@shkong78
Another way of looking at this is to say the commonly agreed methods of making cable upon is making less sense, that is, the methods that are based on the use of hard metals ( copper, silver, aluminum etc...) However when one looks at methods that use amorphous metals ( semi-liquids ) and liquid metals it makes all kinds of sense. Because if Bob Smith is correct ( and the successful use of fiber optic systems, which are amorphous metal based, seems to confirm this ) the issue all along using commonly agreed upon methods of cable making was bandwidth limitations which produce wire generated noise that among other things raises the noise floor and produce phase anomalies that to a greater or lesser extent and obscures the signal . Simply put hard metal based cable assemblies have bandwidth limitations that are reduced when the conductors are doubled. This also explains why amorphous and liquid metal systems are fundamentally superior for broadband signal transmission ( which is what a music signal is...note a lot of standard communication electronics transmission is made to be bandwidth limited to avoid the inevitable cable based noise ) , read their vastly wider bandwidth reduce wire generated noise and allow broad-band signal to be transmitted with more articulation which allows one to hear more of the sound-stage, the micro-detail, the slam etc etc.
then the geometry of cable making is making less sense.
Another way of looking at this is to say the commonly agreed methods of making cable upon is making less sense, that is, the methods that are based on the use of hard metals ( copper, silver, aluminum etc...) However when one looks at methods that use amorphous metals ( semi-liquids ) and liquid metals it makes all kinds of sense. Because if Bob Smith is correct ( and the successful use of fiber optic systems, which are amorphous metal based, seems to confirm this ) the issue all along using commonly agreed upon methods of cable making was bandwidth limitations which produce wire generated noise that among other things raises the noise floor and produce phase anomalies that to a greater or lesser extent and obscures the signal . Simply put hard metal based cable assemblies have bandwidth limitations that are reduced when the conductors are doubled. This also explains why amorphous and liquid metal systems are fundamentally superior for broadband signal transmission ( which is what a music signal is...note a lot of standard communication electronics transmission is made to be bandwidth limited to avoid the inevitable cable based noise ) , read their vastly wider bandwidth reduce wire generated noise and allow broad-band signal to be transmitted with more articulation which allows one to hear more of the sound-stage, the micro-detail, the slam etc etc.