What problem are you trying to solve? If it's not this one: 71 ORE => 8 CNZTR 7 ZLQW, 3 BMBT, 9 XCVML, 26 XMNCP, 1 WPTQ, 2 MZWV, 1 RJRHP => 4 PLWSL 114 ORE => 4 BHXH 14 VRPVC => 6 BMBT 6 BHXH, 18 KTJDG, 12 WPTQ, 7 PLWSL, 31 FHTLT, 37 ZDVW => 1 FUEL 6 WPTQ, 2 BMBT, 8 ZLQW, 18 KTJDG, 1 XMNCP, 6 MZWV, 1 RJRHP => 6 FHTLT 15 XDBXC, 2 LTCX, 1 VRPVC => 6 ZLQW 13 WPTQ, 10 LTCX, 3 RJRHP, 14 XMNCP, 2 MZWV, 1 ZLQW => 1 ZDVW 5 BMBT => 4 WPTQ 189 ORE => 9 KTJDG 1 MZWV, 17 XDBXC, 3 XCVML => 2 XMNCP 12 VRPVC, 27 CNZTR => 2 XDBXC 15 KTJDG, 12 BHXH => 5 XCVML 3 BHXH, 2 VRPVC => 7 MZWV 121 ORE => 7 VRPVC 7 XCVML => 6 RJRHP 5 BHXH, 4 VRPVC => 5 LTCX what problem is it? I get 1,341,336 from ILP with GLPK. One variable for each of 17 reactions. I have no idea why you would need an explicit bound on ORE consumption. A trillion seems a bit excessive.
From where are you getting your correct answer?
-- Michael [email protected] "Sorry but your password must contain an uppercase letter, a number, a haiku, a gang sign, a heiroglyph, and the blood of a virgin." -- someeecards
