Gearbox Game Mechanics

The Game Mechanics section of the manual details the internal formula used in the game's calculations. This section of the manual uses pseudo-code and may not be 100% the same as the code in the game.

The Game Mechanics part of the manual is mainly designed to be a reference for the frequently asked question, “Why do I get this rating when I do X, Y, Z?!” Usually, this answer involves many different variables, which this section of the manual demonstrates.

The game mechanics section of the manual shows how the sausage gets made. So you really may want to avoid this portion of the manual if you enjoy the game.

Variables

This is a table of variables and their descriptions used in the formulas.

Sliders

Variable	Description	Variable	Description
Sliders_LowGear_Ratio	Specifications ⇒ Low-End Gearing Slider	Sliders_HighGear_Ratio	Specifications ⇒ High-End Gearing Slider
Sliders_Torque_Max_Input	Specifications ⇒ Maximum Torque Input Slider	Sliders_Tech_Material	Technologies ⇒ Material Quality Slider
Sliders_Tech_Components	Technologies ⇒ Component Quality Slider	Sliders_Tech_Technology	Technologies ⇒ Technology Slider
Sliders_Tech_Techniques	Technologies ⇒ Manufacturing Techniques Slider	Sliders_Design_Ease	Design Focus ⇒ Shifting Ease
Sliders_Design_Dependability	Design Focus ⇒ Dependability	Sliders_Design_DesignPace	Design Focus ⇒ Development Pace
Sliders_Design_FuelEconomy	Design Focus ⇒ Fuel Economy	Sliders_Design_Performance	Design Focus ⇒ Performance

Sub-Components

Variable	Description	Variable	Description
Has_Limited_Slip	Specifications ⇒ Limited Slip Checkbox (If checked, Value is 1)	Has_Overdrive	Specifications ⇒ Overdrive Checkbox (If checked, Value is 1)
Has_Transaxle	Specifications ⇒ Transaxle Checkbox (If checked, Value is 1)	Has_Reverse	Specifications ⇒ Reverse Gear Checkbox (If checked, Value is 1)
Subcomponents_Gearbox_Weight	Gearbox Type Weight Value	Subcomponents_Gearbox_Complexity	Gearbox Type Complexity Value
Subcomponents_Gearbox_Smoothness	Gearbox Type Smoothness Value	Subcomponents_Gearbox_Ease	Gearbox Type Ease Value
Subcomponents_Gearbox_FuelRating	Gearbox Type Fuel Economy Value	Subcomponents_Gearbox_PerformanceRating	Gearbox Type Performance Value
Subcomponents_Gearbox_UnitCosts	Gearbox Type Unit Cost Value	Subcomponents_Gearbox_DesignCosts	Gearbox Type Design Cost Value
Number_Of_Gears	Selected Number of Gears

Global

Variable	Description	Variable	Description
year	Current game year	ex_1d008p_year99	1.008^(year-1899)
ex_1d003p_year99	1.003^(year-1899)	ex_1d01p_year99	1.01^(year-1899)
ex_1d014p_year99	1.014^(year-1899)	ex_1d015p_year99	1.015^(year-1899)
ex_1d017p_year99	1.017^(year-1899)	ex_1d019p_year99	1.019^(year-1899)
ex_1d02p_year99	1.02^(year-1899)	ex_1d0225p_year99	1.0225^(year-1899)
ex_1d027p_year99	1.027^(year-1899)	Global_Interest_Rate	Global Interest Rates as defined in the TurnEvents.xml file
carPriceRate	Global vehicle costs variable as defined in the TurnEvents.xml file	designRandomVal	Random variation based on workmanship image/skill ratings.
Marq_DesignGearboxSkill	Gearbox design skill of the selected marque	PreResearchGearboxAmountEffect	Research team's bonus on gearbox design

Specs

Maximum Torque Support

Values are in lb-ft.

