Guy From Cowboy Game

i finished the game

I think more portal fanfic writers should take advantage of the fact that glados *is* the facility.

She's not just in her chamber, she controls the entire place!!!! She is the entire place!!!!

Need more people to get quirky with it in fanfics. Chell kisses the wall in the middle of a test to distract Glados. or cuddles with her by just like. Sitting in small room.

Instead of holding hands she drags her hand across the wall as she walks through hallways. Takes care of her by cleaning the place sometimes.

Can you tell I'm. So normal about portal.

Water, the stuff of life itself

I'm going back to my playful colour era, never really realised I left it until my paintings became a little stale. Anyway, please say yes she's really over here like 🥺👉👈

Re-Re-Re-mapping Revachol

… and the Insulinde as a whole

Very much inspired by ssshiversss and Map Max, whose versions of the map were absolutely invaluable for wrapping my head around this project. Combining their work with the original map of Jamrock, and doing my best to stay loyal to the (often contradictory) descriptions in the text of the game, I think I’m happy with what I’ve ended up with.

Much like my predecessors, I have elected to separate Coal City and La Delta, and in fact ignore any attempt by the game to convince me that La Delta is west of Martinaise. It just… It just isn’t.

Game description struggles aside, this was really fun!! Details/Description in the alt text.

I just like maps

for april fools this big disco elysium youtuber just pulled a fucking King-ass move and instead of a prank leaked everything about the cancelled version of Disco Elysium's sequel

like the version they were thinking on before the implosion

IT WAS GONNA BE ABOUT CUNO

https://www.youtube.com/watch?v=Dde8H1YhP-U

(copied from a message a friend sent me. i thought you'd enjoy this)

hey i haven't watched the full thing but this is fuckin insane. i love this and hate this and I'm gonna rip my hair out and draw fanart about this probably. thanks for sending this.

EDIT: now I've watched the whole thing and holy fuck is it fascinating. fascinating and heartbreaking that regardless of it's authenticity it's not real. i was particularly and especially enthralled by the art of new characters and the hints of what would've potentially happened

ughhhhh im gonna go crazy

The Locust City video has been taken down by ZA/UM. I’ve never been more angry.

And a close-up because the file is like GIANT

MAPPING REVACHOL (2.0)

Back in July of 2024, I was incredibly inspired by the project Mapping Revachol by Map Max and wanted to continue on with an attempt of my own. The canon map we're given felt out of date and more than a little incongruous with what we're told in-game, and being both an avid fanfic writer and compulsive visualizer, I really wanted to be able to see Revachol in my mind's eyes.

So, taking inspiration from both Map Max's attempt, as well as meticulously combing through in-game dialogue (with the help of my intrepid friend and far more meticulous researcher than I, @spine-y) we scoured Fayde for any and all directional references to the different districts of Jamrock, East and West Revachol, and everything that lay beyond. (Shoutout to the MoralIntern questline, that one came in clutch).

I took a few liberties with district placement, especially because the wiki also seems to contradict a few things we're told in the game. You may not agree with my choices, and I'm open to suggestions! I may not make any changes anytime soon because this took forever, but I also welcome any other attempts to map Revachol!

(The red line that cuts through Central Jamrock and Faubourg is Boogie Street!)

Included below is my initial sketch before I realized that doing this in markers and microns would actually be the death of me, and then some of the early screenshots of trying to figure out what the hell the 8-81 would actually look like and how to make it make sense.

Does it make perfect sense? No! I'm not a cartographer; I'm a fanartist. I'd much rather draw men dicking each other down nasty style. But this was an incredibly fun project that only took me... only six months to complete.

I hope you enjoy!

--

I NEED YOU.  YOU CAN KEEP ME ON THIS EARTH. BE VIGILANT. I LOVE YOU.

Memory Hacks: Neuroscience Behind Efficient Memory Techniques

Memory is an elusive neural process concerning the interaction of various parts of the brain, neural tracts, and neurotransmitters. Considering popular memory hacks, we have learned how such techniques used structures and mechanisms of the brain in their own way to make the information more available. Let's carefully look into eight memory hacks and why they work on a neuroscientific level.

