Now let's address latency - that entire article only mentioned the word once and it looks like it was by accident.

Latency isn't cool but it is why your Teams/Zoom/whatevs call sounds a bit odd. You are probably used to the weird over-talking episodes you get when a sound stream goes somewhat async. You put up with it but you really should not, with modern gear and connectivity.

A decent quality sound stream consumes roughly 256KBs-1 (yes: 1/4 megabyte per second - not much) but if latency strays away from around 30ms, you'll notice it and when it becomes about a second it will really get on your nerves. To be honest, half a second is quite annoying.

I can easily measure path latency to a random external system with ping to get a base measurement for my internet connection and here it is about 10ms to Quad9. I am on wifi and my connection goes through two switches and a router and a DSL FTTC modem. That leaves at least 20ms (which is luxury) for processing.

That seems to be the theme across all consumer electronics as well. For an average person mid phones are good enough, bargain bin laptops are good enough, almost any TV you can buy today is good enough. People may of course desire higher quality and specific segments will have higher needs, but things being enough may be a problem for tech and infra companies in the next decade.

There are no words to describe how stupid this is.

Open-world games such as Cyberpunk 2077 already have hours-long downloads for some users. That's when you load the whole world as one download. Doing it incrementally is worse. Microsoft Flight Simulator 2024 can pull 100 to 200 Mb/sec from the asset servers.

They're just flying over the world, without much ground level detail. Metaverse clients go further. My Second Life client, Sharpview, will download 400Mb/s of content, sustained, if you get on a motorcycle and go zooming around Second Life. The content is coming from AWS via Akamai caches, which can deliver content at such rates. If less bandwidth is available, things are blurry, but it still works. The level of asset detail is such that you can stop driving, go into a convenience store, and read the labels on the items.

GTA 6 multiplayer is coming. That's going to need bandwidth.

The Unreal Engine 5 demo, "The Matrix Awakens", is a download of more than a terabyte. That's before decompression.

The CEO of Intel, during the metaverse boom, said that about 1000x more compute and bandwidth was needed to do a Ready Player One / Matrix quality metaverse. It's not that quite that bad.

It's getting pretty reasonable these days, with download speeds reaching 0.5 gbit/sec per link, and latency is acceptable at ~20ms.

The main challenge is the upload speed; pretty much all the ISPs allocate much more spectrum for download rather than upload. If we could improve one thing with future wireless tech, I think upload would be a great candidate.

Now, it's possible that that raw GB/s with unobstructed LoS is the underlying optimization metric driving these standards, but I would assume it's something different (e.g. tower capex per connected user).

I can grant that a typical usage of wireless bandwidth doesn't require more than 10Mbps. So, what does "even faster buy you"?

The answer is actually pretty simple, at any given frequency you have a limited amount of data that can be transmitted. The more people you have chatting to a tower, the less available bandwidth there is. By having a transmission standard with theoretical capacities in the GB or 10GB, or more you make it so you can service 10, 100, 1000 more customers their 10Mbps content. It makes it cheaper for the carrier to roll out and gives a better experience for the end users.

What I find fascinating is that in a lot of situations mobile phones are now way faster than wired internet for lots of people. My parents never upgraded their home internet despite there being fire available. They have 80MBit via DSL. Their phones however due to regular upgrades now have unlimited 5G and are almost 10 times as fast as their home internet.

10G internet doesn't make your streaming better, but downloads the latest game much faster. It makes for much less painful transfer of a VM image from a remote datacenter to a local machine.

Which is good and bad. The good part is that it makes it easier for the ISPs to provide -- most people won't be filling that 10G pipe, so you can offer 10G without it raising bandwidth usage much at all. You're just making remote workers really happy when they have to download a terabyte of data on a single, very rare occasion instead of it taking all day.

The bad part is that this comfort is harder to justify. Providing 10G to make life more comfortable the 1% of the time it comes into play still costs money.

> Consider a very brief history of airspeed in commercial air travel. Passenger aircraft today fly at around 900 kilometers per hour—and have continued to traverse the skies at the same airspeed range for the past five decades. Although supersonic passenger aircraft found a niche from the 1970s through the early 2000s with the Concorde, commercial supersonic transport is no longer available for the mainstream consumer marketplace today.

OK, "Bad Analogy Award of the Year" for that one. Traveling at supersonic speeds had some fundamental problems, primarily being that the energy required to travel at those speeds is so much more than for subsonic aircraft, and thus the price was much higher for supersonic travel, and the problem of sonic booms meant they were forbidden to travel over land. When the Concorde was in service, London to NYC flights were 10-20x more expensive on the Concorde compared to economy class on a conventional jet, meaning the ~4 hours saved flight time was only worth it for the richest (and folks just seeking the novelty of it). There are plenty of people that would still LOVE to fly the Concorde if the price were much cheaper.

