From 70f63b2270be6c02e20f753b00b97564d85ff447 Mon Sep 17 00:00:00 2001 From: Anton Reinhard Date: Tue, 30 Apr 2024 00:26:56 +0200 Subject: [PATCH 1/3] Add chrome calculations --- chrome_calcs.md | 49 +++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 49 insertions(+) create mode 100644 chrome_calcs.md diff --git a/chrome_calcs.md b/chrome_calcs.md new file mode 100644 index 0000000..46e7caf --- /dev/null +++ b/chrome_calcs.md @@ -0,0 +1,49 @@ +# Chrome Production Calculations + +**498 total chrome needed** + +## Chrome Ingots from Chrome Dust + +1 chrome dust in an IBF takes 40 seconds. For 498 chrome that would take ~5.5 hours. 4 IBF (one circle around a casing) takes 1:23h. + +Power consumption is 128EU/t per IBF. + +## Chrome Dust from Ruby Dust + +9 ruby dust make 1 chrome dust in an electrolyzer in 25 seconds. For 498 chrome dust, 4482 ruby dust are necessary. In one electrolyzer, this would take ~3.5h. 4 electrolyzers need 51 minutes. + +Power consumption is 50EU/t per electrolyzer. + +## Ruby Dust from Redstone Dust + +10 redstone dust make 1 ruby dust in a centrifuge in 350 seconds. A stack of centrifuges produces 1 ruby dust every 5.47s or 0.183 ruby dust per second. For 4482 ruby dust, a stack of centrifuges needs 6:48h. Two stacks need 3:24h, 3 stacks 2:16h, 4 stacks 1:42h. + +Note that extra rubies will be found by the mining turtles/quarry. + +Each stack of centrifuges consumes 1.8 redstone per second or 110 redstone per minute. For the entire 498 chrome, 44.8k redstone are necessary. + +Power consumption is 320EU/t per stack of centrifuges. + +## Suggestion + +- 4 IBFs on chrome -> 1:23h, 512EU/t +- 4 electrolyzers -> 0:51h, 200EU/t +- 3 stacks of redstone centrifuges -> 2:16h, 1280EU/t + +In 1:23h, the centrifuges would produce 2732 ruby dust, so quarries would need to supplement 1750. + +Total power: ~2000EU/t, needs about 10 boilers + +## Centrifuge cost + +| Item | For 1 Centrifuge | For 1 Stack | For 3 Stacks | +---|---|---|--- +refined iron | 31 | 1984 | 5952 +redstone | 14 | 896 | 2688 +copper | 9 | 576 | 1728 +rubber | 18 | 1152 | 3456 +glowstone | 4 | 256 | 768 +lapis | 4 | 256 | 768 +advanced alloys | 4 | 256 | 768 +coal dust (for carbon plates) | 32 | 2048 | 6144 +planks | 20 | 1280 | 3840 From f8c96811fe0b7c446d340a0a96808f7082031d69 Mon Sep 17 00:00:00 2001 From: Anton Reinhard Date: Tue, 30 Apr 2024 16:19:50 +0200 Subject: [PATCH 2/3] Add more precise fusion material calculations and Chrome --- Notes.md | 76 +++++++++++++++---- .../chrome_calcs.md | 18 ++--- material calculations/iridium_calcs.md | 31 ++++++++ 3 files changed, 103 insertions(+), 22 deletions(-) rename chrome_calcs.md => material calculations/chrome_calcs.md (57%) create mode 100644 material calculations/iridium_calcs.md diff --git a/Notes.md b/Notes.md index e2aef32..734ed7d 100644 --- a/Notes.md +++ b/Notes.md @@ -288,20 +288,70 @@ Keep enough for Assemblers making Data Control Circuits etc. ## Items for Fusion: 33 Fusion Coils: - 157 Energy Flow Circuits - 132 Chrome Plates - 132 Titanium Plates - 66 Chrome Ingots +- 132 Energy Flow Circuits +- 33 Superconductors +- 132 Chrome Plates +- 66 Chrome Ingots +- 132 Titanium Plates +- 33 Iridium Plates +- 264 Beryllium Cells +- 1056 Dense Copper Plates +- 4224 Coal Dust +- 4224 Tin Dust + +120 Advanced Machine Casings (32 (below) + 