAGE_TAG=$$(echo "$${LOAD_OUTPUT}" | grep "Loaded image:" | sed 's/Loaded image: //')
echo "Loaded base image: $${BASE_IMAGE_TAG}"
# Tag and push the base image to ECR
docker tag "$${BASE_IMAGE_TAG}" public.ecr.aws/q9t5s3a7/vllm-release-repo:$${BUILDKITE_COMMIT}-rocm-base
docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$${BUILDKITE_COMMIT}-rocm-base
echo "Pushed base image: public.ecr.aws/q9t5s3a7/vllm-release-repo:$${BUILDKITE_COMMIT}-rocm-base"
# Get GPU architectures from meta-data
PYTORCH_ROCM_ARCH="$$(buildkite-agent meta-data get rocm-pytorch-rocm-arch 2>/dev/null || echo '')"
PYTORCH_ROCM_ARCH="$${PYTORCH_ROCM_ARCH:-gfx90a;gfx942;gfx950;gfx1100;gfx1101;gfx1200;gfx1201;gfx1150;gfx1151}"
# Build vLLM ROCm release image using cached base
DOCKER_BUILDKIT=1 docker build \
--build-arg max_jobs=16 \
--build-arg BASE_IMAGE="$${BASE_IMAGE_TAG}" \
--build-arg ARG_PYTORCH_ROCM_ARCH="$${PYTORCH_ROCM_ARCH}" \
--build-arg USE_SCCACHE=1 \
--build-arg SCCACHE_BUCKET_NAME=vllm-build-sccache \
--build-arg SCCACHE_REGION_NAME=us-west-2 \
--build-arg SCCACHE_S3_NO_CREDENTIALS=0 \
--tag public.ecr.aws/q9t5s3a7/vllm-release-repo:$${BUILDKITE_COMMIT}-rocm \
--target vllm-openai \
--progress plain \
-f docker/Dockerfile.rocm .
# Push to ECR
docker push public.ecr.aws/q9t5s3a7/vllm-release-repo:$${BUILDKITE_COMMIT}-rocm
echo "Pushed: public.ecr.aws/q9t5s3a7/vllm-release-repo:$${BUILDKITE_COMMIT}-rocm"
env:
DOCKER_BUILDKIT: "1"
S3_BUCKET: "vllm-wheels"

117
.buildkite/scripts/annotate-release.sh
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@@ -1,117 +0,0 @@
#!/bin/bash
set -ex
# Get release version, default to 1.0.0.dev for nightly/per-commit builds
RELEASE_VERSION=$(buildkite-agent meta-data get release-version 2>/dev/null | sed 's/^v//')
if [ -z "${RELEASE_VERSION}" ]; then
RELEASE_VERSION="1.0.0.dev"
fi
buildkite-agent annotate --style 'info' --context 'release-workflow' << EOF
To download the wheel (by commit):
\`\`\`
aws s3 cp s3://vllm-wheels/${BUILDKITE_COMMIT}/vllm-${RELEASE_VERSION}-cp38-abi3-manylinux_2_31_x86_64.whl .
aws s3 cp s3://vllm-wheels/${BUILDKITE_COMMIT}/vllm-${RELEASE_VERSION}-cp38-abi3-manylinux_2_31_aarch64.whl .
(Optional) For CUDA 13.0:
aws s3 cp s3://vllm-wheels/${BUILDKITE_COMMIT}/vllm-${RELEASE_VERSION}+cu130-cp38-abi3-manylinux_2_35_x86_64.whl .
aws s3 cp s3://vllm-wheels/${BUILDKITE_COMMIT}/vllm-${RELEASE_VERSION}+cu130-cp38-abi3-manylinux_2_35_aarch64.whl .
(Optional) For CPU:
aws s3 cp s3://vllm-wheels/${BUILDKITE_COMMIT}/vllm-${RELEASE_VERSION}+cpu-cp38-abi3-manylinux_2_35_x86_64.whl .
aws s3 cp s3://vllm-wheels/${BUILDKITE_COMMIT}/vllm-${RELEASE_VERSION}+cpu-cp38-abi3-manylinux_2_35_aarch64.whl .