Max_Torque_Support = 10 * Number_Of_Gears + 75 * (ex_1d0225p_year99) * 
    Sliders_Torque_Max_Input + 35 * (ex_1d0225p_year99) * 
    (1-Sliders_LowGear_Ratio) + 15 * (ex_1d0225p_year99) * 
    (1-Sliders_HighGear_Ratio) + 5 * (ex_1d0225p_year99) * 
    Sliders_Design_Dependability + 5 * (ex_1d0225p_year99) * 
    Sliders_Tech_Components + 5 * (ex_1d0225p_year99) * Sliders_Tech_Components
 
Max_Torque_Support = Max_Torque_Support + (Marq_DesignGearboxSkill/5.0)

Weight

Values are in lbs.

Weight = (20 + 15*(Number_Of_Gears+Has_Reverse) + 
    25*Subcomponents_Gearbox_Complexity+15*Has_Overdrive + 
    15*Has_Limited_Slip + 50 * Sliders_Torque_Max_Input - 
    50*Sliders_Design_Performance + 140 * Subcomponents_Gearbox_Weight + 
    30*(1-Sliders_Tech_Material))- 20 * Has_Transaxle;

Ratings

Power Rating

Power_Rating = 100*(Max_Torque_Support/(80 + 150 * (ex_1d0225p_year99) +
    90 * (ex_1d0225p_year99)))
 
if(Power_Rating>100)
    Power_Rating = 100

Fuel Rating

FuelEconomy_Rating = (15*Sliders_Design_FuelEconomy + 15 * Subcomponents_Gearbox_FuelRating +
    13 * (Sliders_LowGear_Ratio) + 10*Sliders_HighGear_Ratio + 
    5*(1-Sliders_Design_Performance) + 6 * Has_Overdrive + 
    2*Number_Of_Gears + 5 * Sliders_Tech_Components + 
    6 * Sliders_Tech_Material + 6 * Sliders_Tech_Technology)
 
FuelEconomy_Rating = FuelEconomy_Rating + (Marq_DesignGearboxSkill/10.0)
 
if(FuelEconomy_Rating>100)
    FuelEconomy_Rating = 100;

Performance Rating

Performance_Rating = 10 * Sliders_Design_Performance + 
    13 * Subcomponents_Gearbox_PerformanceRating + 2*Number_Of_Gears + 
    7 * Sliders_Tech_Technology +6 * Sliders_Tech_Material + 
    7 * Sliders_Tech_Components + 6 * Sliders_Tech_Techniques + 
    15 * (1-Sliders_LowGear_Ratio)  + 10 * Sliders_HighGear_Ratio + 
    4 * Has_Limited_Slip+2*Has_Transaxle
 
Performance_Rating = Performance_Rating + (Marq_DesignGearboxSkill/10.0)
 
if(Performance_Rating>100)
{
    Performance_Rating = 100;
}

Reliability Rating

Reliability_Rating = 20 * std::abs((1.0-Subcomponents_Gearbox_Complexity)) + 
    15 * Sliders_Torque_Max_Input - (Number_Of_Gears+Has_Reverse) +
    10*Sliders_Tech_Material + 10*Sliders_Tech_Components + 
    10 * Sliders_Design_Dependability + 5 * (1-Subcomponents_Gearbox_Complexity) +
    5 * (1-Sliders_Design_Ease) + 5 * std::abs(Has_Limited_Slip-1) +
    5 *  std::abs(Has_Overdrive-1) + 5 * std::abs(Has_Transaxle-1) +
    10 *(1-Sliders_Tech_Technology)
 
Reliability_Rating = Reliability_Rating + (Marq_DesignGearboxSkill/10.0)
 
if(Reliability_Rating > 100)
{
    Reliability_Rating = 100
}

Comfort Rating

Comfort_Rating =  10 * Has_Limited_Slip + 10 * Has_Reverse + 
    40 * Sliders_Design_Ease + 20 * Subcomponents_Gearbox_Ease +
    20 * Subcomponents_Gearbox_Smoothness
 