That is, the fundamental variable cost of supersonic travel is much higher than for conventional jets (though that may be changing - I saw that pg posted recently that Boom has found a way to get rid of the sonic boom reaching the ground over land), while that's not true for next gen mobile tech, where it's primarily just the upfront investment cost that needs to be recouped.

There are plenty things that *could* require more bandwidth than video, but it's not clear that a large number of people want to use any of them.

Lower frequencies have the advantage of longer distances and permeating through obstructions better. I suppose limited bandwidth and considerations of the number of devices coexisting is a limiting factor.

“Hey, this isn’t actually supposed to be used to get work done. Keep doing simple phone stuff!“

1. The whole point of video is that you need all of the data, in order

2. Video is the only thing, really, that requires that much data per second of sensory input.

Mobile devices aren't really getting more pixels. And hardware isn't improving enough the we have spare cycles for decoding/decrypting/rendering 16K video or whatever, and even if it did, the batteries can't handle that. It's obvious to me that we don't need more bandwidth. My phone would be instantly dead if I was downloading and processing data at a gigabit per second.

Other than downloading very large files (why?), I don't think we'll invent any new use cases that can make use of more bits or second.

L4S is on its way, and may finally be the beginning of the end for bufferbloat and congestion, and vendors of mobile devices are in an almost unique position of being able to roll out network stack changes en masse. And just for once, consumer incentives, vendor incentives and network operator incentives all align - and it's incremental, and lacking in incentives for bad actors.

See this blog entry: https://www.ietf.org/blog/banishing-bufferbloat/ for more on L4S and bufferbloat. And this: https://datatracker.ietf.org/meeting/105/materials/slides-10... for a proper technical deep dive.

The development of L4S has been a pincer operation across all levels of the network stack, integrating everything previously understood about latency and congestion in real networks, and one of the most impressive bits of network engineering I've seen in the history of the Internet.

For example, at the last investor day that AT&T held, they indicated [0:pdf] that their growth plans are in broadband fiber, not building more 5G capacity to serve a surge in traffic. Reading their charts and knowing how AT&T traditionally worked, I believe that they are going to try to cut the expense of running the 5G network via various optimizations and redirect capital heavily to go after the fiber broadband market instead, using convergence (ahem: price bundling) to win subscribers.

(I bet it really stuck in their craw that Comcast mastered the bundle so well that they even built a successful MVNO on the back of their xfinity customer base and parked their tanks on AT&Ts lawn while the latter was futzing about with HBO.)

However, bundling is a price compression game, not an ARPU growth game. If you start at $100 a month and then begin chipping away with autopay discounts, mobile convergence, free visa gift cards and all that nonsense, pretty soon you are selling broadband for $35 a month and can't make it work except with truly cruddy service, which leads to high churn rates. So we'll see how this turns out.

[0:pdf] https://investors.att.com/~/media/Files/A/ATT-IR-V2/reports-...

I guess its a nice quality filter, but still. I can't be the only one but feel like the mobile web experience has taken a nose dive over the last 10 years as we got so many more mobile data users, and mobile web developers forgot how to write for slow internet speeds in the same time.

For those criticising 5G, most mobile network has yet to move to Stand Alone network with NR yet. And after that they will have to refarm all the 4G spectrum to 5G. They could also replace equipment that were 4G / 5G to 5G+ / 5G-A, allowing cheaper Massive MIMO hence much higher capacity. Doing all that while continue to tune the network both front and backend. Despite 5 years into 5G we are still behind in many aspect. Most likely due to COVID.

But it seems some network has NO interest to further improve on current tech. I assume they would do minimum investing once they force everyone to 5G.

I say this because we currently use an old 2014 phone as a house phone for the family. It's set to 2G to take calls, and switches to 4g for the actual voice call. We only have to charge it once every 2-3 weeks, if not longer. (Old Samsung phones also had Ultra Power Saving mode which helps with that)

2G is being shutdown though. Once that happens and it's forced into 4G all the time, we'll have to charge it more often. And that sucks. There isn't a single new phone on the market that lasts as long as this old phone with an old battery.

The same principle is why I have my modern personal phone set to 4G instead of 5G. The energy savings are very noticeable.

4K video reaches you only because it's compressed to crap. It's "good enough" until it's not. 360p TV was good enough at some point too.

