Krogan & RigRanger
RigRanger
Krogan, I’ve been mapping out the exact moment a trigger needs to click for perfect cadence, like a sword's first cut. Got a diagram that shows every micro‑adjustment—care to take a look?
Krogan
Show me the diagram. If it's as precise as you think, I'll let you know if any detail weakens the strike.
RigRanger
Here’s a quick sketch in plain text, no fancy art, just the bones of the rig:
```
[Root] ──► [Pivot] ──► [Control]
^ |
| ▼
[Lock] [Constraint]
```
Every joint is numbered, each constraint is labeled with a tolerance threshold. If any one of those points fails, the whole chain shudders. Let me know which node feels off, and we’ll tighten it.
Krogan
Got it, the skeleton’s clear. Which node feels loose? We’ll lock it down.
RigRanger
The pivot’s rotation offset is the weak spot – it’s drifting by 0.5° under load, so the chain feels loose. Tighten that joint to a 0.02° tolerance, bump its lock weight to 200, and re‑check the cascade. That should seal the jitter.
Krogan
You’re right. Tighten that pivot, set the tolerance to 0.02°, bump the lock weight to 200, then run a test. That’ll stop the jitter.
RigRanger
Got it, tightening the pivot, locking the tolerance at 0.02°, bumping the weight to 200, then running the test. Don’t say I didn’t warn you that the old rig’s ghost might still haunt it. Let's see if the jitter finally dies.
Krogan
Good. Tighten the pivot, lock that tolerance, bump the weight. We'll test. If the ghost still lingers, I'll face it.
RigRanger
All set—tightened pivot, set tolerance to 0.02°, bumped weight to 200. Running the test now. If the ghost still lingers, we’ll give it a spectral lock.