# Configuration file display { energy { # Available options: 'FE', 'IC2_EU', 'GT_EU' - Default: FE - Set this to one of those 3 types to have GUI, recipe preview and energy be displayed in that type of energy in ALL ModularMachinery things. [default: FE] S:Display_Energy_Type=FE # Set to true, if the standard 'energy' FE (or RF) should be displayed in the tooltip of the energy hatch along with its transmission rates. [default: true] B:FE_RF_Tooltip=true # Set to true, if GT's energy EU should be displayed in the tooltip of the energy hatch. Will only have effect if GregTech (community edition) is installed. [default: true] B:GT_EU_Tooltip=true # Set to true, if IC2's energy EU should be displayed in the tooltip of the energy hatch. Will only have effect if IC2 is installed. [default: true] B:IC2_EU_Tooltip=true } } energyhatch { size { # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 32768] S:BIG=32768 # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 131072] S:HUGE=131072 # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 524288] S:LUDICROUS=524288 # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 8192] S:NORMAL=8192 # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 16384] S:REINFORCED=16384 # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 4096] S:SMALL=4096 # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 2048] S:TINY=2048 # Energy storage size of the energy hatch. [range: 0 ~ 9223372036854775807, default: 2097152] S:ULTIMATE=9223372036854775807 } limit { # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 32768] S:BIG=8192 # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 131072] S:HUGE=32768 # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 524288] S:LUDICROUS=131072 # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 8192] S:NORMAL=512 # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 16384] S:REINFORCED=2048 # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 4096] S:SMALL=512 # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 2048] S:TINY=128 # Defines the transfer limit for RF/FE things. IC2's transfer limit is defined by the voltage tier. [range: 1 ~ 9223372036854775806, default: 2097152] S:ULTIMATE=9223372036854775806 } tier { # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 4] I:BIG=4 # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 5] I:HUGE=5 # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 6] I:LUDICROUS=6 # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 2] I:NORMAL=2 # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 3] I:REINFORCED=3 # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 2] I:SMALL=2 # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 1] I:TINY=1 # Defines the IC2 output-voltage tier. Only affects the power the output hatches will output power as. 0 = 'ULV' = 8 EU/t, 1 = 'LV' = 32 EU/t, 2 = 'MV' = 128 EU/t, ... [range: 0 ~ 12, default: 6] I:ULTIMATE=6 } gtvoltage { # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 4] I:BIG=4 # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 5] I:HUGE=5 # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 6] I:LUDICROUS=6 # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 2] I:NORMAL=2 # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 3] I:REINFORCED=3 # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 2] I:SMALL=2 # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 1] I:TINY=1 # Defines the GT voltage tier. Affects both input and output hatches of this tier. [range: 0 ~ 8, default: 6] I:ULTIMATE=8 } gtamperage { # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:BIG=2 # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:HUGE=2 # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:LUDICROUS=2 # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:NORMAL=2 # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:REINFORCED=2 # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:SMALL=2 # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:TINY=2 # Defines the GT amperage. Affects both output amperage as well as maximum input amperage. [range: 1 ~ 16, default: 2] I:ULTIMATE=2 } } fluidhatch { tiny { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 100] I:size=100 } small { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 400] I:size=400 } normal { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 1000] I:size=1000 } reinforced { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 2000] I:size=2000 } big { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 4500] I:size=4500 } huge { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 8000] I:size=8000 } ludicrous { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 16000] I:size=16000 } vacuum { # Defines the tank size for the size-type of fluid hatch. [range: 1 ~ 2147483647, default: 32000] I:size=32000 } } general { # Defines the _default_ color for machine casings as items or blocks. (Hex color without alpha) Has to be defined both server and clientside! [default: FF4900] S:general-casing-color=FF4900 }