30 (above) + 24 (inner) + 34 (outer)): +- 60 Data Control Circuits +- 300 Chrome Plates +- 120 Titanium Plates + +1 Fusion Control Computer (not including the fusion coil): +- 4 Data Orbs +- 10 Energy Flow Circuits + +4 Fusion Energy Injectors +- 24 Superconductors +- 32 Energy Flow Circuits +- 16 Chrome Plates +- 16 Titanium Plates +- 2 Iridium Plates +- 16 Lapotron Crystals + +2 Fusion Material Injectors +- 6 Energy Flow Circuits +- 8 Chrome Plates +- 8 Titanium Plates + +1 Fusion Material Extractor +- 3 Energy Flow Circuits +- 4 Chrome Plates +- 4 Titanium Plates + +Total of 57 Superconductors required (15 recipes of 4): +- 45 Helium cells +- 30 Tungsten Plates +- 15 Iridium Plates +- 45 Energy Flow Circuits -120 Advanced Machine Casings: - 60 Data Control Circuits - 300 Chrome Plates - 120 Titanium Plates - -Other compos: - 60 Energy Flow Circuit - 4 Data Orb +**Important Base Material Totals**: +- 228 Energy Flow Circuits -> 228 Lapotron Crystals, 228 Platinum, 9576 Redstone (including redstone to lapis), 2052 Copper, 4104 Rubber +- 526 Chrome +- 280 Titanium +- 50 Iridium Plates / 200 Iridium Ingots +- 264 Beryllium Cells +- 1056 Dense Copper Plates +- 289 Platinum Plates (including the ones for energy flow circuits) -63 Helium Cells + 1 Fusion coil: + 4 energy flow circuits + 1 superconductor + 2 chrome ingots + 4 chrome plates + 4 titanium plates + 1 iridium plate + 8 beryllium cells + 32 dense copper plates + 128 coal dust + 128 tin dust + diff --git a/chrome_calcs.md b/material calculations/chrome_calcs.md similarity index 57% rename from chrome_calcs.md rename to material calculations/chrome_calcs.md index 46e7caf..399102d 100644 --- a/chrome_calcs.md +++ b/material calculations/chrome_calcs.md @@ -1,36 +1,36 @@ # Chrome Production Calculations -**498 total chrome needed** +**526 total chrome needed** ## Chrome Ingots from Chrome Dust -1 chrome dust in an IBF takes 40 seconds. For 498 chrome that would take ~5.5 hours. 4 IBF (one circle around a casing) takes 1:23h. +1 chrome dust in an IBF takes 40 seconds. For 526 chrome that would take ~5:50h. 4 IBF (one circle around a casing) takes 1:27h. Power consumption is 128EU/t per IBF. ## Chrome Dust from Ruby Dust -9 ruby dust make 1 chrome dust in an electrolyzer in 25 seconds. For 498 chrome dust, 4482 ruby dust are necessary. In one electrolyzer, this would take ~3.5h. 4 electrolyzers need 51 minutes. +9 ruby dust make 1 chrome dust in an electrolyzer in 25 seconds. For 526 chrome dust, 4734 ruby dust are necessary. In one electrolyzer, this would take ~3:39h. 4 electrolyzers need 55 minutes. Power consumption is 50EU/t per electrolyzer. ## Ruby Dust from Redstone Dust -10 redstone dust make 1 ruby dust in a centrifuge in 350 seconds. A stack of centrifuges produces 1 ruby dust every 5.47s or 0.183 ruby dust per second. For 4482 ruby dust, a stack of centrifuges needs 6:48h. Two stacks need 3:24h, 3 stacks 2:16h, 4 stacks 1:42h. +10 redstone dust make 1 ruby dust in a centrifuge in 350 seconds. A stack of centrifuges produces 1 ruby dust every 5.47s or 0.183 ruby dust per second. For 4734 ruby dust, a stack of centrifuges needs 7:11h. Two stacks need 3:36h, 3 stacks 2:24h, 4 stacks 1:48h, 5 stacks 1:26h. Note that extra rubies will be found by the mining turtles/quarry. -Each stack of centrifuges consumes 1.8 