hf_text-generation-inference/integration-tests/models/test_flash_llama_gptq.py

79 lines
2.3 KiB
Python

import pytest
from testing_utils import is_flaky_async, SYSTEM, require_backend_async
@pytest.fixture(scope="module")
def flash_llama_gptq_handle(launcher):
with launcher(
"astronomer/Llama-3-8B-Instruct-GPTQ-4-Bit", num_shard=2, quantize="gptq"
) as handle:
yield handle
@pytest.fixture(scope="module")
async def flash_llama_gptq(flash_llama_gptq_handle):
await flash_llama_gptq_handle.health()
return flash_llama_gptq_handle.client
@pytest.mark.release
@pytest.mark.asyncio
@pytest.mark.private
@is_flaky_async(max_attempts=5)
async def test_flash_llama_gptq(flash_llama_gptq, response_snapshot):
response = await flash_llama_gptq.generate(
"Test request", max_new_tokens=10, decoder_input_details=True
)
assert response.details.generated_tokens == 10
assert response.generated_text == "\nTest request\nTest request\nTest request\n"
if SYSTEM != "rocm":
# Logits were taken on an Nvidia GPU, and are too far off to be meaningfully compared.
assert response == response_snapshot
@pytest.mark.release
@pytest.mark.asyncio
@pytest.mark.private
@require_backend_async("cuda")
async def test_flash_llama_gptq_all_params(flash_llama_gptq, response_snapshot):
# TODO: investigate why exllamav2 gptq kernel is this much more non-deterministic on ROCm vs on CUDA.
response = await flash_llama_gptq.generate(
"Test request",
max_new_tokens=10,
repetition_penalty=1.2,
return_full_text=True,
temperature=0.5,
top_p=0.9,
top_k=10,
truncate=5,
typical_p=0.9,
watermark=True,
decoder_input_details=True,
seed=0,
)
assert response.details.generated_tokens == 10
assert response == response_snapshot
@pytest.mark.release
@pytest.mark.asyncio
@pytest.mark.private
@require_backend_async("cuda")
async def test_flash_llama_gptq_load(
flash_llama_gptq, generate_load, response_snapshot
):
# TODO: investigate why exllamav2 gptq kernel is this much more non-deterministic on ROCm vs on CUDA.
responses = await generate_load(
flash_llama_gptq, "Test request", max_new_tokens=10, n=4
)
assert len(responses) == 4
assert all([r.generated_text == responses[0].generated_text for r in responses])
assert responses == response_snapshot