\`\`\`
To download and upload the image:
\`\`\`
# Download images:
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-x86_64
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-aarch64
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-x86_64-cu130
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-aarch64-cu130
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm-base
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm
docker pull public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:v${RELEASE_VERSION}
docker pull public.ecr.aws/q9t5s3a7/vllm-arm64-cpu-release-repo:v${RELEASE_VERSION}
# Tag and push images:
## CUDA
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-x86_64 vllm/vllm-openai:x86_64
docker tag vllm/vllm-openai:x86_64 vllm/vllm-openai:latest-x86_64
docker tag vllm/vllm-openai:x86_64 vllm/vllm-openai:v${RELEASE_VERSION}-x86_64
docker push vllm/vllm-openai:latest-x86_64
docker push vllm/vllm-openai:v${RELEASE_VERSION}-x86_64
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-x86_64-cu130 vllm/vllm-openai:x86_64-cu130
docker tag vllm/vllm-openai:x86_64-cu130 vllm/vllm-openai:latest-x86_64-cu130
docker tag vllm/vllm-openai:x86_64-cu130 vllm/vllm-openai:v${RELEASE_VERSION}-x86_64-cu130
docker push vllm/vllm-openai:latest-x86_64-cu130
docker push vllm/vllm-openai:v${RELEASE_VERSION}-x86_64-cu130
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-aarch64 vllm/vllm-openai:aarch64
docker tag vllm/vllm-openai:aarch64 vllm/vllm-openai:latest-aarch64
docker tag vllm/vllm-openai:aarch64 vllm/vllm-openai:v${RELEASE_VERSION}-aarch64
docker push vllm/vllm-openai:latest-aarch64
docker push vllm/vllm-openai:v${RELEASE_VERSION}-aarch64
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-aarch64-cu130 vllm/vllm-openai:aarch64-cu130
docker tag vllm/vllm-openai:aarch64-cu130 vllm/vllm-openai:latest-aarch64-cu130
docker tag vllm/vllm-openai:aarch64-cu130 vllm/vllm-openai:v${RELEASE_VERSION}-aarch64-cu130
docker push vllm/vllm-openai:latest-aarch64-cu130
docker push vllm/vllm-openai:v${RELEASE_VERSION}-aarch64-cu130
## ROCm
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT} vllm/vllm-openai-rocm:latest
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT} vllm/vllm-openai-rocm:v${RELEASE_VERSION}
docker push vllm/vllm-openai-rocm:latest
docker push vllm/vllm-openai-rocm:v${RELEASE_VERSION}
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm-base vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}-base
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}-base vllm/vllm-openai-rocm:latest-base
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}-base vllm/vllm-openai-rocm:v${RELEASE_VERSION}-base
docker push vllm/vllm-openai-rocm:latest-base
docker push vllm/vllm-openai-rocm:v${RELEASE_VERSION}-base
## CPU
docker tag public.ecr.aws/q9t5s3a7/vllm-cpu-release-repo:v${RELEASE_VERSION} vllm/vllm-openai-cpu:x86_64
docker tag vllm/vllm-openai-cpu:x86_64 vllm/vllm-openai-cpu:latest-x86_64
docker tag vllm/vllm-openai-cpu:x86_64 vllm/vllm-openai-cpu:v${RELEASE_VERSION}-x86_64
docker push vllm/vllm-openai-cpu:latest-x86_64
docker push vllm/vllm-openai-cpu:v${RELEASE_VERSION}-x86_64