redstone per second or 110 redstone per minute. For the entire 498 chrome, 44.8k redstone are necessary. +Each stack of centrifuges consumes 1.8 redstone per second or 110 redstone per minute. For the entire 526 chrome, 47.34k redstone are necessary. Power consumption is 320EU/t per stack of centrifuges. ## Suggestion -- 4 IBFs on chrome -> 1:23h, 512EU/t -- 4 electrolyzers -> 0:51h, 200EU/t -- 3 stacks of redstone centrifuges -> 2:16h, 1280EU/t +- 4 IBFs on chrome -> 1:27h, 512EU/t +- 4 electrolyzers -> 0:55h, 200EU/t +- 3 stacks of redstone centrifuges -> 2:24h, 1280EU/t -In 1:23h, the centrifuges would produce 2732 ruby dust, so quarries would need to supplement 1750. +In 1:27h, the centrifuges would produce 2865 ruby dust, so quarries would need to supplement 1868. Total power: ~2000EU/t, needs about 10 boilers diff --git a/material calculations/iridium_calcs.md b/material calculations/iridium_calcs.md new file mode 100644 index 0000000..69eab01 --- /dev/null +++ b/material calculations/iridium_calcs.md @@ -0,0 +1,31 @@ +# Iridium Production Calculations + +**200 total iridium ingots needed** + +## Making Plates + +*No iridium is needed in ingot form, everything can be converted to plates!* + +50 Plates are needed for the Fusion Reactor. Nothing needed for anything else! + +An Implosion Compressor makes 1 plate per second from Iridium Alloy Ingots. That takes a minute for all Iridium Plates needed in the run, using 32EU/t. Basically completely irrelevant other than having to place the machine once. + +For 50 Iridium Plates, 400 Industrial TNT are needed. + +## Making Iridium Alloy Ingots + +Make in a rolling machine using 4 Iridium Ingots, 4 Advanced Alloys and 1 Diamond Dust. Takes 5 seconds per Plate. For 50 Plates that is about 4 minutes. Uses MJ. + +## Making Ingots + +From Ore: Compress 1 ore to 1 ingot. + +From Sheldonite: Grind Sheldonite with mercury cells in the Industrial Grinder. Takes 5s per ore and 128EU/t. Produces 2 Iridium Nuggets and 3 Platinum Dust per ore. Platinum Dust can be centrifuged to Iridium Nuggets 1:1, so in total that is 5/9 Iridium Ingots per Sheldonite Ore. Compress the nuggets into ingots. + +From Ferrous Ore: Grind Ferrous with mercury cells in the Industrial Grinder. Takes 5s per ore and 128EU/t. Produces 1 Platinum Dust per ore. + +## Centrifuging Platinum Dust + +1 Centrifuge takes 1 Platinum Dust (no cells) and makes 1 Iridium Nugget (and 1 tiny pile of Nickel Dust) in 150s using 5EU/t. + +One stack of centrifuges produces 0.427 Iridium Nuggets per second, which is 0.047 Iridium Ingots per second or 2.84 Iridium Ingots per Minute. From 1f595c299dc9981caa2134fc8137e45d89bf6e14 Mon Sep 17 00:00:00 2001 From: Anton Reinhard Date: Tue, 30 Apr 2024 17:35:43 +0200 Subject: [PATCH 3/3] Add images, add titanium calcs, improve notes, add splits --- .gitattributes | 2 + New Attempts/Commands.md | 57 +++++++++++++++++------ Notes.md | 56 +++++++++++----------- images/boiler_turtle_required_items.png | 3 ++ images/boiler_turtle_resupply_station.png | 3 ++ images/boiler_turtle_station_setup.png | 3 ++ images/ibf_setup.png | 3 ++ images/mining_setup.png | 3 ++ images/mining_turtle_compare_blocks.png | 3 ++ material calculations/chrome_calcs.md | 2 +- material calculations/titanium_calcs.md | 17 +++++++ splits.md | 4 ++ 12 files changed, 114 insertions(+), 