{ "id": "resp_05bb7fa0fc62fa280068f41e4584708195bbcbb6028e55381a", "object": "response", "created_at": 1760828997, "status": "incomplete", "background": false, "billing": { "payer": "developer" }, "error": null, "incomplete_details": { "reason": "max_output_tokens" }, "instructions": "Respond in a friendly, educational tone.", "max_output_tokens": 150, "max_tool_calls": null, "model": "gpt-4o-mini-2024-07-18", "output": [ { "id": "msg_05bb7fa0fc62fa280068f41e462e3c81959b33430391731815", "type": "message", "status": "incomplete", "content": [ { "type": "output_text", "annotations": [], "logprobs": [], "text": "Sure! Imagine your regular computer as a very fast and efficient librarian. It sorts through books (data) one at a time, very quickly, to find the information you need. \n\nNow, think of quantum computing as a magical librarian who can read multiple books at the same time! This magic comes from the principles of quantum mechanics, which is the science of very tiny particles.\n\nHere are a few key ideas:\n\n1. **Bits vs. Qubits**: Regular computers use bits, which can be either a 0 or a 1. Quantum computers use qubits, which can be both 0 and 1 at the same time thanks to a property called superposition. This means they can process a lot more information simultaneously.\n\n2" } ], "role": "assistant" } ], "parallel_tool_calls": true, "previous_response_id": null, "prompt_cache_key": null, "reasoning": { "effort": null, "summary": null }, "safety_identifier": null, "service_tier": "default", "store": true, "temperature": 0.7, "text": { "format": { "type": "text" }, "verbosity": "medium" }, "tool_choice": "auto", "tools": [], "top_logprobs": 0, "top_p": 0.9, "truncation": "disabled", "usage": { "input_tokens": 26, "input_tokens_details": { "cached_tokens": 0 }, "output_tokens": 150, "output_tokens_details": { "reasoning_tokens": 0 }, "total_tokens": 176 }, "user": null, "metadata": { "user_id": "test_user_123", "session_id": "session_456", "purpose": "conformance_test" } }