docker tag public.ecr.aws/q9t5s3a7/vllm-arm64-cpu-release-repo:v${RELEASE_VERSION} vllm/vllm-openai-cpu:arm64
docker tag vllm/vllm-openai-cpu:arm64 vllm/vllm-openai-cpu:latest-arm64
docker tag vllm/vllm-openai-cpu:arm64 vllm/vllm-openai-cpu:v${RELEASE_VERSION}-arm64
docker push vllm/vllm-openai-cpu:latest-arm64
docker push vllm/vllm-openai-cpu:v${RELEASE_VERSION}-arm64
# Create multi-arch manifest:
docker manifest rm vllm/vllm-openai:latest
docker manifest create vllm/vllm-openai:latest vllm/vllm-openai:latest-x86_64 vllm/vllm-openai:latest-aarch64
docker manifest create vllm/vllm-openai:v${RELEASE_VERSION} vllm/vllm-openai:v${RELEASE_VERSION}-x86_64 vllm/vllm-openai:v${RELEASE_VERSION}-aarch64
docker manifest push vllm/vllm-openai:latest
docker manifest push vllm/vllm-openai:v${RELEASE_VERSION}
docker manifest rm vllm/vllm-openai:latest-cu130
docker manifest create vllm/vllm-openai:latest-cu130 vllm/vllm-openai:latest-x86_64-cu130 vllm/vllm-openai:latest-aarch64-cu130
docker manifest create vllm/vllm-openai:v${RELEASE_VERSION}-cu130 vllm/vllm-openai:v${RELEASE_VERSION}-x86_64-cu130 vllm/vllm-openai:v${RELEASE_VERSION}-aarch64-cu130
docker manifest push vllm/vllm-openai:latest-cu130
docker manifest push vllm/vllm-openai:v${RELEASE_VERSION}-cu130
docker manifest rm vllm/vllm-openai-cpu:latest || true
docker manifest create vllm/vllm-openai-cpu:latest vllm/vllm-openai-cpu:latest-x86_64 vllm/vllm-openai-cpu:latest-arm64
docker manifest create vllm/vllm-openai-cpu:v${RELEASE_VERSION} vllm/vllm-openai-cpu:v${RELEASE_VERSION}-x86_64 vllm/vllm-openai-cpu:v${RELEASE_VERSION}-arm64
docker manifest push vllm/vllm-openai-cpu:latest
docker manifest push vllm/vllm-openai-cpu:v${RELEASE_VERSION}
\`\`\`
EOF

112
.buildkite/scripts/annotate-rocm-release.sh
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@@ -1,112 +0,0 @@
#!/bin/bash
# SPDX-License-Identifier: Apache-2.0
# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
#
# Generate Buildkite annotation for ROCm wheel release
set -ex
# Get build configuration from meta-data
# Extract ROCm version dynamically from Dockerfile.rocm_base
# BASE_IMAGE format: rocm/dev-ubuntu-22.04:7.0-complete -> extracts "7.0"
ROCM_VERSION=$(grep -E '^ARG BASE_IMAGE=' docker/Dockerfile.rocm_base | sed -E 's/.*:([0-9]+\.[0-9]+).*/\1/' || echo "unknown")
PYTHON_VERSION=$(buildkite-agent meta-data get rocm-python-version 2>/dev/null || echo "3.12")
PYTORCH_ROCM_ARCH=$(buildkite-agent meta-data get rocm-pytorch-rocm-arch 2>/dev/null || echo "gfx90a;gfx942;gfx950;gfx1100;gfx1101;gfx1200;gfx1201;gfx1150;gfx1151")
# TODO: Enable the nightly build for ROCm
# Get release version, default to 1.0.0.dev for nightly/per-commit builds
RELEASE_VERSION=$(buildkite-agent meta-data get release-version 2>/dev/null || echo "")
if [ -z "${RELEASE_VERSION}" ]; then
RELEASE_VERSION="1.0.0.dev"
fi
# S3 URLs
S3_BUCKET="${S3_BUCKET:-vllm-wheels}"
S3_REGION="${AWS_DEFAULT_REGION:-us-west-2}"
S3_URL="http://${S3_BUCKET}.s3-website-${S3_REGION}.amazonaws.com"
# Format ROCm version for path (e.g., "7.1" -> "rocm710")
ROCM_VERSION_PATH="rocm$(echo "${ROCM_VERSION}" | tr -d '.')"
