In 2.0, descriptions were added for several entities. It would be nice to have this in Compact Circuits. At least the model name.

Is anyone capable of producing a tutorial video of the features of this brilliant mod ?

I'm only using the lamp thing to publish a signal value outside the compakt circuit - like how much sulfuric acid is being handed through to the processor to use in calculations and what not. Or like train counter where I can easily see the number of trains that have come through the gas station. But I am sure that I am missing some powerful capabilities of this amazing mod.

I downloaded this mod because I had made a circuit network that I was using in several places. I needed about five or eight copies of the circuit on each of Nauvis, Fulgora, Vulcanus, and Gleba, but there just wasn't enough room to put the contraption, so I started looking for circuitissimo, to build circuits inside small containers. Instead, I tried this one, "Compact Circuits", and there was a bit of a learning curve. I had made ample use of display monitors, and did a lot of work so that every signal went through a display monitor for documentation. Then, guess what? I copied and pasted my contraption into the copact circuit, and all the display monitors disappeared, meaning NOTHING was connected. I had to start over, but I found that the internal text output blue-lights from this mod provided even better documentation. (I need a lot of documentation to keep track of what I'm doing.)

Anyway, here is my One Assembler Mall blueprint:

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

I know that it is not perfect. It's probably over-complicated for what it does, and I'm sure there are bugs. It may need to be run in unpacked mode in some circumstances. I'm not quite clear on what the difference between packed and unpacked mode is, but there was one time I saw that it was acting weird, and unpacking it fixed it. At one time, I actually put the roboport input on a long range wireless connection, and it worked, but then I rebuilt the circuit with better documentation, and the long range wireless connection no longer worked, so I had to use a direct connection to the roboport.

Anyway, if you're new to "Compact Circuits" (as I am) maybe this will show you some of the basics of what it can do. I didn't figure out the other 90% of what it can do, but I was pleased with what I did figure out. The only thing I miss about the display panels is the way they rotate, so that it's easy to see how the wires are connected. Otherwise the internal displays are far superior, because you can put entire sentences in the text, and you can read values of the variables.

My contribution yesterday is embarrassingly buggy. I have been debugging all day.

The next version of my contraption is a set up for a single foundry on Vulcanus, connected to a lubricant input, making belts, underground belts, and splitters. This will not work in compact mode. It will start trying to make wire. I have wire in the constant combinators as a deselected option, so my guess is that compact mode enables all fields in your constant combinators.

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

One thing I discovered is that you can use the "offset" of the txt light-combinators to put your text over one of the poles. Thus you can put a label on the pole, and hover over the label to find out what all the signals on the pole are. Brilliant! Great mod!

Is anyone capable of producing a tutorial video of the features of this brilliant mod ?

How's this?

https://youtu.be/4MBzXXpp7RQ