Difference between revisions of "Assembly Mechanics (Game Mechanics)"
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− | + | = Assembly Overview = | |
− | There are two factors that go into the process of determining an item's statistics; these are Assembly and Experimentation. Assembly is the starting point of this process. Assembly in its literal sense, is the putting together of the components and resources to create an item. Most crafted items have a set of experimental lines in which have individual properties under them. These properties are a control and bottleneck for the value of the stats that are associated with them. The properties are associated with a particular resource stat and the amount to which that stat weights or factors into the increase/decrease of the stats of this item. The value that gets returned from this process of weighting factors comes in a percentage range from 0 to 100%. The total length of the range between 0 and 100 is determined by the weighting factors of the resources and experimental property. When an item is assembled or experimented on, a portion is added to the range. For every increase in the value in the range beyond 0, the item's stats increases. The process of assembly is to add a starting value to the range. Experimentation will add onto this base starting value on up to a maximum of 100%. | + | There are two factors that go into the process of determining an item's statistics; these are Assembly and Experimentation. Assembly is the starting point of this process. Assembly in its literal sense, is the putting together of the components and resources to create an item. Most crafted items have a set of experimental lines in which have individual properties under them. These properties are a control and bottleneck for the value of the stats that are associated with them. The properties are associated with a particular resource stat and the amount to which that stat weights or factors into the increase/decrease of the stats of this item. The value that gets returned from this process of weighting factors comes in a percentage range from 0 to 100%. The total length of the range between 0 and 100 is determined by the weighting factors of the resources and experimental property. When an item is assembled or experimented on, a portion is added to the range. For every increase in the value in the range beyond 0, the item's stats increases. The process of assembly is to add a starting value to the range up to a maximum of 30%. Experimentation will add onto this base starting value on up to a maximum of 100%. |
+ | |||
+ | For a closer look at the mathematics behind this process, see the Formulas in Review section below. | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | |||
+ | |||
+ | == Part I. Assembling the item == | ||
Assembling an item begins at stage 2 of the crafting process when the player is inputting resources into the draft schematic slots. After the appropriate slots requirements have met, the player may advance the crafting process by clicking the Assemble button on the lower right. Upon clicking this, the game performs a number of calculations on the item which involved a number of factors such as player skill modifiers, a random chance roll, and environmental effects on the roll. These factors are designed to determine the type of success that the assembly attempt will have produced. | Assembling an item begins at stage 2 of the crafting process when the player is inputting resources into the draft schematic slots. After the appropriate slots requirements have met, the player may advance the crafting process by clicking the Assemble button on the lower right. Upon clicking this, the game performs a number of calculations on the item which involved a number of factors such as player skill modifiers, a random chance roll, and environmental effects on the roll. These factors are designed to determine the type of success that the assembly attempt will have produced. | ||
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− | Success | + | {| align="center" |
+ | |- | ||
+ | || | ||
+ | |||
+ | [[image:CraftingADroid1.jpg|200px|thumb|Crafting: Stage 2]] | ||
+ | |||
+ | |} | ||
+ | |||
+ | Success with the exception of critical failures, have no bearing on the starting values of the items. The various types of success rates available to assembly results are as follows: | ||
{| align="center" | {| align="center" | ||
− | |- | + | |- |
|| | || | ||
{|class="anhsmalltable" | {|class="anhsmalltable" | ||