42 deletions(-) create mode 100644 .gitattributes create mode 100644 images/boiler_turtle_required_items.png create mode 100644 images/boiler_turtle_resupply_station.png create mode 100644 images/boiler_turtle_station_setup.png create mode 100644 images/ibf_setup.png create mode 100644 images/mining_setup.png create mode 100644 images/mining_turtle_compare_blocks.png create mode 100644 material calculations/titanium_calcs.md create mode 100644 splits.md diff --git a/.gitattributes b/.gitattributes new file mode 100644 index 0000000..3a24117 --- /dev/null +++ b/.gitattributes @@ -0,0 +1,2 @@ +*.jpg filter=lfs diff=lfs merge=lfs -text +*.png filter=lfs diff=lfs merge=lfs -text diff --git a/New Attempts/Commands.md b/New Attempts/Commands.md index 867288f..d947085 100644 --- a/New Attempts/Commands.md +++ b/New Attempts/Commands.md @@ -1,21 +1,33 @@ ## miner setup +- place one ender chest, then 4 turtles facing away from it around it, with fuel and preferably labels set, like this: -- place one ender chest, then 4 turtles facing away from it around it, with fuel and preferably labels set +![Mining Turtle Setup](../images/mining_setup.png) + +- give each turtle compare blocks before starting the program like this + +![Mining Turtle Compare Blocks](../images/mining_turtle_compare_blocks.png) **execute commands**: -- pastebin get gGy2HWcF mine -- mine +- `pastebin get gGy2HWcF mine` +- `mine` ## boiler builder -- place turtle infront (facing away) from a resupply station -- provide low pressure boilers, liquid fueled fireboxes and liquiducts in the resupply station -- follow the instructions of the turtle after placing it and starting the program -- give the turtle fuel beforehand +- **give the turtle fuel beforehand** +- place turtle infront (facing away) from a resupply station like this: + +![Boiler Turtle Station Setup](../images/boiler_turtle_station_setup.png) +- the boilers are built infront of the turtle to the right, make sure the ground is even and is at least 2 blocks deep for the water +- provide low pressure boilers, liquid fueled fireboxes and liquiducts in the resupply station like this: + +![Boiler Turtle Resupply Station](../images/boiler_turtle_resupply_station.png) +- follow the instructions of the turtle after placing it and starting the program, required items will look like this: + +![Boiler Turtle Required Items](../images/boiler_turtle_required_items.png) **execute commands**: -- pastebin get ZJt5uwjW boiler -- boiler +- `pastebin get ZJt5uwjW boiler` +- `boiler` ## lava refuel setup @@ -23,16 +35,31 @@ - place 1 bucket of lava in first slot **execute commands**: -- label set -- pastebin get nFSUKiYE lava -- refuel -- lava 10 +- `label set ` +- `pastebin get nFSUKiYE lava` +- `refuel` +- `lava 10` + +## IBF Distribution turtle + +- **give the turtle fuel beforehand** +- place above me interface, set the interface to keep 4 dust (titanium/chrome/tungsten) + +Like this: + +![IBF Setup](../images/ibf_setup.png) + +**execute commands**: +- `pastebin get iq0Xe2KF ibf` +- `ibf` ## grindstone turtle +Place an engineering turtle (turtle with crescent hammer, 3 iron + 1 silver) facing the crank of a grindstone + **execute commands**: -- pastebin get pRPJkvnv grind -- grind +- `pastebin get pRPJkvnv startup` +- `startup` same for the killing turtles in xp farm