The Memory Palace Technique and the Hippocampus: The so-called Memory Palace, or method of loci, in its overall functioning relies on the brain's spatial memory system, enlisting primarily the hippocampus. The hippocampus is placed within the medial temporal lobe and plays a vital role in producing and retrieving spatial and episodic memories. This particular area was more significant for our ancestors with regard to orientation and mapping of their environment, a skill directly related to survival. When you visualize putting things in places you know well, your hippocampus is associating the spatial memory of that place with more abstract information you want to remember. Such an association results in a strong memory trace, since spatial memory is more robust and resilient. The technique also engages the parahippocampal gyrus, which processes visual-spatial context, thereby facilitating retrieval by mentally "walking" through the familiar place.

The Spacing Effect and Synaptic Plasticity: The spacing effect, otherwise known as spaced repetition, is based upon synaptic plasticity, which means the strengthening of synapses through repeated activity. So, when something is reviewed over a longer period of time, it strengthens the neural pathways related to that memory. This reinforcement happens during consolidation, a process heavily supported by the hippocampus and prefrontal cortex. Each time the information is revisited, it causes long-term potentiation-a process whereby repeated stimulation of neurons strengthens synaptic connections. LTP simply makes it easier for those neurons involved in that memory to fire together simultaneously, therefore creating a stronger memory pathway. Such periodic reinforcement will enable the memory to move from short-term to long-term storage and thus set it firmly in the neocortex for long-term recall.

Visualization and Multi-Sensory Memory Encoding: Visualization techniques capitalize on multi-sensory memory encoding to engage not just the hippocampus but also the occipital lobe for visual processing and the fusiform gyrus involved in object and face recognition. Transposing these more abstract pieces of information into vivid mental images through visualization naturally creates a deeper sensory trace, which the brain favors and finds easier to remember. When we visualize, neurons in the visual and sensory cortex fire in patterns that resemble actual sensory experience; detaied and richly encoded memory representations are thus built. This multisensory approach will include the amygdala if there is an emotional component of the visualization, thus forming emotionally laden memories which are even easier to recall because of their strength in memory consolidation.

Teaching or Explaining and the Role of Elaborative Rehearsal: Teaching others or explaining increases retention due to elaborative rehearsal, where the new information is related to the knowledge that already exists. This strongly engages the prefrontal cortex, an area involved in comprehension and planning, along with association cortices that integrate sensory information from multiple regions. Every time you teach something or explain it, you are retrieving information and reorganizing it in your own words. This practice not only reinstates the neural circuits transporting the information but also allows neuroplasticity to be reinforced through reshaping and strengthening synapses participating in this retrieval process, hence making that memory more accessible later. Teaching arouses the dorsolateral prefrontal cortex and, in turn, enhances both comprehension and memory encoding.

Mnemonics, Rhymes, and the Temporal Lobes: Mnemonics, especially those with a rhyme or rhythm, enlist auditory processing centers in the temporal lobes. The auditory cortex of the brain is highly tuned for patterns in sound; for this reason rhythm and rhyme are memorable. Angular gyrus and superior temporal gyrus, both implicated in language processing, are activated when mnemonics are used to encode information as sequences or patterns. The repetition within mnemonics and rhymes strengthens sequential memory by evoking the ability with which the brain is particularly adept: remembering information in order. This systematic encoding, thus, has the potential to support the linkage of abstract information with identifiable auditory patterns and enhance recall. Moreover, the cingulate gyrus, involved in the distribution of attention, could further enhance this by focusing and encoding these rhythmic patterns as memories of items.

Diet, Neurotransmitters, and Brain Health: Nutrition can have a variety of impacts on memory and cognition, from neurotransmitters to structure. Some nutrients are precursors to neurotransmitters studied as influencing cognition. Acetylcholine is a neurotransmitter associated with learning and memory and whose synthesis depends on choline intake. Food containing high amounts of choline, such as egg and fish, should provide an adequate supply for the synthesis of acetylcholine in the basal forebrain. Omega-3 fatty acids are considered essential for neuronal membrane health and ensure that signals between neurons are well transmitted. Antioxidants from fruits and vegetables reduce oxidative stress in the brain, which protects against cognitive decline and promotes neuroplasticity. Adequate nutrition maintains neurotransmitter function & structural integrity in memory regions such as the hippocampus and prefrontal cortex, promoting overall cognitive resilience and facilitating higher memory capacity.

Source: Memory Hacks: Neuroscience Behind Efficient Memory Techniques