Rumour has it that there is a challenge to generate 1 Billion RF/t. Here at IC² Inc, we don't have to lower ourselves to their level, and we can use EU and convert it (at the 1:4 EU:RF ratio). Unfortunately, that does mean we have to come up with a way to generate 250,000,000 EU/t. Here's what I've come up with:
25 Million Generators - Ignoring the fuel costs (I mean, who doesn't have 25 million coal), this'd take 25 Million RE-Batteries, 25 Million Iron Furnaces and 75 Million Iron Plates. Which broken down further...
- 50 Million Tin Item Casings - 25 Million Tin Ingots (12.5 Million Tin Ore)
- 50 Million Redstone
- 25 Million Insulated Tin Wire - 25 Million Rubber (8,333,334 Sticky Resin), 8,333,334 Tin Plates/Ingots (4,166,667 Tin Ore)
- 75 Million Iron Ingots (35.5 Million Iron Ore)
- 25 Million Furnaces (200 Million Cobblestone), 125 Million Iron Plates (62.5 Million Iron Ore)
Which in total means it'd take 98 Million Iron Ore (Macerated), 16,666,667 Tin Ore (Macerated), 50 Million Redstone, 200 Million Cobblestone and 8,333,334 Sticky Resin. And of course 25 Million items of fuel once you'd made them.
12.5 Million Geothermal Generators - Ignoring the lava costs (I mean, the nether - duh!), this'd take 50 Million Glass, 25 Million Empty Cells, 12.5 Million Generators, 25 Million Iron Item Casings. Broken down...
- 50 Million Sand
- 8,333,334 Tin Plates/Ingots (4,166,667 Tin Ore)
- 12.5 Million Iron Plates/Ingots (6,250,000 Iron Ore)
- 49 Million Iron Ore, 10,416,667 Tin Ore, 25 Million Redstone, 100 Million Cobblestone, 4,166,667 Sticky Resin
Which in total means it'd take 50 Million Sand, 14,583,334 Tin Ore (Macerated), 55,250,000 Iron Ore (Macerated), 100 Million Cobblestone, 25 Million Redstone and 4,166,667 Sticky Resin. And half the nether's worth of lava.
1.2.5 EE2 CASCUC Reactor - Using a design outputting 2000 EU/t, cooled using EE2 generated ice, using old recipes. 125,000 Nuclear Reactors, 750,000 Reactor Casings. Broken down...
- 2.5 Million Glowstone
- 7,541,667 Sticky Resin
- 18,041,667 Tin Ore
- 17,875,000 Iron Ore
- 2.5 Million Lapis Lazuli
- 1 Million Cobblestone
- 7,750,000 Redstone
- 23,625,000 Copper Ore
Which in total means it'd take just as above. My program doesn't bother waiting.
The total uranium needed would be 5,875,000 or 2,937,500 ore. With 734,375 Tin Ore in order to put it into cells too.
250 Million Solar Panels - No fuel costs (I mean, the sun \o/), this'd take 750 Million Coal Dust, 750 Million Glass, 500 Million Circuits and 250 Million Generators. Which broken down further...
- 750 Million Coal
- 750 Million Sand
- 1.25 Billion Iron Ore
- 1.5 Billion Redstone
- 3.75 Billion Copper Ore
- 1,083,333,334 Tin Ore
- 2 Billion Cobblestone
- 83,333,334 Sticky Resin
Which in total means it'd take just as above again (old recipes though). Fun, fun, fun for 250 Million m² of solars.
500 Million Water Mills - No fuel costs (Ignoring the billions of water blocks), this'd take 2 Billion Wooden Planks, 2 Billion Sticks and 500 Million Generators. Which broken down further...
- 2,166,666,667 Tin Ore
- 2 Billion Iron Ore
- 1 Billion Redstone
- 4 Billion Cobblestone
- 166,666,667 Sticky Resin
Should probably work out the new recipes too.
7,812,500 RTG Generators - Plutonium. Lots and lots of plutonium - 46,875,000 RTG Pellets. This'd also take 7,812,500 Reactor Chambers, 7,812,500 Generators and 54,687,500 Iron Item Casings. Which broken down further...
- 89,843,750 Iron Ore
- 15,625,000 Lead Ore
- 18,229,167 Tin Ore
- 15,625,000 Redstone
- 62.5 Million Cobblestone
- 7,812,500 Sticky Resin
Which in total means it'd take ^ that much. It'd also need 140,625,000 Plutonium, and 1.125 Billion Iron Ore for the RTG Pellets. *working out the needed uranium*
Feel free to work out your own solution and post here 