|- align="center" style="background-color:#ffffcc;" | |- align="center" style="background-color:#ffffcc;" | ||
|<font size = 3>'''Assembly Result'''</font> | |<font size = 3>'''Assembly Result'''</font> | ||
− | + | ||
− | |- | + | |- align = "center" |
|<font size = 3>The item assembly was a critical failure.</font> | |<font size = 3>The item assembly was a critical failure.</font> | ||
− | + | ||
− | + | ||
− | + | |- align = "center" | |
− | + | |<font size = 3>The item assembly barely succeeded.</font> | |
− | |- | + | |
− | + | |- align = "center" | |
− | + | ||
− | + | ||
− | |<font size = 3>The item assembly | + | |
− | + | ||
− | |- | + | |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
|<font size = 3>The item assembly was 'ok'.</font> | |<font size = 3>The item assembly was 'ok'.</font> | ||
− | | | + | |
− | |- | + | |- align = "center" |
+ | |<font size = 3>The item assembly was only marginally successful.</font> | ||
+ | |||
+ | |- align = "center" | ||
|<font size = 3>The item assembly was a moderate success.</font> | |<font size = 3>The item assembly was a moderate success.</font> | ||
− | + | ||
− | |- | + | |- align = "center" |
|<font size = 3>The item assembly was a success.</font> | |<font size = 3>The item assembly was a success.</font> | ||
− | | | + | |
− | |- | + | |- align = "center" |
+ | |<font size = 3>The item assembly was a good success.</font> | ||
+ | |||
+ | |- align = "center" | ||
+ | |<font size = 3>The item assembly was a great success!</font> | ||
+ | |||
+ | |- align = "center" | ||
+ | |<font size = 3>The item assembly was an amazing success!!!</font> | ||
+ | |||
|} | |} | ||
|} | |} | ||
− | |||
− | |||
− | + | As shown above, Each type of success will vary depending on the success roll made. The only success rate of consequence are Critical Failures. When a critical failure occurs, the player just has to start over on the item. Around march 2005, soe changed the critical failure process so that critical failures no longer destroy resources or components. | |
− | + | <br><br> | |
+ | == Part II. The Assembly Success & Roll Detailed == | ||
− | |||
− | |||
+ | As mentioned previously, after clicking the assemble button on the crafting menu, a process takes place in which determines the success choice that is displayed to the player. The following will help detail that process. | ||
− | |||
+ | '''Note: There is no known formula for success rate and roll for Assembly, so I will be borrowing information from the Experimentation Success result formula as Lunariel claims that they are similar.''' | ||
+ | The result a player receives is based upon two things which will be called the Success Rate, and the Roll. | ||
− | |||
− | |||
− | + | <font size = 3>Here's a model of how it works.</font> | |
− | + | Result = Rating + Roll<br> | |
+ | Risk = 100 - Rating (Any rating at 100 or higher shows as zero risk) | ||
− | + | '''Note: for assembly, insert Assembly modifiers for Experiment_Skill. As for points used, assembly has no allocation of points so this presents a problem with the formula for use with assembly.''' | |
− | |||
− | |||
− | + | Roll: Random roll. Rolling below a limit will always give a critical failure regardless of your rating and above another limit will always give amazing success. (Think of it as in RPGs where an original 1 or 20 on 20-sided die overrides your base chance.) Research City, Bespin Port and maybe crafting stations and tools modifies your roll before checking the limits and thus lessens your chance of critical failures. As well as improving your chance for amazing success. (The impact of crafting stations and tools seems to be fairly small if any.) | |
− | |||
− | |||
+ | Risk: This is your chance of getting any kind of failure. Note that the lower results like marginally successful are not technically considered failures even though it feels like it. At zero risk you can no longer get any type of failure except critical from the override on the roll. | ||
+ | Rating: Calculated from your experiment skill and modified by average MA on the resources and how many points you spend. 900 MA is a 10 skill bonus, 100 MA is a -10 skill penalty. Each extra point used at the same time is a -5 skill penalty. The formula for the rating is: | ||
+ | '''50 + (Average_MA - 500)/40 + Experiment_Skill - 5 x Points_Used''' | ||
− | |||
− | + | ||
