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Many (most?) engineers go from university to a sizable company significantly distancing them from the actual value their code creates. They labour under the delusion that they’re paid to write code. In fact, they’re paid to make money, and writing code is probably the most expensive way that they can do that. They will often say things like “We should scrap this entirely and re-write it, it will only take 8 months” – often about code that generates 8 figures in revenue and employs several dozen people. Code that pays for their smartwatches. But, of course: Engineers are hired to create business value, not to program things – Don’t Call Yourself A Programmer, And Other Career Advice In my estimate it takes about a decade of experience before engineers start to really internalize this. This can be significantly sped up by having a shorter feedback loop between the code written and the value realized by the engineer. There are two ways to do this: Freelancing Founding Freelancing By freelancing, and doing it well, the reward, is very directly tied to the code written. The best way to do freelance, for the sake of learning, would be to work on fixed cost contracts – which isn’t great freelancing advice, but is excellent for the longterm career. Delivering to someone elses specs makes engineers focused on delivery only the necessary and sufficient code to make that happen. All the correct decisions result in an improvement of the engineers earnings per hour and all mistakes in a reduction. That feedback loop very quickly teaches: The importance of quality and automated testing Architecture and keeping options open Communication and requirements gathering, asking the right questions All of these are factors that come into play once an engineer is breaking the barrier from Senior to management or Staff. Founding a company Founding a company, where the code that you produced secures your salary, teaches those lessons, plus a few others: Understanding the importance tradeoffs that companies make betwen velocity and tech debt It is also an opportunity to learn how to make those tradeoffs well, something engineers aren’t always great at Experience creating the most value possible with the least code Very few enginers pre-emtively suggest ways to test product hyptheses using cheaper appoaches Pragmatism and bias towards shipping and avoidingg gold-plating functionality that is immature Plus you very quickly start to understand why “We should re-write it” is almost never the right business decision. All software engineers should freelance or found a business was originally published by Ognjen Regoje at Ognjen Regoje • ognjen.io on April 18, 2025.
In The Innovator’s Dilemma Christensen talks about how when acquiring a company you might either be acquiring its product or its processes. Depending on which it is, you need to handle the integration differently. I’ve realized that hiring a new manager follows a similar pattern: either they’re expected to integrate into the organization, or be independent and create some change. That expectation depends on whether the team, and possibly the wider organization, function well. If the team is high-performing, why would adding or overhauling processes make sense over fine-tuning existing ones? But new managers often join and immediately start suggesting ways to fix things. In many of these cases, they aren’t suggesting some best practices but are simply trying to have the new company function in a similar way to their previous one. But they never have enough context to justify these changes. What they should do is take a step back and understand why they were hired and what already works. Are they there to run the team as it is and perhaps look for marginal gains in efficiency and effectiveness? Or are they there because things are fundamentally broken and they need to overhaul the organization? In 9 out of 10 cases, it’s the first one. They’re there to ensure the continuity of the team. Therefore in 9 out of 10 cases the objective should be to integrate into the processes as quickly as possible and help iterate. Why are you here, manager? was originally published by Ognjen Regoje at Ognjen Regoje • ognjen.io on April 18, 2025.
I love Ben Brode’s Design Lessons from Improv talk. It presents techniques that we could all use more frequently. I particularly took the “Yes, and…“ to heart. It is an excellent technique, or attitude really, that keeps the conversation going. Conversations often start slow but get progressively more interesting the deeper you go. And “Yes, and…” makes it possible to get there. One of my favorite uses of “Yes, and…” is when someone sends you an article that you’ve already read or a video you’ve already watched. The typical response might be 👍 seen it (A whole site is named after the fact that you’ve already read it) If the other person is interested in having a conversation, you’ve just stopped it in its tracks expecting them to put in all the effort to keep it going. A “Yes, and…” response such as “Yes, I’ve read it, and something you found interesting” opens up the conversation. Even if the other person just wanted to share something they thought you might find interesting, you’ve: a) created an opportunity to exchange opinions and b) put in slightly above the bare minimum of effort to acknowledge that what they shared with you was indeed interesting At work At work, specifically, it is useful in all manner of discussions. Conversations about product, or code, or architecture, or team activities, or customer service all get better when you don’t dismiss but build on top of each other. The value of "Yes, and..." was originally published by Ognjen Regoje at Ognjen Regoje • ognjen.io on April 17, 2025.
