> * Q1: I assume that, if instead of the jack, you use a usb-c audio adapter accessory mode, there should be no extra latency either, right? (I'm using late pixel phones) That's correct, by using either the 3.5mm jack,…
Below is a collaborative answer from myself and my colleague, Phil Burk who is a SWE on the audio framework team. Thanks for your interest in the details of Android Latency measurement techniques. Some of the…
I'm the author. My testing methodology was to run the round-trip latency test using OboeTester: https://github.com/google/oboe/tree/master/apps/OboeTester/d.... It's a simple test: produce a tone (either on built-in…
Damn that spellchecker! :D Thanks for spotting, I'll fix it shortly.
> the human brain is severely impacted by lag The brain can compensate for lag/latency up to a point. Church organ players often have to deal with >100ms of delay between pressing a key and hearing the note produced…
> * Q1: I assume that, if instead of the jack, you use a usb-c audio adapter accessory mode, there should be no extra latency either, right? (I'm using late pixel phones) That's correct, by using either the 3.5mm jack,…
Below is a collaborative answer from myself and my colleague, Phil Burk who is a SWE on the audio framework team. Thanks for your interest in the details of Android Latency measurement techniques. Some of the…
I'm the author. My testing methodology was to run the round-trip latency test using OboeTester: https://github.com/google/oboe/tree/master/apps/OboeTester/d.... It's a simple test: produce a tone (either on built-in…
Damn that spellchecker! :D Thanks for spotting, I'll fix it shortly.
> the human brain is severely impacted by lag The brain can compensate for lag/latency up to a point. Church organ players often have to deal with >100ms of delay between pressing a key and hearing the note produced…