+ | Average_MA is the MA of the resources weighted by relative quantity just like the experiment qualities and resources without MA are not counted. It is weighted by resource quantity If none of the resources have MA, the Average_MA is considered zero. Average_MA follows the same rules as if it had a hidden 'MA 100%' experiment line. Points_Used is how many points you spend at once. Points_Used is 1 if you only use one point. (If you try to spend points in multiple lines at once, you get penalized pretty badly and the formula changes a bit) With 75% chance, the red failure bar will show 25%. At 100% or above chance, the red bar is no longer visible. | ||
− | + | If you have 55 in skill, you get 100% with MA 500. At 100 skill you have 145% with MA 500. This means you can only test out the formula at a fairly low skill while the red bar is still there. | |
− | + | Once you get 100% you can no longer get any failures, except criticals. But the system considers even marginally successful as a success. As you get higher above 100% the worst type of successes are gradually no longer possible. I believe that if your success rate is high enough, you can't get below great success either. | |
− | + | But there are two parts affecting the experiment result and the other one is the experiment roll. The roll is basically a random number which is added to your success rate to give the final result. But the roll has special cases. Like RPGs where a roll of 1 or 20 on d20 will always hit or miss regardless of your base chance. So if the roll is below a certain number, it will force a critical failure, if it's above another number, it will force an amazing success. This ensures you can get amazing with almost no skill and that you can always get a critical. Fortunately things which gives bonus to your rolls are applied before checking for the special cases. Which is why you then get less critical and more amazing results. High enough bonus might theoretically prevent any criticals at all. | |
− | + | This means that once you are above 100% (no red bar) you will only get failures from the roll and not from your skill. So things which affects the roll are more important to avoid failures. Like being in a research city or drinking Bespin Port. Both the success rate and the roll matters for getting more amazing successes, but for being able to use more points at once, probably only the skill matters. And there is a possibilty that there is a cap on your skill in this formula. But then you can't use the failure bar to test it out since your skill is too high to even get a red line. A force sensitive master crafter with +25 clothing would have a mean success rate without a cap. | |
− | + | The MA is the surprise factor. Having 100 in MA will be just like losing 10 skill points, while 900 in MA is a 10 point bonus. Unfortunately this MA is considered zero if none of the resources have MA effectively giving a -12.5 skill penalty. | |
− | + | ||
+ | I strongly suspected Complexity to affect the chance, since it rises as you experiment. But it doesn't affect the chance at all. Also testing with various levels of crafting stations from public to 40+, there is no difference either. But both of them may affect the roll instead. The only way to find out would be to do tons of experiments with the same materials and use statistics. I remember an old post from someone who did this testing, but can't seem to find it again. Anyone with a link ? | ||
+ | |||
+ | And being in a research city doesn't affect the success formula either. But that is documented as affecting only the roll, so no surprise there. I have seen noticably better results from rolls in a research city than outside, but haven't done any tests on stations or complexity. | ||
+ | |||
+ | |||
+ | With Novice Medic only, the red failure bar will normally show 57%. | ||
+ | (100 - (50 + -12.5 + 10 - 5) = 57.5 which is then truncated to 57) | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | |||
+ | <font size = 3>Things that Affect Success Rate and Rolls are:</font> | ||
+ | |||
+ | |||
+ | '''Success rate''' | ||
+ | |||
+ | * 1) Experimentation / Assembly Skill including skill clothes. Any possible cap is unknown. | ||
+ | |||
+ | * 2) Mallability of the resources used. (Higher MA is better) | ||
+ | |||
+ | * 3) Number of experiment points spent in each attempt. (Fewer is better) | ||
+ | |||
+ | * 4) Force Experimentation modifiers. Adds to the experimentation skill modifiers to factor in for success rate during experimentation. | ||
+ | |||
+ | * 5. Force Assembly modifiers. Adds to the Assembly skill modifiers to factor in for success rate during assembly. | ||
