I don't get this at all. Not you, specifically, but so many replies stating that B&W needs a massive amount of power. I've done my homework and ran calculations several times.
For our listening levels and distance from speakers, we'll only need around 8 watts if the impedance drops to 2 Ω (I rounded down below the 3.1 Ω minimum to keep math simplier and to be more conservative).
I also use a sub, and set all speakers to "small". The Pioneer SC-91 is rated to 130 watts (2 ch driven). No idea on 5 ch driven, but it would definitely be above 8 watts.
For the Marantz Cinema 40, that should give around 87 watts for 5 ch driven (70% guarantee applied to the 125 watt 2 ch rating). So a decent amount of headroom.
Unfortunately life is more complicated than that. We actually don't know what load those speakers represent, until someone actually takes some measurements. We do not know where that impedance minimum is in the frequency spectrum or its bandwidth. An even bigger issue is that we do not know the phase angles between voltage and current at various frequencies. The problem comes when the phase angles become strongly negative in conjunction with impedance minima. This creates a situation where there is a huge demand for current, which can be very damaging to output devices. In these situation the apparent power far exceeds the actual power, but the devices have to provide the current for the apparent power.
Unfortunately B & W have justly earned a reputation for creating this situation in many of their designs, but certainly not all, but in reality too many. When we see a B & W speaker with a minimal impedance well below four ohms, we have come to expect the worst, with significant justification.
The next issue is that few receivers have a four ohm spec. anymore. This creates a further level of uncertainty, as it becomes impossible to know how current limited the receiver is. So we end up with a vast number of unknowns, absent rigorous third party measurements of both speakers and receivers. We really are now at the point where it is becoming essential to only make purchases of speakers and receivers, that have extensive third party measurements.
The drive to more channels crammed into one box, powered by inadequate power supplies has made the situation worse. You can tell the power supplies are struggling as power output per channel significantly decreases as power is advanced to more and more of the channels.
A lot, if not all, of the problems on the speaker end, are created in the design of the crossover. All of this makes the case stronger and stronger for doing away with passive crossovers, especially in the lower octaves. Speaker drivers connected directly to their own amps, with active electronic crossovers, is the way forward. This gives the prospect of much improved performance and reliability. Firms like Sigberg Audio are leading the way forward.
AV rooms are now a very large investment, and I am certain that reliability, especially, and also performance are not where they should be, or need to be. That especially applies to reliability. Equipment failures lead to huge hassles, with warranty issues, getting service and worse parts being unavailable for extended periods.
The most difficult aspect of any installation design, is assessing its reliability and the designer of an installation is flying blind far more than needs to be. I do my utmost to avoid flying blind. I also have the advantage, as in the case of speakers, as I am also the designer, and for some of the electronics also.
