quality
It passes by the river
SAFe is oriented around volume, not value
To bring out its noblest qualities
We classify too much and enjoy too little
All the way to the last bolt
v0.crap
What excellence is
The aspiration for quality
Eating your own dog food
More profitable and a better buy
Maybe I should sharpen soon
You'll know it's there
Jobs's father had once taught him that a drive for perfection meant caring about the craftsmanship even of the parts unseen. Jobs applied that to the layout of the circuit board inside the Apple II. He rejected the initial design because the lines were not straight enough.
In an interview a few years later, after the Macintosh came out, Jobs again reiterated that lesson from his father: "When you're a carpenter making a beautiful chest of drawers, you're not going to use a piece of plywood on the back, even though it faces the wall and nobody will ever see it. You'll know it's there, so you're going to use a beautiful piece of wood on the back. For you to sleep well at night, the aesthetic, the quality, has to be carried all the way through."
Measured by the number of its features
A primary cause of complexity is that software vendors uncritically adopt almost any feature that users want. Any incompatibility with the original system concept is either ignored or passes unrecognized, which renders the design more complicated and its use more cumbersome. When a system's power is measured by the number of its features, quantity becomes more important than quality. Every new release must offer additional features, even if some don't add functionality.
There is no kogin that can be called poor
Ensuring Excellence
An Article by Marty Cagan…in so many of the best product companies there is an additional dimension that goes beyond individual empowered product teams, and even goes beyond achieving business results.
It has to do with ensuring a level of what I’ll refer to here as “excellence” although that is clearly a very ambiguous term.
Over the years, this concept has been referred to by many different names, always necessarily vague, but all striving to convey the same thing: “desirability,” “aha moments,” “wow factor,” “magic experiences,” or “customer delight,” to list just a few.
The concept is that an effective product that achieves results is critical, but sometimes we want to go even beyond that, to provide something special.
Maybe it’s because we believe this is needed to achieve the necessary value. Maybe it’s because the company has built its brand on inspiring customers.
Often this dimension shows up most clearly in product design, where functional, usable but uninspiring designs can often achieve our business results, but great design can propel us into this realm of the inspiring.
Avant-Garde and Kitsch
An Essay by Clement GreenbergCapitalism in decline finds that whatever of quality it is still capable of producing becomes almost invariably a threat to its own existence.
Weinberg's Law
A Quote by Gerald WeinbergIf builders built buildings the way programmers wrote programs, then the first woodpecker that came along would destroy civilization.
The value-destroying effect of arbitrary date pressure on code
An Article by Gandalf HudlowThe mandate from above is clear, just get it done! Avoid everything that's in the way: all advice, all expertise, all discovery efforts that detract from hitting the Date™!
What these organizations don't realize is that all software change can be modeled as three components: Value, Filler and Chaos. Chaos destroys Value and Filler is just functionality that nobody wants. When date pressure is applied to software projects, the work needed to remove Chaos is subtly placed on the chopping block. Work like error handling, clear logging, chaos & load testing and other quality work is quietly deferred in favor of hitting the Date™.
Minimum Awesome Product
An Article by Carlos BeneytoUsers are accustomed to a minimum of quality, and they expect that of all new products.
If our product does not [meet basic expectations of quality], people will automatically believe that it is a bad product and they will not take it seriously. It is not what they expect.
Hence my suggestion that the MVP has died and the MAP: Minimum Awesome Product was born.
What happens to user experience in a minimum viable product?
An Article by Ryan Singer"Feature complexity is like surface area and quality of execution is like height. I want a base level of quality execution across all features. Whenever I commit to building or expanding a feature, I'm committing to a baseline of effort on the user experience."
There’s a distinction to make: The set of features you choose to build is one thing. The level you choose to execute at is another. You can decide whether or not to include a feature like ‘reset password’. But if you decide to do it, you should live up to a basic standard of execution on the experience side.
Features can be different sizes with more or less complexity, but quality of experience should be constant across all features. That constant quality of experience is what gives your customers trust. It demonstrates to them that whatever you build, you build well.