diff --git a/Notes.md b/Notes.md index 734ed7d..3b56634 100644 --- a/Notes.md +++ b/Notes.md @@ -228,11 +228,11 @@ In 3x3 Chunk Fläche: - 34x Reinforced Machine Casings (54x Steel (plates), 9x Advanced Machine Blocks, 18x Advanced Circuits) - 2x Lava inside -End setup: 4 Stacked on top of each other +End setup: 3 Stacked on top of each other - 4x Titanium -- 7x Chrome (keep an eye on balancing, logistic pipes?) -- 4x Tungsten (need 16x kanthal heating coils, no nichrome) -- 1x Aluminium (if using aluminium for the mixed metal ingots, otherwise 1 is fine) +- 4x Chrome +- 1x Tungsten (need 4x kanthal heating coils, no nichrome) (only 30 total tungsten are needed, 1 IBF takes less than an hour to make those) +- 3x Aluminium (if using aluminium for the mixed metal ingots, otherwise 1 is fine) ### Drop Mob Farms @@ -271,18 +271,31 @@ Keep enough for Assemblers making Data Control Circuits etc. ## End Game -### For Chrome (need 498) -4 Electrolyzers on ruby dust -> chrome dust -2+ stacks centrifuges for redstone -> ruby dust +### For Iridium (need 200) +- Mine 5-6 stacks of Sheldonite Ore +- 2 Grinders for Sheldonite and Ferrous with Mercury Cells +- 1 stack of centrifuges for platinum dust +- Keep ~300 platinum for circuit boards for the fusion -### For Titanium (need 252) -16 Electrolyzers on bauxite dust +More details [here](./material%20calculations/iridium_calcs.md) -### For Beryllium (need 256) -4 Electrolyzers on ender pearl dust +### For Chrome (need 526) +- 4 IBFs for chrome dust -> chrome ingots +- 4 electrolyzers on ruby dust -> chrome dust +- 3 stacks centrifuges for redstone -> ruby dust -### For Helium (need 63) -16 Centrifuges on end stone dust (make with tome of alkahest) +More details [here](./material%20calculations/chrome_calcs.md) + +### For Titanium (need 280) +- 16 electrolyzers on bauxite dust + +More details [here](./material%20calculations/titanium_calcs.md) + +### For Beryllium (need 264) +- 4 electrolyzers on ender pearl dust + +### For Helium (need 45) +- 16 centrifuges on end stone dust (make with tome of alkahest) ## Items for Fusion: @@ -337,21 +350,12 @@ Total of 57 Superconductors required (15 recipes of 4): - 228 Energy Flow Circuits -> 228 Lapotron Crystals, 228 Platinum, 9576 Redstone (including redstone to lapis), 2052 Copper, 4104 Rubber - 526 Chrome - 280 Titanium -- 50 Iridium Plates / 200 Iridium Ingots +- 50 Iridium Plates / 200 Iridium Ingots -> Maximum of 360 or ~6 Stacks of Sheldonite necessary!! - 264 Beryllium Cells - 1056 Dense Copper Plates - 289 Platinum Plates (including the ones for energy flow circuits) - - 1 Fusion coil: - 4 energy flow circuits - 1 superconductor - 2 chrome ingots - 4 chrome plates - 4 titanium plates - 1 iridium plate - 8 beryllium cells - 32 dense copper plates - 128 coal dust - 128 tin dust +## Charging the Reactor: +- Assuming full throughput, the 4 Energy Injectors can accept 32768EU/t, taking about 1 minute to fully charge the required 40 million EU. +- This would require 64 boiler pairs (4 layers) with at least partially charged MFSUs, or 85 boiler pairs without any buffer dedicated to the charging. diff --git a/images/boiler_turtle_required_items.png b/images/boiler_turtle_required_items.png new file mode 100644 index 0000000..bf399e8 --- /dev/null +++ b/images/boiler_turtle_required_items.