+ | |||
+ | |||
+ | |||
+ | '''Roll''' | ||
+ | |||
+ | |||
+ | * 1) Being in a Research City. | ||
+ | * 2) Drinking Bespin Port. | ||
+ | * 3) Crafting Tool Quality. | ||
+ | * 4) Crafting Station Quality. | ||
+ | * 5) Crafting Technique force sensitive skill modifiers act as a bonus to the roll. | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | == Part III. Calculating the Initial Percentage == | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | After a roll check has been made and a non critical failure success type has been established, the next phase of the assembly process is in calculating the Initial Percentage for the experimentation line. | ||
+ | |||
+ | |||
+ | The initial percentage is the starting value for experimentation lines. After this value is calculated, the next phase of crafting would be to begin experimentation and add on to this value through that process. Several important values in relation to the experimentation derive from this stage of crafting. The first is the initial percentage, and the second is the Maximum Experimental Percentage. The maximum experimental percentage is the total amount to which an item can be experimented to. This is based off of the Weighted Resource Value (also known as weighted average). | ||
+ | |||
+ | To begin calculating the initial percentage, several steps must be carried out beginning with finding out the Weighted Resource Average first. The following is a list of steps, in order, that are necessary to achieve the final calculation of the initial percentage. | ||
+ | |||
+ | |||
+ | <font size = 3>'''Initial Percentage Calculation Process:'''</font> | ||
+ | |||
+ | * 1) [[Weighted Resource Average (Game Mechanics)|Weighted Resource Average]]<br> | ||
+ | * 2) [[Initial Percentage Display (Game Mechanics)|Initial Percentage Display]]<br> | ||
+ | |||
+ | {| align="center" | ||
+ | |- | ||
+ | || | ||
+ | |||
+ | [[image:Lightsaber-2handSecondGenerationAssembly.jpg|200px|thumb|Initial Assembly Percentage]] | ||
+ | |||
+ | |} | ||
+ | |||
+ | == Part IV. Calculating the Experimentation Line Cap == | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | |||
+ | The final affect that assembly has on the experimentation process comes in the determination of the maximum cap, or length, for the experimentation line. The experimentation line can range from 1-10 blocks in which the player can allocate experimentation points into. The size of the line determines the amount of blocks available to experiment. A value of 10% Correlates to 1 experimentation block for a total of 10 at 100%, however fractions come into play here to offer players an allocation method for experimenting when the line is not evenly cut off at the 10ths. For example: a line of experimentation that is at 91% will have 10 blocks and a line at 90% would have 9 available. The extra block is made for the 91% event since the player must a means to allocate the remaining experiment points to max out the line. The line at 90% would be maxed out (if the experiment attempts are success) at 9 points allocated. | ||
+ | |||
+ | |||
+ | |||
+ | To calculate the size of the experimentation line, the following formula is used:<br> | ||
+ | |||
+ | |||
+ | |||
+ | <center><font size = 3>'''Max Experimentation Percentage = 0.001 x Weighted Resource Average'''</font></center><br><br> | ||
+ | |||
+ | |||
+ | To use our examples from the [[Weighted Resource Average (Game Mechanics)|Weighted Resource Average]] | ||
+ | values we can determine the maximum experimentation percentage available for each experimentation property on the experimentation lines. | ||
+ | |||
+ | |||
+ | |||
+ | Experimental Damage: | ||
+ | * Attack Speed: 0.8155356164383561643835616438356 % | ||
+ | * Maximum Damage: 0.8652474886 % | ||
+ | * Minimum Damage: 0.8652474886 % | ||
+ | * Wound Chance: 0.8652474886 % | ||
+ | |||
+ | |||
+ | Experimental Efficiency: | ||
+ | * Attack Action Cost: 0.9646712328767123287671232876712 % | ||
+ | * Attack Health Cost: 0.9646712328767123287671232876712 % | ||
+ | * Attack Mind Cost: 0.9646712328767123287671232876712 % | ||
+ | * Force Power Cost: 0.8652474886 % | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | '''Note: Like the Averaged Displayed Initial Percentage, the Displayed Experimention Percentage is misleading as it also takes the average of the experimentation line's properties to derive this value. Also like the Averaged Displayed Initial Percentage, the Displayed Experimentation Percentage does not use the averaged value for any calculations. Each individual property is uniquely calculated to affect its relevant stats. The following would be the Displayed Experimentation Percentages for each experimentation line:''' | ||
