![]() ![]() limiter and circuit board assembler inputs together. With the manufacturer placed we shall now set up the A.I. ![]() Then for the second manufacturer, we shall place this in the opposite direction 10 places away from the input side of the first manufacturer, this will allow us to place a manifold line with elevators later. To get the right placement, make sure that the centre inputs are both centrally located in the second row. Place the first of these two manufactures in the exact same line, again flowing to the right as the previous manufacturers. The second manufacturer in line with the previous manufacturer, again flowing to the right, so that the top side of the manufacturer is against the 7th row.īoth of these manufacturers will be set to high-speed connectors.įinally, we shall place the two manufacturers for supercomputers. The side against the top of the grid should be against the top side and there should be enough room for a merger to be placed in front of the manufacturer. We will now place the manufacturer in the top right-hand corner of the grid. Next, we shall place the second assembler in line with this assembler with the right-hand input over the joint of the fourth and fifth rows. This will be set to producing circuit boards The first assembler will be placed from the centre of the eighth column across the third and fourth row. In order to make this build easier to follow we will skip slightly ahead and place the two assemblers and the four manufacturers. ![]() Part 5 Assembler and Manufacturer Placement. Finally, we will add a merging line flowing to the top of the grid. These constructors should be set to copper sheets and all will run at 100% clock speed. At this point note that we are splitting the copper ingots into a manifold line from the splitter located in the top right-hand corner of the fifth column of the fifth row. We will now run a manifold feeding the constructors from the copper smelting line. Next, we will place our four copper sheet constructors, these should be placed flowing to the right of the build in the first row of the sixth column all the way up to the fourth row. These inputs and output lines should be Mk3 conveyors and all the smelters should be set to copper, with one of these smelters set to 17% clock speed. Next place a splitting manifold on the input side and a merging line on the output side, for this build we place the mergers against the Caterium merging line and should be flowing to the top of the build. These will be placed opposite the Caterium smelters starting from the first row up to the fifth row. ![]() Next, spanning the third and fourth column, we shall be placing six smelters for our copper. The merging line should be using a Mk5 conveyor. Next, merge these all together with mergers flowing from both the bottom and top line, connect these to a merger flowing to the right of the grid placed in the top left-hand corner of the seventh column. Set all these constructors to quickwire with a single constructor underclocked to 67%. Connect these all with Mk 2 conveyors or greater. At this point place two rows of four constructors, they should start directly to the right of the first constructor with one row flowing to the top of the grid and the second flowing to the bottom with their inputs in line with the splitters we’ve just placed. In-front of this place a splitter flowing into the constructor, then place four more splitters parallel to this splitter in the middle of the third, fourth, fifth, and sixth column flowing to the right of the grid. Place the first constructor in the second column spanning the eighth and ninth row. With the Caterium ingots now flowing to the top of the fifth row of the second column, we will now place our nine constructors for quickwire. Note that these smelters will be set to Caterium ingots and one smelter should be set to 93% clock speed. Ensure for the manifold line you are using a Mk4 conveyor belt. On the opposing side, we will also place a merging line flowing to the top of the grid. Next, add a manifold splitting line for each of the smelters. Above this place six more smelters so they are adjacent to one another. Covering the first and second columns we will place the first of seven smelters facing the right of the grid. Supercomputers Super-Efficient Build Guideįirst, we will cover the quickwire. Note that the first column will be bringing in our caterium, our 5th column copper, our eighth column plastic, and finally our thirteenth column computers. This particular build we will be using a manifold system and is set on a nine deep by sixteen wide grid. Returning to our super-efficient build layouts, and following on from our previous computer and plastic guide, we're now looking at supercomputers.įor this supercomputer factory layout, along with researching the caterium tree in the Mam to unlock supercomputers, we will need the following: Supercomputer Super-Efficient Build Guide ![]()
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