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:6f5a9b2c94a0761a1a8cc3fce574874121279df54ed3a40a21b0039a869aec06 +size 21978 diff --git a/images/boiler_turtle_resupply_station.png b/images/boiler_turtle_resupply_station.png new file mode 100644 index 0000000..a160462 --- /dev/null +++ b/images/boiler_turtle_resupply_station.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:4a32b2b67ec9bca8d0d743228eb11d22dae120cf87392ac95aae46c347fd31e5 +size 16225 diff --git a/images/boiler_turtle_station_setup.png b/images/boiler_turtle_station_setup.png new file mode 100644 index 0000000..acfd7aa --- /dev/null +++ b/images/boiler_turtle_station_setup.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:7a69c3bf9a411e5fbf2add8f900124aa309e3b40151d7bb85269b69083f9c6a6 +size 252050 diff --git a/images/ibf_setup.png b/images/ibf_setup.png new file mode 100644 index 0000000..a3a05b1 --- /dev/null +++ b/images/ibf_setup.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:693a82856e39092a3ee21a59be2d867f11c858399a02cc777e6cb8f2a25e3f4f +size 750524 diff --git a/images/mining_setup.png b/images/mining_setup.png new file mode 100644 index 0000000..5c68903 --- /dev/null +++ b/images/mining_setup.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:e48a65dbc99b1d3e2612988f5897a17cbb5883ce0dc53a9f5c6030146550473f +size 190385 diff --git a/images/mining_turtle_compare_blocks.png b/images/mining_turtle_compare_blocks.png new file mode 100644 index 0000000..ecec7b5 --- /dev/null +++ b/images/mining_turtle_compare_blocks.png @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:3fe758f358ced91dd859cd9f8157f8c1be6f66013e04ed075cf605c6bfda7e7a +size 5803 diff --git a/material calculations/chrome_calcs.md b/material calculations/chrome_calcs.md index 399102d..b08fb07 100644 --- a/material calculations/chrome_calcs.md +++ b/material calculations/chrome_calcs.md @@ -4,7 +4,7 @@ ## Chrome Ingots from Chrome Dust -1 chrome dust in an IBF takes 40 seconds. For 526 chrome that would take ~5:50h. 4 IBF (one circle around a casing) takes 1:27h. +1 chrome dust in an IBF takes 40 seconds. For 526 chrome that would take ~5:50h. 4 IBF (one circle around a casing) take 1:27h. Power consumption is 128EU/t per IBF. diff --git a/material calculations/titanium_calcs.md b/material calculations/titanium_calcs.md new file mode 100644 index 0000000..4b86bcf --- /dev/null +++ b/material calculations/titanium_calcs.md @@ -0,0 +1,17 @@ +# Titanium Production Calculations + +**280 total titanium needed** + +## Titanium Ingots from Titanium Dust + +1 titanium dust in an IBF takes 50 seconds. For 280 titanium that would take 3:53h. 4 IBF (one circle around a casing) take 58.3 minutes. + +Power consumption is 128EU/t per IBF. + +## Titanium Dust from Bauxite Dust + +12 Bauxite Dust make 0.5 (2 small piles) Titanium Dust in an electrolyzer in 100 seconds using 128EU/t. For 280 Titanium, 6720 Bauxite Dust are necessary. In one electrolyzer, this would take 15:33h. 4 electrolyzers take 3:53h, 16 electrolyzers take 58.3 minutes. + +## Bauxite Dust from Bauxite Ore + +1 Bauxite Ore can be macerated into 4 Bauxite Dust, so 1680 Bauxite Ore are needed. diff --git a/splits.md b/splits.md new file mode 100644 index 0000000..70910f1 --- /dev/null +++ b/splits.md @@ -0,0 +1,4 @@ +- Grind Stone +- Minimum Stone +- 4 Turtles Running +- ME System