def main(num_replicas, batch_size, method, filename): for node_id in ["up", "down"]: with serve_benchmark.using_router(node_id): serve_benchmark.create_endpoint(node_id) config = serve_benchmark.BackendConfig( max_batch_size=batch_size, num_replicas=num_replicas ) serve_benchmark.create_backend(noop, node_id, backend_config=config) serve_benchmark.link(node_id, node_id) with serve_benchmark.using_router("up"): up_handle = serve_benchmark.get_handle("up") with serve_benchmark.using_router("down"): down_handle = serve_benchmark.get_handle("down") # start = time.perf_counter() oids = [] if method == "chain": # closed loop latencies for i in range(num_queries): r = up_handle.options(tracing_metadata={"pipeline-id": i}).remote( data=image_data ) oid = down_handle.options( tracing_metadata={"pipeline-id": i} ).remote( data=r # torch tensor ) ray.wait([oid], 1) elif method == "group": res = [ up_handle.options(tracing_metadata={"pipeline-id": i}).remote( sleep_time=0.01, data=image_data ) for i in range(num_queries) ] oids = [ down_handle.options(tracing_metadata={"pipeline-id": i}).remote( sleep_time=0.02, data=d # torch tensor ) for i, d in enumerate(res) ] else: raise RuntimeError("Unreachable") # print(f"Submission time {time.perf_counter() - start}") # end = time.perf_counter() # duration = end - start # qps = num_queries / duration # print(f"Throughput {qps}") trace_file = filename or tempfile.mkstemp(suffix=".json")[1] with open(trace_file, "w") as f: json.dump(serve_benchmark.get_trace(), f) ray.timeline(f"ray_trace_{batch_size}-{method}.json") print(f"Serve trace file written to {trace_file}")
def __init__(self, vertex_config, model_name): super().__init__() handle_list = list() for node_id in vertex_config.keys(): backend_config = vertex_config[node_id] with serve_benchmark.using_router(node_id): serve_benchmark.create_endpoint(node_id) config = serve_benchmark.BackendConfig(**backend_config) if node_id == "prepoc": min_img_size = 224 transform = transforms.Compose([ transforms.Resize(min_img_size), transforms.ToTensor(), transforms.Normalize( mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225], ), ]) serve_benchmark.create_backend(Transform, node_id, transform, backend_config=config) elif node_id == "model": serve_benchmark.create_backend( PredictModelPytorch, node_id, model_name, True, backend_config=config, ) serve_benchmark.link(node_id, node_id) handle_list.append(serve_benchmark.get_handle(node_id)) self.chain_handle = ChainHandle(handle_list)
def __init__(self, max_batch_size, pipeline_length): self.plength = pipeline_length self.handles = list() for index in range(self.plength): node_id = f"service-{index}" with serve_benchmark.using_router(node_id): serve_benchmark.create_endpoint(node_id) config = serve_benchmark.BackendConfig( max_batch_size=max_batch_size, num_replicas=1) serve_benchmark.create_backend(noop, node_id, backend_config=config) serve_benchmark.link(node_id, node_id) self.handles.append(serve_benchmark.get_handle(node_id))
def main(num_replicas, method): for node_id in ["up", "down"]: with serve_benchmark.using_router(node_id): serve_benchmark.create_endpoint(node_id) config = serve_benchmark.BackendConfig(max_batch_size=1, num_replicas=num_replicas) serve_benchmark.create_backend(noop, node_id, backend_config=config) serve_benchmark.link(node_id, node_id) with serve_benchmark.using_router("up"): up_handle = serve_benchmark.get_handle("up") with serve_benchmark.using_router("down"): down_handle = serve_benchmark.get_handle("down") start = time.perf_counter() oids = [] if method == "chain": for i in range(num_queries): r = up_handle.options(tracing_metadata={ "pipeline-id": i }).remote(sleep_time=0.01, data=image_data) r = down_handle.options(tracing_metadata={ "pipeline-id": i }).remote( sleep_time=0.02, data=r # torch tensor ) oids.append(r) elif method == "group": res = [ up_handle.options(tracing_metadata={ "pipeline-id": i }).remote(sleep_time=0.01, data=image_data) for i in range(num_queries) ] oids = [ down_handle.options(tracing_metadata={ "pipeline-id": i }).remote( sleep_time=0.02, data=d # torch tensor ) for i, d in enumerate(res) ] else: raise RuntimeError("Unreachable") print(f"Submission time {time.perf_counter() - start}") ray.wait(oids, len(oids)) end = time.perf_counter() duration = end - start qps = num_queries / duration print(f"Throughput {qps}") _, trace_file = tempfile.mkstemp(suffix=".json") with open(trace_file, "w") as f: json.dump(serve_benchmark.get_trace(), f) print(f"trace file written to {trace_file}")