games
There is no app that replicates a deck of cards
Disorientation
Learning to walk through walls
The things that you’re meant to do
List of games that Buddha would not play
Right-Angle Doodling Machine
Follow the fun
An Article by Dave RupertAnother great dissertation from Mark Brown of Game Maker’s Toolkit: The Games that Designed Themselves. It’s the radical idea that designers should ignore their preconceived notions and look to the game itself to find out where the development should lead. How does something design itself? Well… the answer is: Prototypes.
A lot of great indie game masterpieces are the result of experimentation and early gameplay demos that changed the course of game’s development. As Brown points out, there’s a whole history of groundbreaking games that were developed “almost by accident” where bugs and glitches were turned into features.
Game feel
An Article by Dave RupertHow do you make a game that’s fun? ...You have to focus on gameplay. In order for the final product to be fun and exciting, the core game play needs to be fun and exciting. The creator of Mario calls this 手応え (tegotae), which is often translated as “game feel”. To find this game feel, you need to build small prototypes around a single idea, play test them, and then follow the fun. Nintendo does this, indie game devs do this; this is the not-so-secret of the gaming industry.
When Customer Journeys Don’t Work: Arcs, Loops, & Terrain
An Article by Stephen P. AndersonThinking [in terms of loops and arcs] allows us to let go of a specific journey or sequence, and imagine dozens of scenarios and possible sequences in which these skills can be learned. This doesn’t mean there aren’t more fundamental skills that other skills build upon, but we can let go the tyranny of how, precisely, a person will move through a system. We’re free to zoom in and obsess on these loops, which does two things for us:
- Approach the design of a system as the design of these as small but significant moments of learning.
- Consider the many ways these loops might be sequenced, with the exact order being less important.
If we were allowed to visit
A Poetry CollectionIf We Were Allowed To Visit is an anthology of poems by Gemma Mahadeo rendered by Ian MacLarty.
As you move through the game's environment, the poems are rearranged into the shapes of the objects they're about, each frame becoming a new generative poem.
Withered or seasoned?
An Article by Robin SloanThe Nintendo way of adapting technology is not to look for the state of the art but to utilize mature technology that can be mass-produced cheaply.
This is the reason a Nintendo console never has the fastest chips or the beefiest specs of its generation; instead, its remixes components in an interesting and generative way. Think of the Gameboy’s monochrome screen, the Wii’s motion controller, the Switch’s smartphone form.
[Gunpei Yokoi] is talking about reliability and predictability, in performance and supply alike. He wants the components to be boring, so their application can be daring.
Crashlands: Design by Chaos
A Talk by Seth Coster
The small web is beautiful
I believe that small websites are compelling aesthetically, but are also important to help us resist selling our souls to large tech companies. In this essay I present a vision for the “small web” as well as the small software and architectures that power it.
Why aim small?
Why aim small in this era of fast computers with plenty of RAM? A number of reasons, but the ones that are most important to me are:
- Fewer moving parts. It’s easier to create more robust systems and to fix things when they do go wrong.
- Small software is faster. Fewer bits to download and clog your computer’s memory.
- Reduced power consumption. This is important on a “save the planet” scale, but also on the very local scale of increasing the battery life of your phone and laptop.
- The light, frugal aesthetic. That’s personal, I know, but as you’ll see, I’m not alone.
Features and complexity
Niklaus Wirth of Pascal fame wrote a famous paper in 1995 called A Plea for Lean Software. His take is that “a primary cause for the complexity is that software vendors uncritically adopt almost any feature that users want”, and “when a system’s power is measured by the number of its features, quantity becomes more important than quality”.
Solving the problem of software bloat
But instead of just complaining, how do we actually solve this problem? Concretely, I think we need to start doing the following:
- Care about size: this sounds obvious, but things only change when people think they’re important.
- Measure: both your executable’s size, and your program’s memory usage. You may want to measure over time, and make it a blocking issue if the measurements grow more than x% in a release. Or you could hold a memory-reduction sprint every so often.
- Language: choose a language that has a chance.
- Remove: cut down your feature set. Aim for a small number of high-quality features. My car can’t fly or float, and that’s okay – it drives well.
- Say no to new features: unless they really fit your philosophy, or add more than they cost over the lifetime of your project.
- Dependencies: understand the size and complexity of each dependency you pull in. Use only built-in libraries if you can.
Raw size isn't enough
A few months ago there was a sequence of posts to Hacker News about various “clubs” you could post your small website on: the 1MB Club, 512KB Club, 250KB Club, and even the 10KB Club. I think those are a fun indicator of renewed interested in minimalism, but I will say that raw size isn’t enough – a 2KB site with no real content isn’t much good, and a page with 512KB of very slow JavaScript is worse than a snappy site with 4MB of well-chosen images.
...[Instead, it's about] an “ethos of small”. It’s caring about the users of your site: that your pages download fast, are easy to read, have interesting content, and don’t load scads of JavaScript for Google or Facebook’s trackers.