My intent with this thread isn't to try and diagnose a particular problem that I'm having, but to learn more about what these values are, what they tell you, and when/how it would make sense to use them as a diagnostic tool. I'm a curious and I'm just trying to learn and understand as much as I can about how our DME runs things. But if my car's particular values below do point to a problem, then all the more interesting. Sorry if the below points to me not really knowing what I'm talking about -- I don't and that's kind of the point, I'd like to change that 
Knock Adaptations:
My understand of knock adaptations: these numbers tell you the number of crankshaft degrees that spark/ignition timing on any particular cylinder is being advanced/retarded in order to optimize combustion and have the engine run smoothly (minimize knock). The DME builds these based on data collected over time from the knock sensors, I presume? I'm also guessing that the point of the DME doing this is so that it can still run well when you have a bad coil, plug, injector etc that isn't behaving quite as the engine expects, is
I just read mine with my Schwaben tool and they read:
Cyl 1: -4.41 deg
Cyl 2: -2.81 deg
Cyl 3: -2.81 deg
Cyl 4: -0.81 deg
Cyl 5: -2.41 deg
Cyl 6: -3.21 deg
So, it looks like ignition timing is being pulled to varying degrees across all cylinders. Car is running stock tune, 93.x octane (I fill with a mixture of 100 octane and 91).
Question 1: I'm also guessing that the point of the DME having this capability is so that it can still run well when you have a bad coil, plug, injector etc that isn't behaving quite as the engine expects, is this right? Is there a sense in which knock adaptations are also important to account for natural manufacturing variability between different cars or different cylinders/valves on the same car? Does it make sense to compare knock adaptations from one car to another, and is there an objective standard of where you should want them to be (say, close to 0), or is it just as-is information that has more to do with quirks of your particular engine vs. how well it's objectively running?
Question 2: Cyls 2,3,5 are all pretty close to each other, with Cyls 1, 4, 6 looking like possible outliers. Does it matter if these numbers are uniform or could non-uniformity point at potential problems?
Question 3: Do any of these numbers being high (say, like cyl 1 in my case) indicate a potential for loss in performance? I've read people say things like "my DME's pulling timing" as a negative. Is that in reference to these numbers or would that refer to something else?
Idle Synchronisation Adaptations:
I haven't really ever seen/heard these values discussed before. Is it because they're not very informative/meaningful? Would be interesting to know what they mean.
My Schwaben tool gives values in microseconds (uS) for each cylinder. For example, mine look like
Cyl 1: +100
Cyl 2: -77
Cyl 3: -23
Cyl 4: -64
Cyl 5: -34
Cyl 6: +98
Interestingly the cylinders with the highest deviations (1 and 6) in these adaptations are also those with the highest timing retardation in the Knock adaptation. Any relationship between the two?
Thanks for any information any of the more knowledgeable people are able to give me about this, I'd really like to learn more!
Knock Adaptations:
My understand of knock adaptations: these numbers tell you the number of crankshaft degrees that spark/ignition timing on any particular cylinder is being advanced/retarded in order to optimize combustion and have the engine run smoothly (minimize knock). The DME builds these based on data collected over time from the knock sensors, I presume? I'm also guessing that the point of the DME doing this is so that it can still run well when you have a bad coil, plug, injector etc that isn't behaving quite as the engine expects, is
I just read mine with my Schwaben tool and they read:
Cyl 1: -4.41 deg
Cyl 2: -2.81 deg
Cyl 3: -2.81 deg
Cyl 4: -0.81 deg
Cyl 5: -2.41 deg
Cyl 6: -3.21 deg
So, it looks like ignition timing is being pulled to varying degrees across all cylinders. Car is running stock tune, 93.x octane (I fill with a mixture of 100 octane and 91).
Question 1: I'm also guessing that the point of the DME having this capability is so that it can still run well when you have a bad coil, plug, injector etc that isn't behaving quite as the engine expects, is this right? Is there a sense in which knock adaptations are also important to account for natural manufacturing variability between different cars or different cylinders/valves on the same car? Does it make sense to compare knock adaptations from one car to another, and is there an objective standard of where you should want them to be (say, close to 0), or is it just as-is information that has more to do with quirks of your particular engine vs. how well it's objectively running?
Question 2: Cyls 2,3,5 are all pretty close to each other, with Cyls 1, 4, 6 looking like possible outliers. Does it matter if these numbers are uniform or could non-uniformity point at potential problems?
Question 3: Do any of these numbers being high (say, like cyl 1 in my case) indicate a potential for loss in performance? I've read people say things like "my DME's pulling timing" as a negative. Is that in reference to these numbers or would that refer to something else?
Idle Synchronisation Adaptations:
I haven't really ever seen/heard these values discussed before. Is it because they're not very informative/meaningful? Would be interesting to know what they mean.
My Schwaben tool gives values in microseconds (uS) for each cylinder. For example, mine look like
Cyl 1: +100
Cyl 2: -77
Cyl 3: -23
Cyl 4: -64
Cyl 5: -34
Cyl 6: +98
Interestingly the cylinders with the highest deviations (1 and 6) in these adaptations are also those with the highest timing retardation in the Knock adaptation. Any relationship between the two?
Thanks for any information any of the more knowledgeable people are able to give me about this, I'd really like to learn more!
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