Why YKK zippers are the brown M&Ms of product design
An Article by Josh CentersA ‘pro tip’ for evaluating the quality of a piece of gear is to look at the small details, such as zippers and stitching. Cheap-minded manufacturers will skimp on those details because most people just don’t notice, and even a cheap component will often last past a basic warranty period, so it’s an easy way to increase profits without losing sales or returns.
If a designer does bother to invest in quality components, that’s a tried-and-true sign that the overall product is better than the competition.
The McNamara fallacy
A DefinitionThe McNamara fallacy, named for Robert McNamara, the US Secretary of Defense from 1961 to 1968, involves making a decision based solely on quantitative observations (or metrics) and ignoring all others. The reason given is often that these other observations cannot be proven.
The fallacy refers to McNamara's belief as to what led the United States to defeat in the Vietnam War—specifically, his quantification of success in the war (e.g., in terms of enemy body count), ignoring other variables.
Artifice, blindness, and suicide
A QuoteThe first step is to measure whatever can be easily measured. This is OK as far as it goes. The second step is to disregard that which can't be easily measured or to give it an arbitrary quantitative value. This is artificial and misleading. The third step is to presume that what can't be measured easily really isn't important. This is blindness. The fourth step is to say that what can't be easily measured really doesn't exist. This is suicide.
Figma's Engineering Values: Craftsmanship
An ArticleCraftsmanship is about thoughtfulness and care in the work we do. It means being deliberate about what we build and how possible it will be to maintain and extend in the future. A solution that will require revisiting in a month — because it’s not scaling, because it has a ton of bugs, because it doesn’t support all the use cases it needs to — is not useful to us and ultimately will generate pain for our users.
What we trade off by living this value is (sometimes) day-to-day speed. It’s easy to imagine an engineering team that emphasizes moving fast over keeping things stable and bug-free -- like a team building a product that isn’t responsible for important user data and doesn’t support anyone’s livelihood. But given the role the Figma product plays in the lives of our users, we feel it’s worth it to ensure we hold a high quality bar for them. And in the long run, being thoughtful about how we build often reduces the complexity of ongoing development and new features regardless.
The psychology of a discount
An Article by John MaedaFound on a wall.
The bitterness of poor quality remains long after the sweetness of low price is forgotten.
The Battle for the Life and Beauty of the Earth
- Two generating systems
- Two types of building production
- System A
- System B
- This has harmed modern society greatly
Two generating systems
Imagine a town of type "A" — a neighborhood, if you like, and allow yourself to consider that it has the quality of birds, moss-grown stones, waves breaking on a small shore, pools in which crabs and shells present themselves. Because of the depth and scope of its structure, this world is almost infinite in its richness.
Compare this imagined town with a more usual neighborhood of type "B", typical of modern property development, where there is a stale and ugly air of repetition. Even when variation is attempted, this variation does not flow from the reality of living. Rather it is manufactured variety — an attempt to create something interesting. But what we feel instead is something flat, without excitement, without the urgent joy of life.
These two kinds of places, then, A and B, are typically generated in two different ways. We may therefore call these two different generating systems A and B.
Two types of building production
There are, loosely speaking, two types of building production. Type A is a type of production which relies on feedback and correction, so that every step allows the elements to be perfected while they are being made. This is not unlike the way a good cook tastes a soup while cooking it, checking it, modifying it, until it tastes just right. Type B is a type of production that is organized by a fixed system of rigidly prefabricated elements, and the sequence of assembly is much more rigidly preprogrammed. This type became commonplace in the 20th century, and is still widely used.
System A
System A is concerned with the well-being of the land, its integrity, the well-being of the people and plants and animals who inhabit the land. This has very much to do with the integral nature of plants, animals, and water resources, and with the tailoring of each part of every part to its immediate context, with the result that the larger wholes, also, become harmonious and integral in their nature.
System B
System B is concerned with efficiency, with money, with power and control. Although these qualities are less attractive, and less noble than the concerns of System A, they are nevertheless important. They cannot be ignored. If we are traveling in an airplane, or a high-speed train, we shall often be very glad that this system is constructed under the guidance of some version of system B.
