These diagrams of early networks feel like manuscripts that you’d half expect to be marked with “Here be dragons” at the edges.
This history of the World Wide Web from 1996 is interesting for the way it culminates with …Java. At that time, the language seemed like it would become the programmatic lingua franca for the web. Brendan Eich sure upset that apple cart.
April 7th, 2019 is going to be the 50 year anniversary of the first ever Request for Comments, known as an RFC.
Darius Kazemi is going to spend the year writing commentary on the first 365 Request For Comments from the Internt Engineering Task Force:
In honor of this anniversary, I figured I would read one RFC each day of 2019, starting with RFC 1 and ending with RFC 365. I’ll offer brief commentary on each RFC.
This is the rarely-seen hour-long version of my Resilience talk. It’s the director’s cut, if you will, featuring an Arthur C. Clarke sub-plot that goes from the telegraph to the World Wide Web to the space elevator.
A great bit of web history spelunking in search of the first websites that allowed users to interact with data on a server. Applications, if you will. It’s well written, but I take issue with this:
The world wide web wasn’t supposed to be this fun. Berners-Lee imagined the internet as a place to collaborate around text, somewhere to share research data and thesis papers.
This often gets trotted out (“the web was intended for scientists sharing documents”), but it’s simply not true that Tim Berners-Lee was only thinking of his immediate use-case; he deliberately made the WWW project broad enough to allow all sorts of thitherto unforeseen uses. If he hadn’t …well, the web wouldn’t have been able to accommodate all those later developments. It’s not an accident that the web was later used for all sorts of unexpected things—that was the whole idea.
Anyway, apart from that misstep, the rest of the article is a fun piece, well worth reading.
There’s something very endearing about this docudrama retelling of the story of the web.
A ten-year old paper that looks at the history of the ARAPNET and internet to see how they dealt with necessary changes.
Changing a large network is very difficult. It is much easier to deploy a novel new protocol that fills a void than it is to replace an existing protocol that more or less works.
A gripping history lesson of the internet and the ARPANET before it, emphasising the role of government funding.
Silicon Valley often likes to pretend that innovation is the result of entrepreneurs tinkering in garages. But most of the innovation on which Silicon Valley depends comes from government research, for the simple reason that the public sector can afford to take risks that the private sector can’t.
It’s precisely the insulation from market forces that enables government to finance the long-term scientific labor that ends up producing many of the most profitable inventions.
Today we have an internet effectively controlled by a small number of private companies.
Instead of trying to escape the bigness of the Internet, we should embrace it — and bring it under democratic control. This means replacing private providers with public alternatives where it’s feasible, and regulating them where it’s not.
There is nothing in the pipes or protocols of the Internet that obliges it to produce immense concentrations of corporate power. This is a political choice, and we can choose differently.
The ancestors of the Internet were kind enough to give us a communication standard which is free, transparent, and standardized. It would be a shame to see the tech communication landscape move further and further into the world of locked gardens and proprietary schemas.
From the ARPANET to the internet, this is a great history of the Domain Name System:
Root DNS servers operate in safes, inside locked cages. A clock sits on the safe to ensure the camera feed hasn’t been looped. Particularly given how slow DNSSEC implementation has been, an attack on one of those servers could allow an attacker to redirect all of the Internet traffic for a portion of Internet users. This, of course, makes for the most fantastic heist movie to have never been made.
The World Wide Web, with all of its pages, blogs and so on- has allowed human expression in ways that would have been uneconomic and out of reach before. The most dramatic effect has been this ability for almost anyone to express himself or herself whenever they want to- and potentially be heard by many others.
Vint Cerf there, taking part in this wide-ranging discussion with, among others, Kevin Kelly and Bob Metcalfe.
The introduction leans a bit too heavily on Nicholas Carr for my liking, but it ends up in a good place.
The internet connects us cognitively and becomes a membrane through which our minds can interact, manifesting a whole new iteration of our species, who have begun to exist in a connected symbiotic relationship with technology.
The internet is the first technology we have created, that makes us more human.
From twenty years ago, a look back at the origins of the internet, written by its creators.
Written in 2001, this history of the web takes in CERN, hypertext, the ARPANET, SGML, and lots more.
In a strikingly accurate replica of the original IMP log (crafted by UCLA’s Fowler Museum of Cultural History) on one of the room’s period desks is a note taken at 10:30 p.m., 29 October, 1969—“talked to SRI, host to host.” In the note, there is no sense of wonder at this event—which marks the first message sent across the ARPANET, and the primary reason the room is now deemed hallowed ground.
There are Inception-like layers of nostalgia here: firstly, this web series of web pages made by Matt are a throwback to an earlier era, and secondly, the story being told goes all the way back to the birth of the ARPAnet.
The first in a series of articles about the architecture of the internet and its security issues, this is a great history lesson of how our network came to be.
What began as an online community for a few dozen researchers now is accessible to an estimated 3 billion people. That’s roughly the population of the entire planet in the early 1960s, when talk began of building a revolutionary new computer network.