One of the best pieces of advice I’ve ever gotten is to take a minute, or a week, after you’ve had a difficult conversation. By and large, people are not unreasonable. They’re not out to get you. They’re not trying to make your life miserable. They’re probably trying to do what they think is right. But tough conversations happen and when they do it’s important to take time to process the information and formulate a more nuanced opinion. To take a work example: picture a conversation where you’re being some particularly heavy feedback You’re confused, you’re sad, you’re angry. You disagree. You want to protest, defend yourself, argue, explain. Doing so, however, would accomplish nothing in the immediate, and probably set you back in the long-term. The other person is probably also upset and stressed about having to have the conversation. Getting defensive would get make them to do the same and the conversation would quickly devolve into one run by emotions. Instead, listen and gather as much information as possible. If possible, try to write as much as you can down. Don’t say much except ask questions and then politely ask for a follow-up meeting in a few days. That will give you the time to process all the information and figure out if they were right, if it might not have been a big deal at all, if there is nuance in the situation or if you were indeed right. Or, as is most likely, some combination of all of the above. You’ll be able to formulate a cohesive model of the situation in your head, which will help you make a better decision or counter-argument if needed. It’ll also give you, and the others, time to cool down and prevent anyone from reacting too emotionally. Come to the follow-up meeting with humility and a willingness to compromise. Recap the previous meeting and make sure that everyone is on the same page. Then explain your understanding of the situation and present your opinion. The end result should be a much more amicable outcome without the need for a third meeting. And while my example is in the context of work, the same is true for personal conversations. So, take a minute. Or a week. It’ll help you make better decisions. During a difficult conversation, remember to take a minute was originally published by Ognjen Regoje at Ognjen Regoje • ognjen.io on April 17, 2025.
There is nothing as inevitable as a re-org when a new VP joins. When a new executive joins they’re often overwhelmed by the amount of context they need to absorb to start being effective. The more seasoned ones aren’t pertrubed by this: they understand that gathering this context is their full-time job for the next several weeks or months. There’s even a book about this period. The less savvy ones, on the other hand, often reach for one of the following coping strategies, depending on the type of role they occupy. This organization makes no sense, we must re-organize it immediately Spoken by a newly joined VP who needs to assess the organization and understand why it is set up the way it is. It results in several workshops about boundaries, Conway’s law and team topologies result in a slightly different, but not materially significant organization. And a VP with a much better understanding of their people, the culture, the product and the challenges. We must document/map it Spoken by a product manager getting to grips with the features they’ll be working on before having read the abundant sales, technical and product reference materials. This usually results in several workshops where there is a lot of “discovery” and “mapping”. In reality, the product manager is getting an in-person crash course. It rarely results in any new discoveries or documentation or maps being produced but always results in a much more confident product manager. We must have a process for that Spoken by a new engineering manager who’s not yet familiar with the existing processes and ways of working. This usually results in the engineering manager starting to write a Confluence page on how the process should work, until one of the team members sends them an existing, but finished, Confluence page on exactly that, but with slight differences. The new page gets a link to the existing ones and is promptly forgotten. Does this process really work for anyone? A sub-category of the above then the process in place is different from their previous employer. This code is so bad, we must re-write it entirely Spoken by a senior but not yet quite staff engineer who’s just getting to grips with a new codebase – often about code that generates 7 or 8 digits in revenue. It results in the engineer spending several hours on an alternative architecture and running it by their team several times. Eventually, they understand that what they’re suggesting is quite similar to what is actually in place, that there is some refactoring and improvements to be done, but it’s nowhere near as tragic as they imagined it to be. Why does this happen? A week or two after joining, depending on how generous the company is, the engineer gets a ticket to work on, the PM is asked about the backlog priority and the EM why their bug injection rate is so high and what they’re doing about it. And they naturally feel lost. The problem is that most companies don’t set an expected timeline for having a person become effective in their position. How to do better? The amount of context required to be effective increases with seniority. But everyone needs a couple of weeks outside of the default onboarding programme to read through their team’s wiki space, to look through the backlog, to pair with their colleagues, to get an understanding of the work the team is doing, to be present at the retrospectives to listen and not have to lead and facilitate. Only after they get the lay of the land can they start contributing in a meaningful way. The managerial fear of the unknown was originally published by Ognjen Regoje at Ognjen Regoje • ognjen.io on April 17, 2025.