This has harmed modern society greatly
System A places emphasis on subtleties, finesse, on the structure of adaptation that makes each tiny part fit into the larger context. System B places emphasis on more gross aspects of size, speed, profit, efficiency, and numerical productivity.
However, during the last hundred and fifty years, because of choices that nations and states have made in modern times, System B has become the dominant production system for the environment (for land and towns and regions), largely to the exclusion of System A. This has harmed modern society greatly.
Arcade
Here is an interior street on the Eishin campus, with an arcade opening from the back of the classroom buildings. The arcade steps up as the street goes along the slope. Because the natural contours of the land are preserved, the arcade jumps up, in small increments, as it goes along. Steps are inserted where needed; and in plan, too, the arcade follows a gentle series of curves and bends, following the natural character of the land.
This aspect of a street is not usually present in large construction projects, which typically destroy the natural character of the land, and tend to start with a blank "page" that has been created by perfect grading and flattening.
Transmitted through drawings
Architecture is now only transmitted through drawings. The typical architect does not personally know how to make anything — not buildings, not windows, not floors or ceilings. He or she draws drawings. Some other organization then produces buildings from these drawings. We are, by now, so deeply enmeshed in this way of thinking, that it doesn't sound like idiocy.
The life-giving continuum
In System A, creation and production are organic in character, and are governed by human judgments that emanate from the underlying wholeness of situations, conditions, and surroundings.
In System B, the production process is thought of as mechanical. What matters are regulations, procedures, categories, money, efficiency, and profit: all the machinery designed to make society run smoothly, as if society was working as a great machine. The production process is rarely context-sensitive. Wholeness is left out.
Identifying these two categories helps us sharpen and clarify the range of differences among ways of creating the environment that exist in different societies. And the two categories serve to identify a dimension of great importance: the dimension that runs from more life-giving to less life-giving.
Blueprints
Blueprints lead to the making of things that are abstract, not always based on reality. Once something becomes abstract, it breeds disconnectedness — separation and the inability to connect with our surroundings. People buy houses from blueprints, but then don't like the actual house: "What on earth is this? I had no idea it was going to be like this...etc."
Hopes and dreams
The very first thing we did was spend two weeks just talking to different teachers and students, to get a feeling for their hopes and dreams. These talks were one-on-one and often lasted about an hour, for any one interview, during which we asked questions, talked, probed, explored dreams of an ideal campus, and tried to understand each person's deepest visions as a teacher, or as a student. We asked people about their longings, and their practical needs. We asked them to close their eyes and imagine themselves walking about in the most wonderful campus they could imagine.
Mixed use
Pattern 5.5 – Every sports field is always attached to some building which has nothing to do with the particular sports function. Thus, for instance, the tennis courts may be next to the art studio, and placed so that people entering the art studio are just at that place where the tennis court is most enjoyable to watch.
Secret garden
Pattern 7.7 – There is also one garden, so secret, that it does not appear on any map. The importance of the pattern is that it must never be publicly announced, and must not be in site plan. Except for a few, nobody should be able to find it.
In the mind's eye
In System A, it is always the wholeness of the place that matters. To intensify the wholeness of any place — whether it consists of existing buildings in a town, or of virgin land that is largely unbuilt — proposed construction and buildings must be decided, and that means "felt" and thought through on the site itself. It is really not possible to do it any other way, since the relationships which exist between the buildings and the world around them are complex and subtle.
On a drawing or a plan, one simply does not see enough. The drawn plan does not give enough information. So trying to make decisions by drawing on a plan is doomed to failure. To produce a plan that has reality, and to bring the actual place itself to life, decisions are made gradually, on the site itself, under circumstances where one visualizes the situation as the whole it really is. Step by step, this brings building positions to life in the mind's eye — and so, in imagination, one conceives the buildings literally, in their full size and volume as they are really going to be.