+ | |||
+ | |||
+ | |||
+ | Experimental Damage: 0.85281952055958904109589041095875 % | ||
+ | |||
+ | Experimental Efficiency: 0.93981529680753424657534246575325 % | ||
+ | |||
+ | |||
+ | |||
+ | {| align="center" | ||
+ | |- | ||
+ | || | ||
+ | |||
+ | [[image:Lightsaber-SecondGenExperimentation.jpg|200px|thumb|Experimentation Line]] | ||
+ | |||
+ | |} | ||
+ | |||
+ | |||
+ | The Experimental Damage line would in effect have a bar size that allows 9 blocks for experimentation, and the Experimental Efficiency line would have a bar with 10 blocks. | ||
+ | The amount of initial percentage added to the bar by the assembly process factors into the displayed average as well. The REAL cap for the Experimental Damage line would be 0.86 not the displayed value of 0.85. Therefore, even though the player hits the displayed cap, they would still be allowed to continue experimenting on the line until they have maxed out all properties that remain (or run out of experimentation points). The same holds true for the Experimental Efficiency line where the displayed cap is at .93% but the highest properties are at 0.96 (allowing for 3% additional experimentation to be done). What happens in these cases is that the displayed experimentation bar (lower bar on the exp window) appears maxed out, however the player is still able to allocate experimentation points into the final allocation box until the 'real' cap is reached on any remaining property in the line that has not been maxed yet or until the player runs out of experimentation points to allocate. | ||
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==Source References== | ==Source References== | ||
{{SourceReferences | {{SourceReferences | ||
− | | SourcePage01 = | + | | SourcePage01 = Experimentation Source 1 |
− | | OriginalPageLink01 = | + | | OriginalPageLink01 = http://soe.lithium.com/swg/board/message?board.id=profshipwright&message.id=10414&view=by_date_ascending&page=2 |
− | | SourcePage02 = | + | | SourcePage02 = Experimentation Source 2 |
− | | OriginalPageLink02 = | + | | OriginalPageLink02 = http://swgcraft.com/forum/showthread.php?t=13447 |
− | | SourcePage03 = | + | | SourcePage03 = Experimentation Source 3 |
− | | OriginalPageLink03 = | + | | OriginalPageLink03 = http://soe.lithium.com/swg/board/message?board.id=artisan&message.id=53438&query.id=478824#M53438 |
− | | SourcePage04 = | + | | SourcePage04 = Experimentation Source 4 |
− | | OriginalPageLink04 = | + | | OriginalPageLink04 = http://soe.lithium.com/swg/board/message?board.id=profshipwright&message.id=10229&query.id=471608#M10229 |
− | | SourcePage05 = | + | | SourcePage05 = Experimentation Source 5 |
− | | OriginalPageLink05 = | + | | OriginalPageLink05 = http://soe.lithium.com/swg/board/message?board.id=profshipwright&message.id=10414&view=by_date_ascending&page=2 |
− | | SourcePage06 = | + | | SourcePage06 = Experimentation Source 6 |
− | | OriginalPageLink06 = | + | | OriginalPageLink06 = http://soe.lithium.com/swg/board/message?board.id=artisan&message.id=49256&query.id=479067#M49256 |
− | | SourcePage07 = | + | | SourcePage07 = Experimentation Source 7 |
− | | OriginalPageLink07 = | + | | OriginalPageLink07 = http://soe.lithium.com/swg/board/message?board.id=artisan&message.id=49256&query.id=479067#M49256 |
− | | SourcePage08 = | + | | SourcePage08 = Experimentation Source 8 |
− | | OriginalPageLink08 = | + | | OriginalPageLink08 = http://swgcraft.com/forum/showthread.php?t=13447 |
− | | SourcePage09 = | + | | SourcePage09 = Experimentation Source 9 |
− | | OriginalPageLink09 = | + | | OriginalPageLink09 = http://soe.lithium.com/board/message?board.id=gameguidesht&message.id=59748 |
− | | SourcePage10 = | + | | SourcePage10 = Experimentation Source 10 |
− | | OriginalPageLink10 = | + | | OriginalPageLink10 = http://swgforums.swganh.org/viewtopic.php?search_id=341042494&t=52220 |
− | | SourcePage11 = | + | | SourcePage11 = Experimentation Source 11 |
− | | OriginalPageLink11 = | + | | OriginalPageLink11 = http://swgforums.swganh.org/viewtopic.php?t=45697&search_id=153073681&start=15 |
− | | SourcePage12 = | + | | SourcePage12 = Experimentation Source 12 |
− | | OriginalPageLink12 = | + | | OriginalPageLink12 = http://web.archive.org/web/20050305061150/http://forums.station.sony.com/swg/board/message?board.id=jedi&message.id=697460 |