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I’ve long been interested in new and different platforms. I ran Debian on an Alpha back in the late 1990s and was part of the Alpha port team; then I helped bootstrap Debian on amd64. I’ve got somewhere around 8 Raspberry Pi devices in active use right now, and the free NNCPNET Internet email service … Continue reading ARM is great, ARM is terrible (and so is RISC-V) →
In my first interview out of college I was asked the change counter problem: Given a set of coin denominations, find the minimum number of coins required to make change for a given number. IE for USA coinage and 37 cents, the minimum number is four (quarter, dime, 2 pennies). I implemented the simple greedy algorithm and immediately fell into the trap of the question: the greedy algorithm only works for "well-behaved" denominations. If the coin values were [10, 9, 1], then making 37 cents would take 10 coins in the greedy algorithm but only 4 coins optimally (10+9+9+9). The "smart" answer is to use a dynamic programming algorithm, which I didn't know how to do. So I failed the interview. But you only need dynamic programming if you're writing your own algorithm. It's really easy if you throw it into a constraint solver like MiniZinc and call it a day. int: total; array[int] of int: values = [10, 9, 1]; array[index_set(values)] of var 0..: coins; constraint sum (c in index_set(coins)) (coins[c] * values[c]) == total; solve minimize sum(coins); You can try this online here. It'll give you a prompt to put in total and then give you successively-better solutions: coins = [0, 0, 37]; ---------- coins = [0, 1, 28]; ---------- coins = [0, 2, 19]; ---------- coins = [0, 3, 10]; ---------- coins = [0, 4, 1]; ---------- coins = [1, 3, 0]; ---------- Lots of similar interview questions are this kind of mathematical optimization problem, where we have to find the maximum or minimum of a function corresponding to constraints. They're hard in programming languages because programming languages are too low-level. They are also exactly the problems that constraint solvers were designed to solve. Hard leetcode problems are easy constraint problems.1 Here I'm using MiniZinc, but you could just as easily use Z3 or OR-Tools or whatever your favorite generalized solver is. More examples This was a question in a different interview (which I thankfully passed): Given a list of stock prices through the day, find maximum profit you can get by buying one stock and selling one stock later. It's easy to do in O(n^2) time, or if you are clever, you can do it in O(n). Or you could be not clever at all and just write it as a constraint problem: array[int] of int: prices = [3, 1, 4, 1, 5, 9, 2, 6, 5, 3, 5, 8]; var int: buy; var int: sell; var int: profit = prices[sell] - prices[buy]; constraint sell > buy; constraint profit > 0; solve maximize profit; Reminder, link to trying it online here. While working at that job, one interview question we tested out was: Given a list, determine if three numbers in that list can be added or subtracted to give 0? This is a satisfaction problem, not a constraint problem: we don't need the "best answer", any answer will do. We eventually decided against it for being too tricky for the engineers we were targeting. But it's not tricky in a solver; include "globals.mzn"; array[int] of int: numbers = [3, 1, 4, 1, 5, 9, 2, 6, 5, 3, 5, 8]; array[index_set(numbers)] of var {0, -1, 1}: choices; constraint sum(n in index_set(numbers)) (numbers[n] * choices[n]) = 0; constraint count(choices, -1) + count(choices, 1) = 3; solve satisfy; Okay, one last one, a problem I saw last year at