Simulacra and simulation
The situation of contemporary construction is more likely to be that a building still gets its character first as an image, drawn on paper, by an architect's fantasy, a simulacrum which is then physically built in cheap and flimsy studs and sheetrock, concrete panels, cardboard — or in whatever conventional system of construction the contractor has on hand.
Sadly, this is where the dull, lifeless, and stereotyped character of buildings in the 20th century mainly came from. It is also, at the same time, where the wild and fantastic egotistical shapes of the present era come from. They are conceived and carried out as images, or part-images, not as built, solid, made works. These papery, System B things are not conceived and made for the sake of their material reality. The feeling one gets in the presence of these buildings does not fill the onlooker with the beauty or the presence of the material substance.
Power law
Buildings which most profoundly communicate subtle harmony are composed of a complex mixture of materials, with the overall amounts of different materials jumping in a calibrated cascade — typically according to a power law. The relative proportions — the statistical distribution of materials by quantity of total visible area — is critical. It is this specific distribution, not just the mixture, which creates depth of feeling.
Elements of Eishin
Each of the elements in the following list were essential to the creation of every space and every building at Eishin:
- The way each building relates to its surroundings, as well as the ground on which it stands.
- The geometry directed by its position in the whole and its function.
- Working with people who will inhabit the spaces.
- The immensely detailed use of models and experiments.
- The search for beautiful materials and ways of making the buildings that should stand there.
- The careful use of money in a manner that reflects the values of the endeavor.
- Creation of positive space, at every turn, and every scale.
- Placing materials between other nearby materials that are similar, and wedging harmonious materials in-between.
- Interlocking spatial links forming a two-dimensional sheet of courtyards, buildings, and openings.
Our responsibility
As makers of buildings, we architects must start now,
with a fundamental change of direction.
For the last hundred years or so, we have understood
building to be an art in which an architect draws a building,
and a contractor then builds that building from the
architect's plans.
But a living environment cannot be built
successfully this way.To achieve a successful building — one that has life — we
must focus our attention on all the crafts and processes,
and then, as architects, ourselves take direct charge
of the making.
We must take full responsibility
for the entire building process, ourselves.
Unfolding
In short, the architect is responsible for building construction, is watching the building unfold continuously, and is making ongoing modifications as it becomes clear from each given stage, what modifications and changes should be made at each moment. And this is all to be done within a management framework that controls budget and cost very tightly.
Direct management
Direct Management does not include or permit the concept of profit to occur. The management is fee-based, or based as a fixed salary, and all construction costs are fixed ahead of time, and the building design is modified during construction, to make up any over-runs. The manager is not able to move money around at will, or put it in their pocket. At the same time, the design is approximately fixed, but with the understanding that it may be changed, during the evolution of the building, so that subtle adaptations can be included in the emerging building. In the Direct Management method it is the architect themselves and the direct manager who together manage the building works and all on-site construction for the owner.
The problem of schedule
We have emphasized, from the beginning, that in order to achieve really profound quality in this project, it is necessary to be able to modify it continuously, during the process of construction. This in turn requires that the Manager is alive to the fact that important decisions are being faced at every stage, and is aware that one of the most important things that is happening, is the evolution of the building designs, while they are being built.
We have a strong intuition that a general contractor will interfere with this process, no matter what is said in advance. The reason is this: All the large general contractors we have interviewed are strongly oriented to the problem of schedule. Of course, this is one of their strengths. However, we are convinced that they are so strongly oriented to this problem, that they will ultimately kill the life of the project, in order to achieve enough management control to be able to guarantee schedule.
We must get our hands dirty!
We must get our hands dirty!In every work of architecture, the construction details are the heart of the project, and the true makers of the project are the ones who make the details, who make the materials directly, and who are not afraid to get dirt
under their fingernails.
We feel it in our fingers
In System A, there is no architect separate from the contractor. We are builders, simply. As builders, we have a direct feeling about construction. We feel it in our fingers, so it is down to earth. One result of this down-to-earth quality is that everything is somewhat experimental. We make experiments all the time. Sometimes we place a piece of wood this way. Another time, we may like to try it that way. Any time something new comes up in the design of a building, we are very likely to try and invent the best way of building it. This is not a great big invention. Just a simple invention, the way we might invent a way of tying a piece of string, to hold a broken toy together. It is just practical.
