Well as long as you never turn around and put your body between the headset and it’s wireless peer.
Note that 802.11ay to get 20-40gb (approx 2GB to 3GB/s) is a thing, and it’s ignored because going over 45 ghz is just impractical. This experiment would have to go even higher than that.
Unfortunately, looks like the breakthrough is silicon that can credibly work with those frequencies at all with a reasonable power budget, by simplifying and reducing power draw. Maybe it could somehow reduce energy usage of wifi, but they seemed to be all in on being over 100ghz… So the tech won’t be increasing the throughput of anything more practical.
Wireless 4k 120hz streaming from my PC to TV would be pretty sweet. I can run a cable if i really wanted… but this would be easier. It’s still more than that, but getting that would be sweet.
They hint at their goals by mentioning fiber in a datacenter, where they are now getting to 400/800gb speeds, so in the ballpark of this demo, but this would be a shared medium instead of a switched network, so it’s DOA there as well.
I don’t think this is a product yet … more like a technical solution for building a power efficient modulation at high frequency. Gigabit speeds are great but the band they are sitting in is mostly useless unless you have line of sight.
I’d shell out for a multi router array that would give me these insane speeds if my ISP would offer me those speeds. A router in every room isn’t an impossibility if what you get out of it makes it worth it
yeah but this wifi you can only use in one room …
I would use this for streaming games from a wired PC to a device that’s wireless. Not having to run a wire is magical.
i imagine a use-case for vr headsets
Well as long as you never turn around and put your body between the headset and it’s wireless peer.
Note that 802.11ay to get 20-40gb (approx 2GB to 3GB/s) is a thing, and it’s ignored because going over 45 ghz is just impractical. This experiment would have to go even higher than that.
also don’t need 15 GBps (120gbps) for every day use, so some of that bandwidth can be sacrificed for better range. ultra high speed hdmi is 48gbps.
Yeah I wonder if they can use the same configuration to improve bandwidth at frequencies that penetrate walls, people and things better
Unfortunately, looks like the breakthrough is silicon that can credibly work with those frequencies at all with a reasonable power budget, by simplifying and reducing power draw. Maybe it could somehow reduce energy usage of wifi, but they seemed to be all in on being over 100ghz… So the tech won’t be increasing the throughput of anything more practical.
Wireless 4k 120hz streaming from my PC to TV would be pretty sweet. I can run a cable if i really wanted… but this would be easier. It’s still more than that, but getting that would be sweet.
and cant be standing between the device and router…
It’s definitely a niche product. Most people don’t even need gig speeds.
They hint at their goals by mentioning fiber in a datacenter, where they are now getting to 400/800gb speeds, so in the ballpark of this demo, but this would be a shared medium instead of a switched network, so it’s DOA there as well.
I don’t think this is a product yet … more like a technical solution for building a power efficient modulation at high frequency. Gigabit speeds are great but the band they are sitting in is mostly useless unless you have line of sight.
I’d shell out for a multi router array that would give me these insane speeds if my ISP would offer me those speeds. A router in every room isn’t an impossibility if what you get out of it makes it worth it