ROCM_PATH="rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}"
buildkite-agent annotate --style 'success' --context 'rocm-release-workflow' << EOF
## ROCm Wheel and Docker Image Releases
### Build Configuration
| Setting | Value |
|---------|-------|
| **ROCm Version** | ${ROCM_VERSION} |
| **Python Version** | ${PYTHON_VERSION} |
| **GPU Architectures** | ${PYTORCH_ROCM_ARCH} |
| **Branch** | \`${BUILDKITE_BRANCH}\` |
| **Commit** | \`${BUILDKITE_COMMIT}\` |
### :package: Installation
**Install from this build (by commit):**
\`\`\`bash
pip install vllm --extra-index-url ${S3_URL}/${ROCM_PATH}/ --trusted-host ${S3_BUCKET}.s3-website-${S3_REGION}.amazonaws.com
# Example for ROCm ${ROCM_VERSION}:
pip install vllm --extra-index-url ${S3_URL}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/ --trusted-host ${S3_BUCKET}.s3-website-${S3_REGION}.amazonaws.com
\`\`\`
**Install from nightly (if published):**
\`\`\`bash
pip install vllm --extra-index-url ${S3_URL}/rocm/nightly/ --trusted-host ${S3_BUCKET}.s3-website-${S3_REGION}.amazonaws.com
\`\`\`
### :floppy_disk: Download Wheels Directly
\`\`\`bash
# List all ROCm wheels
aws s3 ls s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/
# Download specific wheels
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/vllm-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/torch-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/triton-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/triton-kernels-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/torchvision-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/torchaudio-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/amdsmi-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/amd_aiter-*.whl .
aws s3 cp s3://${S3_BUCKET}/rocm/${BUILDKITE_COMMIT}/${ROCM_VERSION_PATH}/flash-attn-*.whl .
\`\`\`
### :gear: Included Packages
- **vllm**: vLLM with ROCm support
- **torch**: PyTorch built for ROCm ${ROCM_VERSION}
- **triton**: Triton
- **triton-kernels**: Triton kernels
- **torchvision**: TorchVision for ROCm PyTorch
- **torchaudio**: Torchaudio for ROCm PyTorch
- **amdsmi**: AMD SMI Python bindings
- **amd_aiter**: Aiter for ROCm
- **flash-attn**: Flash Attention for ROCm
### :warning: Notes
- These wheels are built for **ROCm ${ROCM_VERSION}** and will NOT work with CUDA GPUs
- Supported GPU architectures: ${PYTORCH_ROCM_ARCH}
- Platform: Linux x86_64 only
### :package: Docker Image Release
To download and upload the image:
\`\`\`
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm-base
docker pull public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm-base vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}-base
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}-base vllm/vllm-openai-rocm:latest-base
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}-base vllm/vllm-openai-rocm:v${RELEASE_VERSION}-base
docker push vllm/vllm-openai-rocm:latest-base
docker push vllm/vllm-openai-rocm:v${RELEASE_VERSION}-base
docker tag public.ecr.aws/q9t5s3a7/vllm-release-repo:${BUILDKITE_COMMIT}-rocm vllm/vllm-openai-rocm:${BUILDKITE_COMMIT}
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT} vllm/vllm-openai-rocm:latest
docker tag vllm/vllm-openai-rocm:${BUILDKITE_COMMIT} vllm/vllm-openai-rocm:v${RELEASE_VERSION}
docker push vllm/vllm-openai-rocm:latest
docker push vllm/vllm-openai-rocm:v${RELEASE_VERSION}
\`\`\`
EOF

