Gigabit-per-second home broadband prices in the United Kingdom vary by internet service provider and location, but Virgin Media O2 costs about £62 (US$82) per month. BT sells its gigabit service for £55, or about US$72.
Thursday, March 10, 2022
U.K. Gigabit Internet Often Costs Between $72 and $83 Per Month
Content Drives Capacity Investment
50 years ago investment in transcontinental communications cables was driven by telcos. These days investment is driven by content providers, especially those supplying video content. And that trend has escalated since about 2020, according to TeleGeography data.
Video content drives bandwidth demand, and also creates the owners’ economics that incentivize content providers to own, build and operate their own transport networks.
In a similar way, data centers frequently now are built specifically for a relative handful of anchor tenants who are hyperscale cloud computing suppliers.
To be sure, data center business models can use either retail or wholesale models. But one salient difference is that some wholesale data center business plans are built on the assumption that there are a handful of potential customers, namely the hyperscale app providers.
That is not to deny that larger enterprises might be tenants at many wholesale data centers. It is to say that the anchor tenants will be a small number of hyperscalers.
New wholesale data center investments will be significant in Asia, for example.
Among the many changes to the connectivity industry over the past 40 years is a shift of capacity investment to content providers and hyperscale cloud computing suppliers; a shift of media types to video; emergence of remote computing and the impact that has on computing architectures, data center requirements and connectivity locations.
Broadly, the internet ecosystem now drives capital investment in computing and connectivity. Connectivity providers are simply a part of that broader ecosystem.
Wholesale Business Models Will Dominate Much Data Center Investment
Data center business models can use either retail or wholesale models. But one salient different is that some wholesale data center business plans are built on the assumption that there are a handful of potential customers, namely the hyperscale app providers.
That is not to deny that larger enterprises might be tenants at many wholesale data centers. It is to say that the anchor tenants will be a small number of hyperscalers.
New wholesale data center investments will be significant in Asia, for example.
source: TeleGeography
Truth, Lies, Statistics
Language always matters. Definitions and assumptions always matter, because the truth matters. Methodology matters, in that regard.
The NPD Group says only 50 percent of homes in the continental U.S. have “true broadband speed of 25Mbps download or higher.”
That can be--and will be--interpreted at least two ways. It could mean that internet service providers are way behind the curve in making quality broadband available, or it could mean that consumers choose not to buy it.
The former is a failure of supply; the second is a consumer choice. It matters which we are talking about. In fact, Openvault test data does not support the NPD assertions. In the third quarter of 2021, for example, 9.8 percent of actual consumers had test data showing downstream speeds “less than 50 Mbps.”
The percentage of customers unable to get 25 Mbps obviously is less than that.
Though “average” speeds change all the time, the Openvault data show that by the third quarter of 2021, about 66 percent of all U.S. internet access buyers were getting speeds between 100 Mbps and 400 Mbps.
While it might have been true that half of U.S. consumers were buying services operating between 100 Mbps and 200 Mbps a year earlier, it was by the third quarter of 2021 very hard to determine how many were really buying services unable to meet the FCC definition of 25 Mbps downstream.
What also is undeniable is that most speed tests are conducted by consumers using Wi-Fi. That means the tests understate speed, as Wi-Fi speeds often are many times slower than delivered ISP speed.
The point is that ISP delivered speeds quite often degraded by performance of the in-home Wi-Fi networks, older equipment or in-building obstructions. Actual speeds delivered by the internet service provider to a router are one matter. Actual speeds experienced by any Wi-Fi-connected device within the home are something else.
In practice, Wi-Fi speeds can be an order of magnitude slower than the speed actually delivered by the ISP. So when a consumer using Wi-Fi measures 25 Mbps, the delivered speed can be as much as 250 Mbps.
NPD Group says about its methodology that “the report is based on a combination of sales data, speed test results, consumer surveys, FCC data and other sources.”
That implies demand side dales data and speed test results. Consumer surveys can be either demand or supply side based. The Federal Communications Commission data tends to be supply side (state of facilities and availability).
To be clearer, what NPD likely means is that 50 percent of U.S. consumers choose to buy internet access at speeds less than 25 Mbps. But that cannot be true, if other demand side studies are correct.
The storyline that U.S. internet access is slow or expensive seems irresistible, even if it is questionable. A study by Speedtest of 2020 internet access speeds showed the United States had the highest performance of all countries who are members of the G-20.
So much for the demand side. On the supply side,
A recent study by the European Telecommunications Network Operators association says prices are not high.
“In fact, 34 percent of homes receive internet access at speeds of less than 5 Mbps, including 15 percent that do not have any internet access. The key phrase is “receive.” It is the speed they purchase.