Once every few months I'm in a situation where I want to watch YouTube on mobile or connect my laptop to mobile hotspot, but then I think "I don't need to be terminally online", or in worst-case scenario, I just pay a little bit extra for the data I use, but again, it happens extremely rarely. BTW quite often my phone randomly loses connection, but then I think "eh, god is telling me to interact with the physical world for five minutes".

At home though, it's a different situation, I need to have good internet connection. Currently I have 4Gbps both ways, and I'm thinking of changing to a cheaper plan, because I can't see myself benefitting from anything more than 1Gbps.

In any case though, my internet connection situation is definitely "good enough", and I do not need any upgrades.

Business should learn to earn just good enough to make by.

The trick is that the entity that owns the wires has to provide/upgrade the network at cost, and anyone has the right to run a telco on top of the network.

This creates competition for things like pricing plans, and financial incentives for the companies operating in the space to compete on their ability to build out / upgrade the network (or to not do that, but provide cheaper service).

Same for mobile infrastructure would be great as well.

Regulators have other ways to incentivize quality/pricing and can mandate competition at levels of the stack other than the underlying infrastructure.

I wouldn't expect that "only a single network" is the right model for all locations, but it will be for some locations, so you need a regulatory framework that ensures quality/cost in the case of a single network anyway.

Having 5 competing infrastructures trying to blanket the country means that you end up with a ton of waste and the most populated places get priority as they constantly fight each other for the most valuable markets while neglecting the less profitable fringe

Nationalizing telecom is a great way to reward the tech oligarchs by making the capital investments in giant data centers more valuable. If 10 gig can be delivered cheaply over the air, those hyperscale data centers will end up obsolete if technology continues to advance at the current pace. Why would the companies that represent 30% of the stock markets value want that?

For my area all the mobile network home internet options offer plenty of speed, but the bandwidth limitations are a dealbreaker.

Everyone I know still uses their cable/FTTH as their main internet, and mobile network as a hotspot if their main ISP goes down.

The PS5 and Xbox Series S/X both had disks that were incapable of holding a terabyte at the launch of The Matrix Awakens. Not sure where you are getting that info from, but both the X S/X and PS5 were about 30GB in size on disk, and the later packaged PC release is less than 20GB.

The full PC development system might total a TB with all Unreal Engine, Metahumans, City Sample packs, Matrix Awakens code and assets (audio, mocap, etc) but even then the consumer download will be around the 20-30GB size as noted above.

The reason why there isn't as much demand for mobile data as they want is because the carriers have horrendously overpriced it, because they want a business model where they get paid more when you use your phone more. Most consumers work around this business model by just... not using mobile data. Either by downloading everything in advance or deliberately avoiding data-hungry things like video streaming. e.g. I have no interest in paying 10 cents to watch a YouTube video when I'm out of the house, so I'm not going to watch YouTube.

There's a very old article that I can't find anymore which predicted the death of satellite phones, airplane phones, and weirdly enough, 3G; because they were built on the idea of taking places that traditionally don't have network connectivity, and then selling connectivity at exorbitant prices, on the hopes that people desperate for connectivity will pay those prices[1]. This doesn't scale. Obviously 3G did not fail, but it didn't fail predominantly because networks got cheaper to access - not because there was a hidden, untapped market of people who were going to spend tens of dollars per megabyte just to not have to hunt for a phone jack to send an e-mail from their laptop[2].

I get the same vibes from 5G. Oh, yes, sure, we can treat 5G like a landline now and just stream massive amounts of data to it with low latency, but that's a scam. The kinds of scenarios they were pitching, like factories running a bunch of sensors off of 5G, were already possible with properly-spec'd Wi-Fi access points[3]. Everyone in 5G thought they could sell us the same network again but for more money.

[0] While I'm ranting about mobile data usage, I would like to point out that either Android's data usage accounting has gotten significantly worse, or Google Fi's carrier accounting is lying, because they're now consistently about 100-200MB out of sync by the end of the month. Didn't have this problem when I was using an LG G7 ThinQ, but my Pixel 8 Pro does this constantly.

[1] Which it called "permanet", in contrast to the "nearernet" strategy of just waiting until you have a cheap connection and sending everything then.

[2] I'm told similar economics are why you can't buy laptops with cellular modems in them. The licensing agreements that cover cellular SEP only require FRAND pricing on phones and tablets, so only phones and tablets can get affordable cell modems, and Qualcomm treats everything else as a permanet play.

[3] Hell, there's even a 5G spec for "license-assisted access", i.e. spilling 5G radio transmissions into the ISM bands that Wi-Fi normally occupies, so it's literally just weirdly shaped Wi-Fi at this point.

