Define "read the most correctly". Are you am amplifier design/EE?
If you don't exceed the rated continuous or peak wattage at a given impedance, then you have enough current (and voltage). Georgehifi is making assumptions about performance that are not supportable with the data on hand ... namely wattage at a given impedance. I won't claim a 1500 watt $500 amplifier is going to have the overall sonic performance of a high end class-A amplifier, even at 100W, but with a speaker that drop to 2 ohms (approx), an amplifier that can deliver 1500 watts at 2 ohms, is not going to sound "anemic" as long as you don't drive it into clipping.
If you don't exceed the rated continuous or peak wattage at a given impedance, then you have enough current (and voltage). Georgehifi is making assumptions about performance that are not supportable with the data on hand ... namely wattage at a given impedance. I won't claim a 1500 watt $500 amplifier is going to have the overall sonic performance of a high end class-A amplifier, even at 100W, but with a speaker that drop to 2 ohms (approx), an amplifier that can deliver 1500 watts at 2 ohms, is not going to sound "anemic" as long as you don't drive it into clipping.
Watts, or power, is equal to voltage multiplied by current. But an individual speaker may want more voltage at some frequencies, versus more current at other frequencies. And if your amplifier is limited in one of those dimensions, it will have trouble driving the speaker.

