How each sentence got that way When the work is really complete, the writer knows how each sentence got that way. Verlyn Klinkenborg, Several Short Sentences About Writing intent
Cutting through to the truth The essential thing in the art of epistemic rationality is to understand how every rule is cutting through to the truth in the same movement. Your sword has no blade. It has only your intention. When that goes astray you have no weapon. Eliezer Yudkowsky, Rationality: From AI to Zombies Your intention to cut intent
Flurry and lapse "The process in creating that kind of canvas was like—what?—10 percent action and 90 percent ass scratching. First you prepared yourself, cleaning up and arranging your palette and tools, sweeping the floors, and then finally, when you were ready, you faced the empty white expanse of white canvas and made your first stroke." Lawrence Wechler & Robert Irwin, Seeing Is Forgetting the Name of the Thing One Sees intentcreativitymaking
Input as collage An Article by Austin Kleon austinkleon.com Your output depends on your input, but a lot of your input is random: you’re interested in lots of different things, and those things, occasionally, will talk to each other in your work. Lately I’ve been thinking about being more intentional with input. Thinking about input as collage. Taking the principle of juxtaposition (1+1=3) and using that to guide your input: what weird, seemingly disparate things can you feed your brain that will come out later in a new mix? The input collage can be subject or genre based and even better if it’s multi-media. ...There’s a balance here between feeding your brain intentionally and then backing off and letting your brain do the subconscious work of mixing your inputs together. creativityintent
AI-driven "Design"? An Article by Jorge Arango jarango.com Like a programming language interpreter, GPT-3 translates the designer’s intent from a language they’re already familiar with (English) to one they need to learn (Figma’s information architecture, as manifested in its UI.) This can be easier for a new/busy designer, much like Python is easier and faster to work with than assembly language. But that’s not “designing” — at least not any more than compiling Python code is “programming.” In both cases, all the system does is translate human intent into a lower level of abstraction. Sure, the process saves time — but the key is getting the intent part right. I’ll be convinced the system is “designing” when it can produce a meaningful output to a directive like “change the product page’s layout to increase conversions.” aidesignintentabstraction
Your intention to cut A Quote by Miyamoto Musashi The primary thing when you take a sword in your hands is your intention to cut the enemy, whatever the means. Whenever you parry, hit, spring, strike or touch the enemy’s cutting sword, you must cut the enemy in the same movement. It is essential to attain this. If you think only of hitting, springing, striking or touching the enemy, you will not be able actually to cut him. Rationality: From AI to ZombiesCutting through to the truth warintent
Wang tiles Wang tiles (Hao Wang, 1961) are a class of formal systems. They are modelled visually by square tiles with a color on each side. A set of such tiles is selected, and copies of the tiles are arranged side by side with matching colors, without rotating or reflecting them. The basic question about a set of Wang tiles is whether it can tile the plane or not, i.e., whether an entire infinite plane can be filled this way. The next question is whether this can be done in a periodic pattern. In 1966, Wang's student Robert Berger solved the problem in the negative. He proved that no algorithm for the problem can exist, by showing how to translate any Turing machine into a set of Wang tiles that tiles the plane if and only if the Turing machine does not halt. The undecidability of the halting problem then implies the undecidability of Wang's tiling problem. Wikipedia en.wikipedia.org Truchet TilesThe Tiling Patterns of Sebastien Truchet and the Topology of Structural Hierarchy mathalgorithms