May be we should talk about bottleneck analysis, that probably should be done from the beginning of the recording process to the speaker output in room. Even if we only want to consider electronics, wouldn't it be the mic, the first electronic device the mic(s) is/are connected to, the 2nd, or the 3rd...., instead of just worry about the 1st, 2nd, or output stage performance of preamps, power amps etc., in the "audiophile's" comfortable room?
There are quite a few electronic devices in between too, such as the media players. I would think that some of those devices are also affected by their FR, THD, TIM, IMD, slew rate, input/output impedance etc. so shouldn't they be considered in any bottleneck analysis? If you narrow it down to just the integrated (because of the thread title) amp, then just for example, in Dr. Rich's bottleneck analysis, he identified the volume control LSI IC as one of the weak point of AVRs and some AVPs, but he seemed to have assumed even the cheap integrated amps don't use those LSI chips. That is not the case, as I know the A-S801 (not picking on Yamaha, it just happens to be an example I know of) uses the kind of LSI chip he mentioned for volume control so it seems reasonable to assume there could be other integrated amps that also have similar bottlenecks based on the use of similar LSI ICs for volume control. Imo it is a shame that most people ended up relying on manufacturer's marketing and internet hearsay. That's natural though, as there are not too many facts and science based objective studies in the so called "hifi" audio field.
We do a little better on the psychoacoutics side obviously and fortunately. No surprise there either, audio electronics are not health and safety related, it is mostly a hobby/entertainment thing. So even if there are enough EE/Psycoacoustics PhD/professors who are hifi enthusiasts, or even audiophiles themselves, they won't get much funding or motivation to do such facts and science based studies in this field anyway. So we are stuck with roughly two camps debating forever, the "all well designed amps sound the same if used within their limits, level matched" blablabla one one side and the even well build/designed amps could sound different from arctic cold to Death Valley hot and/or from clinical, analytical to silky smooth and golden warm kind of sound blablabla on the other. Neither group seem to bother considering if there are obvious weaker devices upstream that may just render whatever minor differences introduced by their beloved amps moot. Most do seem admit there are bottleneck downstream, the in room performance of their speakers for example, but that just sort of defies their logic, at least to some extents.
Want to see some marketing hypes? Below is one from the Benchmark media website:
https://benchmarkmedia.com/products/benchmark-ahb2-power-amplifier
It is not an integrated amp, but similar in physical size.
"The AHB2 is the ideal match to the performance limits of High-Resolution-Audio (HRA) formats. Benchmark's AHB2 power amplifier delivers musical details without introducing the masking effects of amplifier noise and distortion. The dynamic range of the AHB2 is 132 dB, making it 10 to 30 dB quieter than some of the very best reference-quality power amplifiers.
The frequency response of the AHB2 extends beyond 200 kHz. With the AHB2, you will discover previously overlooked nuances, dynamics, and detail in your favorite recordings and experience the full potential of the latest high-resolution 24-bit PCM and 1-bit DSD audio formats."
I am still considering buying either that amp, or the Lyngdorf TDAI-2170, but I do believe the advertised superior noise/dynamic specs of the AHB2 won't do a thing to improve sound quality in any of my systems due to bottlenecks up and down stream. If I did buy one of the two, it will most likely be my last amp purchase.