− | | SourcePage13 = | + | | SourcePage13 = Experimentation Source 13 |
− | | OriginalPageLink13 = | + | | OriginalPageLink13 = http://swgforums.swganh.org/viewtopic.php?t=41419&sid=931f88162d71a9bf7d339cdfa0354c34 |
− | | SourcePage14 = | + | | SourcePage14 = Experimentation Source 14 |
− | | OriginalPageLink14 = | + | | OriginalPageLink14 = http://forums.swganh.org/viewtopic.php?f=23&t=214 |
| SourcePage15 = | | SourcePage15 = | ||
| OriginalPageLink15 = | | OriginalPageLink15 = | ||
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| OriginalPageLink20 = | | OriginalPageLink20 = | ||
}} | }} | ||
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Latest revision as of 17:12, 16 May 2008
This article or section needs proper wiki formatting. |
Game Mechanics - Assembly Mechanics
SWGANH Wiki is a repository of Star Wars Galaxies Developer information. This site is only meant to be used by SWGANH Developer team.
|
Assembly OverviewThere are two factors that go into the process of determining an item's statistics; these are Assembly and Experimentation. Assembly is the starting point of this process. Assembly in its literal sense, is the putting together of the components and resources to create an item. Most crafted items have a set of experimental lines in which have individual properties under them. These properties are a control and bottleneck for the value of the stats that are associated with them. The properties are associated with a particular resource stat and the amount to which that stat weights or factors into the increase/decrease of the stats of this item. The value that gets returned from this process of weighting factors comes in a percentage range from 0 to 100%. The total length of the range between 0 and 100 is determined by the weighting factors of the resources and experimental property. When an item is assembled or experimented on, a portion is added to the range. For every increase in the value in the range beyond 0, the item's stats increases. The process of assembly is to add a starting value to the range up to a maximum of 30%. Experimentation will add onto this base starting value on up to a maximum of 100%. For a closer look at the mathematics behind this process, see the Formulas in Review section below.
Part I. Assembling the itemAssembling an item begins at stage 2 of the crafting process when the player is inputting resources into the draft schematic slots. After the appropriate slots requirements have met, the player may advance the crafting process by clicking the Assemble button on the lower right. Upon clicking this, the game performs a number of calculations on the item which involved a number of factors such as player skill modifiers, a random chance roll, and environmental effects on the roll. These factors are designed to determine the type of success that the assembly attempt will have produced.
Success with the exception of critical failures, have no bearing on the starting values of the items. The various types of success rates available to assembly results are as follows:
As shown above, Each type of success will vary depending on the success roll made. The only success rate of consequence are Critical Failures. When a critical failure occurs, the player just has to start over on the item. Around march 2005, soe changed the critical failure process so that critical failures no longer destroy resources or components.
Part II. The Assembly Success & Roll DetailedAs mentioned previously, after clicking the assemble button on the crafting menu, a process takes place in which determines the success choice that is displayed to the player. The following will help detail that process.
Result = Rating + Roll Note: for assembly, insert Assembly modifiers for Experiment_Skill. As for points used, assembly has no allocation of points so this presents a problem with the formula for use with assembly.
Roll: Random roll. Rolling below a limit will always give a critical failure regardless of your rating and above another limit will always give amazing success. (Think of it as in RPGs where an original 1 or 20 on 20-sided die overrides your base chance.) Research City, Bespin Port and maybe crafting stations and tools modifies your roll before checking the limits and thus lessens your chance of critical failures. As well as improving your chance for amazing success. (The impact of crafting stations and tools seems to be fairly small if any.)