Chipy AlgoSIG. Basically they pick some leetcode problems and we all do them. I failed to solve this one: Given an array of integers heights representing the histogram's bar height where the width of each bar is 1, return the area of the largest rectangle in the histogram. The "proper" solution is a tricky thing involving tracking lots of bookkeeping states, which you can completely bypass by expressing it as constraints: array[int] of int: numbers = [2,1,5,6,2,3]; var 1..length(numbers): x; var 1..length(numbers): dx; var 1..: y; constraint x + dx <= length(numbers); constraint forall (i in x..(x+dx)) (y <= numbers[i]); var int: area = (dx+1)*y; solve maximize area; output ["(\(x)->\(x+dx))*\(y) = \(area)"] There's even a way to automatically visualize the solution (using vis_geost_2d), but I didn't feel like figuring it out in time for the newsletter. Is this better? Now if I actually brought these questions to an interview the interviewee could ruin my day by asking "what's the runtime complexity?" Constraint solvers runtimes are unpredictable and almost always than an ideal bespoke algorithm because they are more expressive, in what I refer to as the capability/tractability tradeoff. But even so, they'll do way better than a bad bespoke algorithm, and I'm not experienced enough in handwriting algorithms to consistently beat a solver. The real advantage of solvers, though, is how well they handle new constraints. Take the stock picking problem above. I can write an O(n²) algorithm in a few minutes and the O(n) algorithm if you give me some time to think. Now change the problem to Maximize the profit by buying and selling up to max_sales stocks, but you can only buy or sell one stock at a given time and you can only hold up to max_hold stocks at a time? That's a way harder problem to write even an inefficient algorithm for! While the constraint problem is only a tiny bit more complicated: include "globals.mzn"; int: max_sales = 3; int: max_hold = 2; array[int] of int: prices = [3, 1, 4, 1, 5, 9, 2, 6, 5, 3, 5, 8]; array [1..max_sales] of var int: buy; array [1..max_sales] of var int: sell; array [index_set(prices)] of var 0..max_hold: stocks_held; var int: profit = sum(s in 1..max_sales) (prices[sell[s]] - prices[buy[s]]); constraint forall (s in 1..max_sales) (sell[s] > buy[s]); constraint profit > 0; constraint forall(i in index_set(prices)) (stocks_held[i] = (count(s in 1..max_sales) (buy[s] <= i) - count(s in 1..max_sales) (sell[s] <= i))); constraint alldifferent(buy ++ sell); solve maximize profit; output ["buy at \(buy)\n", "sell at \(sell)\n", "for \(profit)"]; Most constraint solving examples online are puzzles, like Sudoku or "SEND + MORE = MONEY". Solving leetcode problems would be a more interesting demonstration. And you get more interesting opportunities to teach optimizations, like symmetry breaking. Because my dad will email me if I don't explain this: "leetcode" is slang for "tricky algorithmic interview questions that have little-to-no relevance in the actual job you're interviewing for." It's from leetcode.com. ↩
I’m something of a filesystem geek, I guess. I first wrote about ZFS on Linux 14 years ago, and even before I used ZFS, I had used ext2/3/4, jfs, reiserfs, xfs, and no doubt some others. I’ve also used btrfs. I last posted about it in 2014, when I noted it has some advantages over … Continue reading btrfs on a Raspberry Pi →
Something like a channel changer, for the web. That's what the idea was at first. But it led to a whole new path of discovery that even the site's creators couldn't have predicted. The post Stumbling upon appeared first on The History of the Web.
