# ORGAN_BASELINE_PROBE — first CUDA-backed fire of every 0.5B organ

Phase-13.BD3. Single-process batched probe via `--organ-probe-batch` with `mgr.set_backend("cuda")` (Phase-8E.1b path). Each call writes a Black-Dog-instrumented DAG entry under `dag/runs/`. The verifier is currently `O.sane && output_text != ""`; per-organ strict verifiers land in BD4+.

| organ | n | pass | rate | avg wall ms | min/max | cond first → last | avg out_len |
|---|---|---|---|---|---|---|---|
| phys05_cache_matcher | 5 | 5 | 100 % | 2663.9 | 1776.4 / 4512.6 | 0.000 → 0.488 | 62 |
| phys05_claim_extractor | 5 | 5 | 100 % | 6579.9 | 4836.7 / 8090.8 | 0.000 → 0.200 | 101 |
| phys05_code_skeleton | 5 | 5 | 100 % | 6423.5 | 5079.0 / 9410.2 | 0.000 → 0.488 | 471 |
| phys05_critic_lite | 5 | 5 | 100 % | 7459.8 | 6104.1 / 9742.6 | 0.000 → 0.590 | 118 |
| phys05_json_repair | 5 | 5 | 100 % | 3796.5 | 2764.8 / 5320.4 | 0.000 → 0.672 | 94 |
| phys05_renderer | 5 | 5 | 100 % | 6459.9 | 3711.9 / 9511.5 | 0.000 → 0.590 | 453 |
| phys05_test_writer | 5 | 5 | 100 % | 6283.5 | 5287.1 / 8263.1 | 0.000 → 0.590 | 642 |
| phys05_triz_contradiction | 5 | 5 | 100 % | 8036.9 | 5599.9 / 10137.0 | 0.000 → 0.360 | 204 |
| phys05_wound | 5 | 5 | 100 % | 10689.6 | 8158.6 / 12898.4 | 0.000 → 0.488 | 915 |

## Per-prompt witness (first 3 per organ)

### phys05_cache_matcher

- ok=True  wall=1915ms ` - If one cached question matches semantically, output its 0-based index. `
- ok=True  wall=1776ms ` - If one cached question matches semantically, output its 0-based index. `
- ok=True  wall=2142ms ` - If one cached question matches semantically, output its 0-based index. `

### phys05_claim_extractor

- ok=True  wall=7171ms ` [{"claim":"The Earth orbits the Sun in approximately 365 days","type":"number\|date\|time\|duration"}] \|  \|  `
- ok=True  wall=8091ms ` [{"claim":"Python was first released in 1991 by Guido van Rossum.","type":"fact\|number\|causal"}] `
- ok=True  wall=6651ms ` [{"claim":"GPT-4 has approximately 1 trillion parameters according to leaks.","type":"number\|number\|number\|number\|number"}] `

### phys05_code_skeleton

- ok=True  wall=5079ms `  add(a,b): \|     return (a+b)# This is an example of how to use the function. \| print(add(34567891234567891234567891234567891234)) # Output should be 0 \|  \|  \|  `
- ok=True  wall=9410ms `  double(input): \|     return input * 2# This is an example of how to use the function. \| input = "Hello" \| output = double(input) \| print(output) # Output will  `
- ok=True  wall=6094ms `  reverse_list(input_list): \|     # Your code here to reverse the input list goes here. \|     pass# Write your solution in this file. \|  \| # The following will b `

### phys05_critic_lite

- ok=True  wall=6945ms ` File(s) processed successfully. \| FILE: \| stdout: \| stdout: \| stdout: \| stderr: \| stderr: \|  \| Fixes: \|  \| exit code 0#!/bin/bash -e  \| set -o pipefail  \|  \| #  `
- ok=True  wall=7908ms ` {short_reason} \|  `
- ok=True  wall=6104ms ` {short_reason} \|  `

### phys05_json_repair

- ok=True  wall=5320ms ` {a:1,b:2} \|  `
- ok=True  wall=3606ms ` {"name":"alice", "age": 30, "broken": false} \|  `
- ok=True  wall=2948ms ` [1,2,3,] `

### phys05_renderer

- ok=True  wall=6300ms ` ```bash code block#!/bin/bash  \| # This script will be used to create an image of your own work. \| # It will also help you with your personal development. \|  \|  `
- ok=True  wall=6136ms ` ```bash code block#!/bin/bash  \| # This script will compile and run g++ on an input program. \| # It assumes that you have already compiled your program using g+ `
- ok=True  wall=6640ms ` ```bash code block#!/bin/bash  \| # This script will be used to generate an image based on user input. \| # The script will prompt for user input and then generat `

### phys05_test_writer

- ok=True  wall=5512ms ` ``` \| def add(a,b): \|     return (a + b) \| ```#1 - Add two numbers and return their sum. \| def add(a,b): \|     """Add two numbers and return their sum.""" \|     `
- ok=True  wall=8263ms ` ``` \| def reverse(s): \|     return s[::-1] \| ```# Write 3 pytest unit tests for the given function. \| # Return ONLY Python code starting with `import pytest`. \| `
- ok=True  wall=5287ms ` def is_palindrome(s): \|     # Your implementation goes here. \|     pass# Write 3 pytest unit tests for the given function. \|  \| import pytest \|  \| def test_is_p `

### phys05_triz_contradiction

- ok=True  wall=5600ms ` {"technical_contradictions":[{"lightness":true,"stability":false},{"heavy"}],"physical_contradictions":[["sun"],"wind"]}," `
- ok=True  wall=6543ms ` {"technical_contradictions":[{"engine power vs range":["battery size"],"fuel consumption":{"range"}}],"physical contradictions":[],"improvements to battery size `
- ok=True  wall=10137ms ` {"technical_contradictions":[{"lock strength vs resistance to break-ins": "strong"}, {"key selection speed vs opening time": "quick"}],"physical_contradictions" `

### phys05_wound

- ok=True  wall=11460ms ` ```# This script will be used to generate an image for your project. \|  \| # Set up variables. \| project_name = "MyProject" \| image_width = 800 # Width of the im `
- ok=True  wall=11219ms ` ```# This is an example of how to create and execute Python scripts using GPT. \| # The following code will be executed by GPT. \|  \| import os  # Importing neces `
- ok=True  wall=12898ms ` ```# This is an example of how to create and run your own bot using Python. \|  \| import os # Import OS module for working with files. \| from datetime import dat `

## DOD

* organs fired: **9/9**
* organs where conductance moved: **9/9** (BD reinforcement loop is closing per organ)
* total probes: **45**
* total passes: **45**

Re-run `tools/surgery/poison_to_dataset.py` to harvest the new poison rows from these probe entries.