Comfort_Rating = Comfort_Rating + (Marq_DesignGearboxSkill/10.0)
 
if(Comfort_Rating> 100)
{
    Comfort_Rating = 100;
}

Overall Rating

Overall_Rating = (Power_Rating+FuelEconomy_Rating+Performance_Rating+
    Reliability_Rating +Comfort_Rating +Marq_DesignGearboxSkill )/6
 
Overall_Rating = Overall_Rating + (2.5*PreResearchGearboxAmountEffect);
 
if(Overall_Rating > 100)
{
    Overall_Rating = 100;
}

Manufacturing Requirements

Manufacturing_Req = (10*((Number_Of_Gears+Has_Reverse)/6.0)+20*Subcomponents_Gearbox_Complexity+
    15*Sliders_Torque_Max_Input+5*Has_Overdrive + 5 * Has_Transaxle + 
    5 * Has_Limited_Slip + 7 * Sliders_Tech_Techniques +
    13 * Sliders_Design_Dependability + 5 * 
    ((Sliders_Design_Ease + Sliders_Design_FuelEconomy + 
    Sliders_Design_Performance)/3.0) + 5 * ((Subcomponents_Gearbox_Ease + 
    Subcomponents_Gearbox_FuelRating+ Subcomponents_Gearbox_PerformanceRating +
    Subcomponents_Gearbox_Smoothness)/4.0)) + 10 * 
    ((Sliders_Tech_Material + Sliders_Tech_Components + Sliders_Tech_Technology)/3.0)

Design Requirements

Design_Req = (9*((Number_Of_Gears+Has_Reverse)/6.0)+
    7*Subcomponents_Gearbox_Complexity+ 3 * Has_Overdrive + 3*Has_Limited_Slip+
    3*Sliders_Tech_Technology + 3 * Subcomponents_Gearbox_PerformanceRating + 
    3 *Subcomponents_Gearbox_FuelRating+ 3 * Subcomponents_Gearbox_Ease+ 3 * 
    Subcomponents_Gearbox_Smoothness+ 3 * Sliders_Tech_Material + 2 * 
    Sliders_Tech_Components + 3*Sliders_Torque_Max_Input+ 11 * Sliders_Design_Ease +
    14 * Sliders_Design_Dependability + 15 * Sliders_Design_FuelEconomy + 
    15 * Sliders_Design_Performance)

Miscellaneous

Unit Costs

Unit_Costs =  ((((20*ex_1d01p_year99 + 40 * ex_1d02p_year99 * (Number_Of_Gears + Has_Reverse) +
    60 * ex_1d008p_year99 * Subcomponents_Gearbox_Complexity +
    15 * ex_1d008p_year99 * Has_Overdrive + 65 * ex_1d008p_year99 * Has_Transaxle +
    55 * ex_1d008p_year99 * Has_Limited_Slip +
    20*ex_1d02p_year99*(Sliders_Design_Performance *Sliders_Design_Performance ) +
    25*ex_1d02p_year99*(Sliders_Design_FuelEconomy * Sliders_Design_FuelEconomy )+
    20*ex_1d02p_year99*(Sliders_Design_Ease *Sliders_Design_Ease )+
    45*ex_1d02p_year99*(Sliders_Design_Dependability*Sliders_Design_Dependability) +
    (80*	ex_1d02p_year99* Subcomponents_Gearbox_UnitCosts) +
    30 * ex_1d015p_year99 * 	(Sliders_Torque_Max_Input * Sliders_Torque_Max_Input) +
    40 * ex_1d02p_year99 * (0.5 + (Sliders_Tech_Technology*Sliders_Tech_Technology)) + 
    55 * ex_1d015p_year99 * ((Sliders_Tech_Material * Sliders_Tech_Material) +
    (Sliders_Tech_Components * Sliders_Tech_Components ) + 
    (Sliders_Tech_Techniques*Sliders_Tech_Techniques)) * 
    ex_1d01p_year99)*(Global_Interest_Rate/2.1))) * carPriceRate) * (designRandomVal)
 
hyperSliders = ((Sliders_Tech_Material + Sliders_Tech_Components + 
    Sliders_Tech_Techniques + Sliders_Tech_Technology) +  
    (Sliders_Torque_Max_Input * Sliders_Torque_Max_Input) +
    (Sliders_Design_Performance + Sliders_Design_FuelEconomy +
    Sliders_Design_Dependability + Sliders_Design_Ease))/9.0
 