Four principles
The essential purpose of Direct Management, as we understand the term, is to create buildings which are whole. This means that each part of the building is right in relation to the other parts, and to the part of the land that makes the buildings and the land more beautiful.
I will try to summarize the real meaning of Direct Management.
- The design evolves during construction. This means that the form of control over designs does not stop when drawings are finished, but goes on, continuously, before, during, and after construction. This cannot be done if architect and contractor are separate, or consider their jobs separately. It will only happen if the person who controls the design at the beginning actually controls the construction, too.
- Flexible cost control. Cost control requires continuous changing of ideas about what is built, in relation to money that is available, and in relation to what has been done already.
- Experience with one's hands. It is also impossible for an architect to have enough knowledge to control the process successfully, unless they have experienced almost every phase of construction with their own hands.
- Love of craft and the joy in the physical process of making. In the old days, making a building was clearly understood as a work of making. In this word, designing and physically building are inseparable. However, in the modern world, design has become separated from construction. Architects think of their work as designing, on paper, with the idea that the building process is a separate process. This is not what I call making at all. A good building can only be created, when it is deeply understood as something which is made, by a direct connection of the act of making, and the act of feeling, with your hands.
Guided by image
In our minds, the drawings we had originally made for the columns and capitals were no more than first approximations of the final shapes. We assumed that we would work out the real shapes during construction, and left the inaccurate approximations on our drawings, just for the sake of the building permit. Fujita, used to working with architects in System B, assumed that whatever was on our drawings must be what we wanted, and must be implemented as drawn.
Anybody who was making those column capitals, if they had seen this "double" capital, and had been free to make something harmonious, would have done it differently. But Fujita's people, in System B, did not know how to be guided by reality. They were guided by "image".
So Fujita, in this situation, was not free to respond in a natural way to what they saw. They were trapped by the image-making process they were used to. But because of this, they doomed their own carpenters to a pretentious kind of slavery, producing whatever silly images they were told to do, without being able to ask themselves whether they were beautiful, and unable to use their own sense of reality to make them better.
Invisible substance
We wanted wood, not only in many visible places, but also in the roof trusses of the homeroom buildings, where they are invisible. Fujita wanted to replace the invisible trusses with steel trusses. They could not understand the idea that it was the actual substance — even though not visible — which would control the feeling of the thing.
A practical and sacred act
The emotional energy of a building can be achieved, only if the artists who make and shape the building are genuinely responsible for the way the building gets its shape. To put this another way around, it means that if we fail to take the practical responsibility for the acts of shaping, the emotional energy of the building will almost certainly be false. If the emotional quality of the building is to be alive, and is to be seen, understood, and felt by the people who live there or work there, then this task must not be handed on to someone else. The life and magnificence of the buildings will come to fruition only if we architects, or master builders, or artists — or for that matter, lay people — any of us — take on the task of shaping as a practical and sacred act.
In the walls and mosses
If we reach such a very ordinary state of daily life, and then back it up with building and construction that comes from the depths in us, then that gradually accumulates our value in the world, all of us together as a whole. Later, then, perhaps hundreds of years later, people will look back at our stones and say to themselves, "My word, those people way back then — they certainly knew how to live," and they would say this because they could see the lingering whispers in the walls and mosses, and could read them, and could treasure them, and would learn from these traces how to live like that again.
Melt
In many late 20th century buildings, the architect focused attention on a few strongly defined elements. Usually, the way the building stood out in its surroundings was very sharp, and intentionally separated from the buildings that surround it.
Real architecture comes about in a different way. If the architecture is real, there will be thousands of living centers; many of them modest, all of them having direct impact on human beings. In this condition, there is an overall wholeness in the building and the zones nearby, but this quality is not aggressive nor too sharp. It rather creates a condition where the building melts into the town, or street, or garden where it is placed.
Umbrella
From the curator's visit to a place that captures all the beauty, depth, and wholeness it attempts.