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 Energy Flow Circuits
-	132 Chrome Plates
+- 33 Superconductors
-	132 Titanium Plates
+- 132 Chrome Plates
-	66 Chrome Ingots
+- 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:
+**Important Base Material Totals**:
-	60 Data Control Circuits
+- 228 Energy Flow Circuits -> 228 Lapotron Crystals, 228 Platinum, 9576 Redstone (including redstone to lapis), 2052 Copper, 4104 Rubber
-	300 Chrome Plates
+- 526 Chrome
-	120 Titanium Plates
+- 280 Titanium
-
+- 50 Iridium Plates / 200 Iridium Ingots
-Other compos:
+- 264 Beryllium Cells
-	60 Energy Flow Circuit
+- 1056 Dense Copper Plates
-	4 Data Orb
+- 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
+

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 IBFs on chrome -> 1:27h, 512EU/t
-- 4 electrolyzers -> 0:51h, 200EU/t
+- 4 electrolyzers -> 0:55h, 200EU/t
-- 3 stacks of redstone centrifuges -> 2:16h, 1280EU/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
 

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.