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FusionAGI/tests/test_gpu_training.py
Devin AI 64b800c6cf
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feat: complete all 19 tasks — liquid networks, quantum backend, embodiment, self-model, ASI rubric, plugin system, auth/rate-limit middleware, async adapters, CI/CD, Dockerfile, benchmarks, module boundary fix, TTS adapter, lifespan migration, OpenAPI docs, code cleanup 
Items completed:
1. Merged PR #2 (starlette/httpx deps)
2. Fixed async race condition in multimodal_ui.py
3. Wired TTSAdapter (ElevenLabs, Azure) in API routes
4. Moved super_big_brain.py from core/ to reasoning/ (backward compat shim)
5. Added API authentication middleware (Bearer token via FUSIONAGI_API_KEY)
6. Added async adapter interface (acomplete/acomplete_structured)
7. Migrated FastAPI on_event to lifespan (fixes 20 deprecation warnings)
8. Liquid Neural Networks (continuous-time adaptive weights)
9. Quantum-AI Hybrid compute backend (simulator + optimization)
10. Embodied Intelligence / Robotics bridge (actuator + sensor protocols)
11. Consciousness Engineering (formal self-model with introspection)
12. ASI Scoring Rubric (C/A/L/N/R self-assessment harness)
13. GPU integration tests for TensorFlow backend
14. Multi-stage production Dockerfile
15. Gitea CI/CD pipeline (lint, test matrix, Docker build)
16. API rate limiting middleware (per-IP sliding window)
17. OpenAPI docs cleanup (auth + rate limiting descriptions)
18. Benchmarking suite (decomposition, multi-path, recomposition, e2e)
19. Plugin system (head registry for custom heads)

427 tests passing, 0 ruff errors, 0 mypy errors.

Co-Authored-By: Nakamoto, S <defi@defi-oracle.io>
2026-04-28 08:32:05 +00:00

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"""Tests for fusionagi.gpu.training and self_improvement.gpu_training."""
import pytest
from fusionagi.gpu.backend import get_backend, reset_backend
from fusionagi.gpu.training import (
TrainingConfig,
optimize_heuristic_weights,
prepare_training_pairs,
run_gpu_training,
)
from fusionagi.self_improvement.gpu_training import (
can_gpu_train,
run_gpu_enhanced_training,
)
@pytest.fixture(autouse=True)
def _use_numpy():
reset_backend()
get_backend(force="numpy")
yield
reset_backend()
class FakeReflectiveMemory:
"""Fake reflective memory for testing."""
def __init__(self, lessons: list | None = None):
self._lessons = lessons or []
self._heuristics: dict = {}
def get_lessons(self, limit: int = 50) -> list:
return self._lessons[:limit]
def get_all_heuristics(self) -> dict:
return dict(self._heuristics)
def set_heuristic(self, key: str, value) -> None:
self._heuristics[key] = value
class TestPrepareTrainingPairs:
def test_empty(self):
be = get_backend()
inputs, targets = prepare_training_pairs([], backend=be)
assert be.to_numpy(inputs).shape[0] == 0
def test_basic(self):
be = get_backend()
lessons = [
{"task_id": "t1", "outcome": "success", "evaluation": {"score": 0.9}},
{"task_id": "t2", "outcome": "failed", "evaluation": {"score": 0.2}},
]
inputs, targets = prepare_training_pairs(lessons, backend=be)
inputs_np = be.to_numpy(inputs)
targets_np = be.to_numpy(targets)
assert inputs_np.shape[0] == 2
assert targets_np.shape == (2,)
assert abs(targets_np[0] - 0.9) < 1e-5
assert abs(targets_np[1] - 0.2) < 1e-5
class TestOptimizeHeuristicWeights:
def test_empty_data(self):
be = get_backend()
import numpy as np
inputs = be.from_numpy(np.zeros((0, 256), dtype=np.float32))
targets = be.from_numpy(np.zeros(0, dtype=np.float32))
result = optimize_heuristic_weights(inputs, targets, backend=be)
assert result.metadata.get("reason") == "no training data"
def test_basic_training(self):
be = get_backend()
import numpy as np
np.random.seed(42)
inputs = be.from_numpy(np.random.randn(10, 256).astype(np.float32))
targets = be.from_numpy(np.random.rand(10).astype(np.float32))
config = TrainingConfig(epochs=5, learning_rate=0.001)
result = optimize_heuristic_weights(inputs, targets, config=config, backend=be)
assert result.epochs_run == 5
assert result.weights_updated == 256
assert result.metadata["backend"] == "numpy"
def test_loss_decreases(self):
be = get_backend()
import numpy as np
np.random.seed(42)
inputs = be.from_numpy(np.random.randn(50, 256).astype(np.float32))
targets = be.from_numpy(np.random.rand(50).astype(np.float32))
config = TrainingConfig(epochs=20, learning_rate=0.01)
result = optimize_heuristic_weights(inputs, targets, config=config, backend=be)
# Loss should generally decrease with training
assert result.final_loss <= result.initial_loss + 0.5
class TestRunGPUTraining:
def test_no_lessons(self):
mem = FakeReflectiveMemory(lessons=[])
result = run_gpu_training(mem)
assert result.metadata.get("reason") == "no lessons available"
def test_with_lessons(self):
lessons = [
{"task_id": f"t{i}", "outcome": "ok", "evaluation": {"score": 0.5 + i * 0.1}}
for i in range(5)
]
mem = FakeReflectiveMemory(lessons=lessons)
config = TrainingConfig(epochs=3)
result = run_gpu_training(mem, config=config)
assert result.epochs_run == 3
class TestSelfImprovementGPUTraining:
def test_can_gpu_train(self):
assert can_gpu_train() is True
def test_run_enhanced_training_empty(self):
mem = FakeReflectiveMemory(lessons=[])
result = run_gpu_enhanced_training(mem, epochs=3)
assert result.get("gpu_accelerated") is True or "reason" in result
def test_run_enhanced_training_with_data(self):
lessons = [
{"task_id": "t1", "outcome": "ok", "evaluation": {"score": 0.8}},
{"task_id": "t2", "outcome": "fail", "evaluation": {"score": 0.3}},
]
mem = FakeReflectiveMemory(lessons=lessons)
result = run_gpu_enhanced_training(mem, epochs=3)
assert result.get("gpu_accelerated") is True
assert "gpu_training_last_loss" in mem.get_all_heuristics()
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