140
.buildkite/scripts/cache-rocm-base-wheels.sh
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@@ -1,140 +0,0 @@
#!/usr/bin/env bash
# SPDX-License-Identifier: Apache-2.0
# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
#
# Cache helper for ROCm base wheels
#
# This script manages caching of pre-built ROCm base wheels (torch, triton, etc.)
# to avoid rebuilding them when Dockerfile.rocm_base hasn't changed.
#
# Usage:
# cache-rocm-base-wheels.sh check - Check if cache exists, outputs "hit" or "miss"
# cache-rocm-base-wheels.sh upload - Upload wheels to cache
# cache-rocm-base-wheels.sh download - Download wheels from cache
# cache-rocm-base-wheels.sh key - Output the cache key
#
# Environment variables:
# S3_BUCKET - S3 bucket name (default: vllm-wheels)
# PYTHON_VERSION - Python version (affects cache key)
# PYTORCH_ROCM_ARCH - GPU architectures (affects cache key)
#
# Note: ROCm version is determined by BASE_IMAGE in Dockerfile.rocm_base,
# so changes to ROCm version are captured by the Dockerfile hash.
set -euo pipefail
BUCKET="${S3_BUCKET:-vllm-wheels}"
DOCKERFILE="docker/Dockerfile.rocm_base"
CACHE_PREFIX="rocm/cache"
# Generate hash from Dockerfile content + build args
generate_cache_key() {
# Include Dockerfile content
if [[ ! -f "$DOCKERFILE" ]]; then
echo "ERROR: Dockerfile not found: $DOCKERFILE" >&2
exit 1
fi
local dockerfile_hash=$(sha256sum "$DOCKERFILE" | cut -c1-16)
# Include key build args that affect the output
# These should match the ARGs in Dockerfile.rocm_base that change the build output
# Note: ROCm version is determined by BASE_IMAGE in the Dockerfile, so it's captured by dockerfile_hash
local args_string="${PYTHON_VERSION:-}|${PYTORCH_ROCM_ARCH:-}"
local args_hash=$(echo "$args_string" | sha256sum | cut -c1-8)
echo "${dockerfile_hash}-${args_hash}"
}
CACHE_KEY=$(generate_cache_key)
CACHE_PATH="s3://${BUCKET}/${CACHE_PREFIX}/${CACHE_KEY}/"
case "${1:-}" in
check)
echo "Checking cache for key: ${CACHE_KEY}" >&2
echo "Cache path: ${CACHE_PATH}" >&2
echo "Variables used in cache key:" >&2
echo " PYTHON_VERSION: ${PYTHON_VERSION:-<not set>}" >&2
echo " PYTORCH_ROCM_ARCH: ${PYTORCH_ROCM_ARCH:-<not set>}" >&2
# Check if cache exists by listing objects
# We look for at least one .whl file
echo "Running: aws s3 ls ${CACHE_PATH}" >&2
S3_OUTPUT=$(aws s3 ls "${CACHE_PATH}" 2>&1) || true
echo "S3 ls output:" >&2
echo "$S3_OUTPUT" | head -5 >&2
if echo "$S3_OUTPUT" | grep -q "\.whl"; then
echo "hit"
else
echo "miss"
fi
;;
upload)
echo "========================================"
echo "Uploading wheels to cache"
echo "========================================"
echo "Cache key: ${CACHE_KEY}"
echo "Cache path: ${CACHE_PATH}"
echo ""
if [[ ! -d "artifacts/rocm-base-wheels" ]]; then
echo "ERROR: artifacts/rocm-base-wheels directory not found" >&2
exit 1
fi
WHEEL_COUNT=$(find artifacts/rocm-base-wheels -maxdepth 1 -name '*.whl' 2>/dev/null | wc -l)
if [[ "$WHEEL_COUNT" -eq 0 ]]; then
echo "ERROR: No wheels found in artifacts/rocm-base-wheels/" >&2
exit 1
fi
echo "Uploading $WHEEL_COUNT wheels..."
aws s3 cp --recursive artifacts/rocm-base-wheels/ "${CACHE_PATH}"
echo ""
echo "Cache upload complete!"
echo "========================================"
;;
download)
echo "========================================"
echo "Downloading wheels from cache"
echo "========================================"
echo "Cache key: ${CACHE_KEY}"
echo "Cache path: ${CACHE_PATH}"
echo ""
mkdir -p artifacts/rocm-base-wheels
aws s3 cp --recursive "${CACHE_PATH}" artifacts/rocm-base-wheels/
echo ""
echo "Downloaded wheels:"
find artifacts/rocm-base-wheels -maxdepth 1 -name '*.whl' -exec ls -lh {} \;
WHEEL_COUNT=$(find artifacts/rocm-base-wheels -maxdepth 1 -name '*.whl' 2>/dev/null | wc -l)
echo ""
echo "Total: $WHEEL_COUNT wheels"
echo "========================================"
;;
key)
echo "${CACHE_KEY}"
;;
path)
echo "${CACHE_PATH}"
;;
*)
echo "Usage: $0 {check|upload|download|key|path}" >&2
echo "" >&2
echo "Commands:" >&2
echo " check - Check if cache exists, outputs 'hit' or 'miss'" >&2
echo " upload - Upload wheels from artifacts/rocm-base-wheels/ to cache" >&2
echo " download - Download wheels from cache to artifacts/rocm-base-wheels/" >&2
echo " key - Output the cache key" >&2
echo " path - Output the full S3 cache path" >&2
exit 1
;;
esac

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