There are other important nuances. When do people take speed tests? Primarily when they are having a problem. Almost nobody routinely takes speed tests when performance is untroubling. So there is a bias to the taking of speed tests when networks are most congested.
Is it possible that half of U.S. homes do not receive 25 Mbps? It seems highly doubtful. If there are 10 concurrent devices active inside a home, might each device see performance that looks like “less than 25 Mbps?” That is possible, if all 10 devices are simultaneously active and delivered speed is about 250 Mbps and all the devices use Wi-Fi.
But to argue that “half of U.S. homes” do not “receive” 25 Mbps seems contradicted by available data on actual usage. And that is just the demand side.
Between 60 percent and 80 percent of U.S. home locations can buy gigabit service if they chose to do so. Not all do so.
But that reflects a consumer choice, not a failure of supply.
It is highly likely that at least 80 percent of U.S. homes can buy internet access at speeds no lower than 500 Mbps and 1 Gbps if they choose to do so. Over time, as average supplied speeds climb, they will eventually do so.
Tuesday, March 8, 2022
Blockchain Reduces Connectivity Business Friction
Blockchain has many uses in the connectivity business, ranging from settlements to privacy to spam reduction to roaming payments. Unlike some public blockchain networks, telecom blockchain is more likely to use private blockchain where all the participants are verified in advance.
Essentially, blockchain is designed for ecosystems, with multiple, decentralized sources of identity that mean every participant in the network has the ability to verify the correctness of transactions.
One thing should be obvious: using blockchain, ecosystem partners gain the ability to trade and transact with any member with less friction. Most of the time and effort required to create “trust” and avoid dangers such as fraud, billing errors, privacy breaches or non-payment are avoided.
Information friction--increasing transaction cost and risk--can result from imperfect information. Participants in a transaction may not have access to the same information, giving one party an unfair advantage.
Another source of cost is that Information might be incorrect or inconsistent, leading to bad decisions or delays.
Also, some information is Inaccessible. That can produce more than friction and risk: it can lead to inability to fulfill an order.
Finally, security risks increase friction, whether from hacking attacks and cybercrime to privacy concerns and identity theft. Those dangers might be more frequently a reality for retail customers, but even wholesale and business-to-business transactions can be affected.
The other implication is that blockchain helps enable something resembling an e-commerce platform, allowing partners to complete transactions faster and with less danger of fraud or error.
Think of this as one more example of the industry’s decades-long desire to create on-demand delivery mechanisms. Altogether, blockchain is one tool of several that connectivity providers will be using to reduce friction in the value chain, often boosting profits in the process.
Blockchain and On-Demand Provisioning
Telcos have desired on-demand fulfillment mechanisms for at least 50 years. Blockchain now will allow them to do so more widely, especially in the area of settlements between transacting parties, whether connectivity or computing and storage suppliers.
“End to end paperless” processes in the air freight industry are designed to reduce costs, improve traceability and enhance efficiency.
In principle, the same sort of process might be implemented in the connectivity business for billing and settlements. If e-freight is based on a bilateral transaction between a shipper and a recipient, so too connectivity or computation services are built on transactions between customers and suppliers, usually conducted as a bilateral agreement.
Essentially, blockchain is designed for ecosystems, with multiple, decentralized sources of identity that mean every participant in the network has the ability to verify the correctness of transactions.
One thing should be obvious: using blockchain, ecosystem partners gain the ability to trade and transact with any member with less friction. Most of the time and effort required to create “trust” is avoided.
The other implication is that blockchain helps enable something resembling an e-commerce platform, allowing partners to complete transactions faster and with less danger of fraud or error.
Think of this as one more example of the industry’s decades-long desire to create on-demand delivery mechanisms.
Monday, March 7, 2022
Communications "Just an API?"
“Bits are bits,” many used to remark during the early days of transition from single-purpose to multi-purpose networks.
“Communications” is “just an application programming interface," some now argue.
Both statements are true to an extent, and wrong to an extent. It is true that the advantage of multi-purpose networks is that they can carry any media type. In that sense, bits are bits. But various applications require different support.
Video requires consistent packet delivery and hence created a need for content delivery networks, which reduce latency and jitter artifacts that mar video experience.
Various forms of extended reality or process control will likely require intensive data processing very close to the end user, hence creating a need for edge computing.
Likewise, what tends to be meant by “communications is just an API” is that communications capabilities (voice, messaging, unified communications) can be added to any application using an API.
It is meant to mean the abstraction of a great amount of complexity and infrastructure that the actual end user need not worry about.
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