report: add acquired skills section
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@ -327,6 +327,87 @@ Problematic: development of a benchmark framework
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# Illustrated analysis of acquired skills
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## Working in a team and project management
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Delivering a product is the goal of working in a business. However the process
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to get from zero to final product is unique to every company.
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During our project management classes, we were taught various ways of planning
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a product from before the first line of code to its final delivery. The
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prevailing culture in our industry in the last decade has been to adopt an agile
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work environment: evolve the product and its product backlog alongside each
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other, adapting to changing requirements. This is in sharp contrast to the
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traditional way of planning projects, called *Waterfall*, where a specification
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of behaviour is drawn upfront, and worked on for a long period of time with
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little to no modification done to that project charter.
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We can say that IMC has embraced a more Agile way of delivering new features:
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the products are continuously being worked on and improved, the work being
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organized into a backlog of issues, partitioned into epics. And similarly,
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the company culture embraces a few of the processes associated with Agile
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programming. The one has most affected me is the daily stand up, a meeting
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organized in the morning to interact with the rest of the team, summarising the
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work that has been accomplished the day before, and what one wishes to work on
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during the day.
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During the times of remote-work because of COVID, interactions with the team at
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large feel more limited than they otherwise would be when working alongside one
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another at the office. I have learned to communicate better with my colleagues:
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explain what I am working on, reaching out to ask questions, and discussing
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issues with them.
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## Working in a large code base
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IMC has a large body of code written to fulfil their business needs. It is rare
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to work on a pre-existing code-base during the school curriculum. The few
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projects that do provide you with a basis of code to complete them are at scales
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that have nothing to do with what I had to get acclimated to at IMC.
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This has multiple ramifications, all linked to the amount of knowledge embedded
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in the code. It is simply impossible to understand everything in depth, one
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cannot hold the entirety of the logic that has been written in their head.
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Due to that difference, my way of writing software and squashing bugs had to
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evolve, from an approach that worked on small programs to one that is more
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scalable: I could not just dive into a problem head-first, trying to understand
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everything that happens down to every detail, before being able to fix the
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problem. The amount of minutia is too large, it would not be productive to try
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to derive an understanding of the whole application before starting to work on
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it.
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Instead I had to revise my approach, getting surface level understanding of the
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broad strokes, thinking more carefully about the implications of an introduced
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change, coming up with a theory and confirming it.
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This is only possible because of my prior experience on the large number of
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projects I had to work on at EPITA, exposing me to a various subjects and
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sharpening my inductive skills, building my intuition for picking out the
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important pieces of a puzzle.
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## Debugging distributed systems
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My work specifically centers around running, interacting with, instrumenting,
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and observing production binaries for use in testing or benchmarking.
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Due to this, and because nobody writes perfect code the first time, I have had
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to inspect and debug various issues between my code and the software I was
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running under it. That kind of scenario is difficult to inspect, make sense of,
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and debug. The behaviour is distributed over multiple separate processes, each
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of which carries its own state.
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In a way that is similar to our Distribute Algorithms final project, to tackle
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those issues I had to think about the states of my processes carefully. I had to
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reflect on the problem I encountered, trying to reverse-engineer what must have
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gone wrong to get to that situation, and make further observations to further my
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understanding of the issue.
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This iterative process of chipping away at the problem until the issue becomes
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self-evident is inherent with working on such systems. One cannot just inspect
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all the processes at once, and immediately derive what must have happened to
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them. It feels more akin to detective work, with the usual suspect not being Mrs
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Pink in the living room with the chandelier, but instead my own self having
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forgotten to account for an edge case.
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# Benefits of the internship
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## Contributions to the company
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