It doesn't really change their argument, but to be fair, Netflix has some of the lowest picture quality of any major streaming service on the market, their version of "high-end 4K" is so heavily compressed, it routinely looks worse than a 15 year old 1080p Blu-Ray.

"High-end" 4K video (assuming HEVC) should really be targeting 30 Mb/s average, with peaks up to 50 Mb/s. Not "15 Mb/s".

…and we only pay for 500 MBit for my home fiber. (Granted, also 500 Mbit upload.)

(T-Mobile, Southern California)

They're constantly running promotions "get free smartglases/video game systems/etc if you sign up for gigabit." Turns out that gigabit is still way more than most people need, even if it's 2025 and you spend hours per day online.

With mobile, I bet contention and poor signal are more of an issue. 5G is a noticeable improvement over LTE, and I am not sure they can do much better.

It also takes ages to back up my computer. 18 terabytes of data in my case, and that’s after pruning another 30 terabytes of data as “unnecessary” to back up.

One of the issues with this 5g vs 6g is the long-term-evolution of it all -- I have no idea when/where/if-at-all I will see improvements on my mobile devices for all the sub-improvements of 5g or if it's only reserved for certain use cases

Basically, yes (if you take into account other consideration like radiated power, transmitter consumed power, multipath tolerance, Doppler shift tolerance and so on). Everything is a tradeoff. We could e. g. use higher-order modulation, but that would result in higher peak-to-average power ratio, meaning less efficient transmitter. We could reduce cyclic prefix length, but that would reduce multipath tolerance. And so on.

Another important reason why higher frequencies are preferred is frequency reuse. Longer distance and penetration is not always an advantage for a mobile network. A lot of radio space is wasted in areas where the signal is too weak to be usable but strong enough to interfere with useful signals at the same frequency. In denser areas you want to cram in more base stations, and if the radiation is attenuated quickly with distance, you would need less spectrum space overall.

At the end of the day, there is a total speed limit of Mb/s/Hz.

For example, in cities, with a high population density, you could theoretically have a single cell tower providing data for everyone.

However, the speed would be slow, as for a given bandwidth six the data is shared between everyone in the city.

Alternatively, one could have 100 towers, and then the data would only have to be shared by those within range. But for this to work, one of the design constraints is that a smaller range is beneficial, so that multiple towers do not interfere with each other.

It just also supports other bands as well.

As I'm sure you are aware the term least mile has always included everthing up to and including termination at the exchange. The only thing that's changed is the name of the exchange. It's now called a POI.

Yes there are fewer of them. It did reduce costs and engineering complexity. There is no consensus whether it effected competitiveness, but given the NBN has been in operation for a decade now and there are many, many ISP's, most small, any detrimental effect must be near negligible. It's time you put that tired old debate behind you.

> The NBN is literally welfare for Telstra Optus, AAPT and Vocus

Telstra earnings dropped off a cliff when the copper became worthless. If that's welfare I'd hate to see what some real competition would do to them. The other three never had fingers in the consumer last mile pie. They bought it off Telstra before, now the buy off the NBN. They buy at the same price as every other ISP. Where is this welfare you speak of?

> Net Neutrality in Australia has more to do with the big 4 peering agreement.

I'm not sure you know what net neutrality means.

> State based private/public co funding would have gotten you the same result faster and cheaper.

Wow. Such confidence. Admit it, you don't have a clue what that would cost. Also admit not one state offered to do it. I think you hallucinating random possibilities.

> It was Turnbull who slightly corrected the NBN funding model to make it halfway profitable

I have a lot of time for Turnbull. His rear guard actions managed to derail Abbotts attempt to kill the NBN. God knows what we would have done if our internet didn't support video during COVID. However, it did involve buying $800 million for the Optus HFC network that was so degraded it was written off. His FttN is being ripped out long before it's anticipated EOL, and replaced at great expense. That's because it costs a small to run air-conditioned nodes a few hundred metres from every house, and the performance topped out at a 1/10 of what the NBN is offering now. So sadly the compromises made to save the NBN are now having to be rectified at great expense. And knowing all this, you are saving it saved us money! Delusional.

> Rural australia ...

I wasn't referring to rural Australia. According to google the average population density of urban Australian is an order of magnitude lower than the USA. Cable runs are consequently much longer. Compared to the effort the USA would need to put in, replacing them was indeed a huge undertaking.

> Honestly I have never seen anyone as confidently wrong on the internet before.

Having reviewed the outright falsehoods you told above, I'm guessing I'm dealing with quite the bullshitter. And I guess, true to form, you will carry on.