Risk: This is your chance of getting any kind of failure. Note that the lower results like marginally successful are not technically considered failures even though it feels like it. At zero risk you can no longer get any type of failure except critical from the override on the roll.
50 + (Average_MA - 500)/40 + Experiment_Skill - 5 x Points_Used
If you have 55 in skill, you get 100% with MA 500. At 100 skill you have 145% with MA 500. This means you can only test out the formula at a fairly low skill while the red bar is still there. Once you get 100% you can no longer get any failures, except criticals. But the system considers even marginally successful as a success. As you get higher above 100% the worst type of successes are gradually no longer possible. I believe that if your success rate is high enough, you can't get below great success either. But there are two parts affecting the experiment result and the other one is the experiment roll. The roll is basically a random number which is added to your success rate to give the final result. But the roll has special cases. Like RPGs where a roll of 1 or 20 on d20 will always hit or miss regardless of your base chance. So if the roll is below a certain number, it will force a critical failure, if it's above another number, it will force an amazing success. This ensures you can get amazing with almost no skill and that you can always get a critical. Fortunately things which gives bonus to your rolls are applied before checking for the special cases. Which is why you then get less critical and more amazing results. High enough bonus might theoretically prevent any criticals at all. This means that once you are above 100% (no red bar) you will only get failures from the roll and not from your skill. So things which affects the roll are more important to avoid failures. Like being in a research city or drinking Bespin Port. Both the success rate and the roll matters for getting more amazing successes, but for being able to use more points at once, probably only the skill matters. And there is a possibilty that there is a cap on your skill in this formula. But then you can't use the failure bar to test it out since your skill is too high to even get a red line. A force sensitive master crafter with +25 clothing would have a mean success rate without a cap. The MA is the surprise factor. Having 100 in MA will be just like losing 10 skill points, while 900 in MA is a 10 point bonus. Unfortunately this MA is considered zero if none of the resources have MA effectively giving a -12.5 skill penalty. I strongly suspected Complexity to affect the chance, since it rises as you experiment. But it doesn't affect the chance at all. Also testing with various levels of crafting stations from public to 40+, there is no difference either. But both of them may affect the roll instead. The only way to find out would be to do tons of experiments with the same materials and use statistics. I remember an old post from someone who did this testing, but can't seem to find it again. Anyone with a link ? And being in a research city doesn't affect the success formula either. But that is documented as affecting only the roll, so no surprise there. I have seen noticably better results from rolls in a research city than outside, but haven't done any tests on stations or complexity.
Things that Affect Success Rate and Rolls are:
Roll
Part III. Calculating the Initial PercentageAfter a roll check has been made and a non critical failure success type has been established, the next phase of the assembly process is in calculating the Initial Percentage for the experimentation line.
To begin calculating the initial percentage, several steps must be carried out beginning with finding out the Weighted Resource Average first. The following is a list of steps, in order, that are necessary to achieve the final calculation of the initial percentage.
Part IV. Calculating the Experimentation Line CapThe final affect that assembly has on the experimentation process comes in the determination of the maximum cap, or length, for the experimentation line. The experimentation line can range from 1-10 blocks in which the player can allocate experimentation points into. The size of the line determines the amount of blocks available to experiment. A value of 10% Correlates to 1 experimentation block for a total of 10 at 100%, however fractions come into play here to offer players an allocation method for experimenting when the line is not evenly cut off at the 10ths. For example: a line of experimentation that is at 91% will have 10 blocks and a line at 90% would have 9 available. The extra block is made for the 91% event since the player must a means to allocate the remaining experiment points to max out the line. The line at 90% would be maxed out (if the experiment attempts are success) at 9 points allocated.
To calculate the size of the experimentation line, the following formula is used:
Experimental Damage:
Experimental Damage: 0.85281952055958904109589041095875 % Experimental Efficiency: 0.93981529680753424657534246575325 %
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