 
 
hyperCosts = 500 * ex_1d04p_year99 * hyperSliders^4
 
 
Unit_Costs = Unit_Costs + hyperCosts - ((Unit_Costs/10) * (Marq_DesignGearboxSkill/100))

Design Costs

designcost = ((6000*ex_1d017p_year99+250*ex_1d017p_year99 * 
    (Number_Of_Gears+Has_Reverse)+5000*ex_1d017p_year99*Subcomponents_Gearbox_Complexity+
    (hyperCosts * (100*ex_1d027p_year99)) +
    2000*ex_1d014p_year99*(Sliders_Torque_Max_Input*Sliders_Torque_Max_Input)+2000 *
    ex_1d014p_year99*Has_Transaxle+2000*ex_1d017p_year99*Has_Overdrive +
    2500*ex_1d019p_year99*Has_Limited_Slip+2500*ex_1d014p_year99*
    (0.5+(Sliders_Tech_Technology*Sliders_Tech_Technology))+
    2500*ex_1d014p_year99*(Sliders_Design_Performance *Sliders_Design_Performance ) +
    3500*ex_1d014p_year99*(Sliders_Design_FuelEconomy * Sliders_Design_FuelEconomy )+
    4000*ex_1d014p_year99*(Sliders_Design_Ease *Sliders_Design_Ease )+
    8000*ex_1d014p_year99*(Sliders_Design_Dependability*Sliders_Design_Dependability)+
    2200*ex_1d014p_year99*(Sliders_Tech_Techniques *Sliders_Tech_Techniques )+
    2200*ex_1d014p_year99*(Sliders_Tech_Material * Sliders_Tech_Material ))*
    ex_1d014p_year99)  * Number_Of_Gears
 
designcost = (designcost/5)+(designcost*
    (Sliders_Design_DesignPace*Sliders_Design_DesignPace*4.5))

Finish Time

Finish_Time = (3 + 0.35*Number_Of_Gears+1.5*Subcomponents_Gearbox_Complexity+
    Has_Transaxle+0.35*Has_Overdrive+0.35*Has_Limited_Slip +
    0.35*(Sliders_Design_Ease + Sliders_Design_Dependability + 
    Sliders_Design_FuelEconomy + Sliders_Design_Performance) +
    0.35 * (Subcomponents_Gearbox_Ease + Subcomponents_Gearbox_FuelRating + 
    Subcomponents_Gearbox_PerformanceRating + Subcomponents_Gearbox_Smoothness) +
    0.55 * (Sliders_Tech_Material + Sliders_Tech_Components + 
    Sliders_Tech_Technology + Sliders_Tech_Techniques))-
    (2*(FactOverallVAL/100.0))+ (1.15*ex_1d003p_year99*hyperSliders)
 
 
if(year < 2020)
        additionalTime = ( ((year-1840)/15.0 ) *((0.5/( Sliders_Design_DesignPace+0.05) ) -0.45) )
else
        additionalTime = ( ((2020-1840)/15.0 ) *((0.5/( Sliders_Design_DesignPace+0.05) ) -0.45) )
 
 
if(Sliders_Design_DesignPace < 0.5)
    Finish_Time = Finish_Time +  additionalTime
else
{
    turnsOff = (Sliders_Design_DesignPace - 0.5)/0.20;
    Finish_Time = Finish_Time +  (additionalTime - turnsOff)
}
 
if(Finish_Time < 1)
    Finish_Time = 1

Employees Required

if(year < 2021)
    Employees_Required =	Design_Req * (0.07833*(year-1899)+0.275);
else
    Employees_Required =	Design_Req * (0.07833*(121)+0.275);
 
Employees_Required = Employees_Required /5 + ((Employees_Required/1.2)*Sliders_Design_DesignPace) + 2;

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