Multi-well wedge-shaped reagent container with auto-open capability

What is claimed is: 1 . A multi-well fluid container for use in an in vitro diagnostics automation system comprising: a container body comprising: a first well having a first well size configured to hold a first fluid and having an openable first well closure that covers a first well opening, the first well opening configured to provide access to the first fluid in the first well when the openable first well closure is opened; and a second well adjacent the first well, the second well having a second well size configured to hold a second fluid and having an openable second well closure that covers a second well opening that is separate from the first well opening, the second well opening configured to provide access to the second fluid in the second well when the openable second well closure is opened, wherein the first well size of the first well is different than the second well size of the second well. 2 . The multi-well fluid container of claim 1 , wherein the openable first well closure comprises a first sealing portion configured to be automatically opened while on board an analyzer, and the openable second well closure comprises a second sealing portion configured to be automatically opened while on board the analyzer. 3 . The multi-well fluid container of claim 1 , wherein the openable first well closure is configured to be manually removed by an operator, and the openable second well closure is configured to be manually removed by the operator. 4 . The multi-well fluid container of claim 1 , wherein the container body is wedge-shaped and is further configured to be held in one of a plurality of substantially same sized wedged shaped compartments of a circular storage area. 5 . The multi-well fluid container of claim 1 , wherein the first well is further configured to hold a low volume of the first fluid and the first well opening is configured to provide access to the low volume of the first fluid when the openable first well closure is opened; and the second well is further configured to hold a high volume of the second fluid that is a larger volume than the low volume of the first fluid and the second well opening is further configured to provide access to the high volume of the second fluid when the openable second well closure is opened. 6 . The multi-well fluid container of claim 5 , further comprising a third well configured to hold a mid-volume of a third fluid that is a larger volume than the low volume of the first fluid and a smaller volume than the high volume of the second fluid. 7 . The multi-well fluid container of claim 1 , further comprising a third well adjacent to at least one of the first well and the second well, the third well having a third well size configured to hold a third fluid and having an openable third well closure that covers a third well opening that is separate from the first well opening and the second well opening, the third well opening configured to provide access to the third fluid in the third well when the openable third well closure is opened. 8 . The multi-well fluid container of claim 1 , wherein the first well and the second well each comprise an anti-evaporation tube. 9 . An in vitro diagnostics automation system comprising: a plurality of multi-well fluid containers each having substantially the same length and width and each of the plurality of multi-well fluid containers comprising a plurality of wells configured to hold a corresponding fluid, each well having an openable closure that covers a corresponding opening configured to provide access to the corresponding fluid when the openable closure is opened; and a storage area having a plurality of compartments, each of the plurality of compartments configured to hold one of the plurality of multi-well fluid containers and having substantially the same length and width as the length and width of the plurality of multi-well fluid containers. 10 . The automation system of claim 9 , wherein each openable closure is configured to be automatically opened while on board an analyzer. 11 . The automation system of claim 9 , wherein each of the plurality of multi-well fluid containers has at least two different sized wells. 12 . The automation system of claim 9 , wherein the storage area is a circular storage area, each of the plurality of compartments in the circular storage area is wedged shaped, and each of the plurality of multi-well fluid containers is wedge-shaped. 13 . The automation system of claim 9 , wherein the at least two different sized wells in each compartment are configured to hold different volumes of one or more fluids. 14 . A method of operating an in vitro diagnostics automation system, the method comprising: holding a multi-well fluid container having a plurality of different sized wells in one of a plurality of compartments of a storage area, each well of the plurality of different sized wells having an openable closure covering a corresponding opening; accessing a low volume of a first fluid from a first well of the plurality of different sized wells; accessing a high volume of a second fluid from a second well of the plurality of different sized wells, the high volume of the second fluid being a larger volume than the low volume of the first fluid; and opening the multi-well fluid container from the one of a plurality of compartments of the storage area. 15 . The method of claim 14 , further comprising: opening an openable first closure from a first well of the plurality of different sized wells to provide access to the first fluid from the first well; and opening an openable second closure from a second well of the plurality of different sized wells to provide access to the second fluid from the second well; 16 . The method of claim 14 , wherein opening the openable first closure further comprises automatically opening the openable first closure while on board an analyzer, and opening the openable second closure further comprises automatically opening the openable second closure while on board the analyzer. 17 . The method of claim 14 , wherein opening the multi-well fluid container from the one of the plurality of compartments of the storage area occurs after at least a portion of the low volume of the first fluid is accessed from the first well and at least a portion of the high volume of the second fluid is accessed from the second well. 18 . The method of claim 14 , further comprising accessing a mid-volume of a third fluid from a third well of the plurality of different sized wells, the mid-volume of the third fluid being larger than the low volume of the first fluid and smaller than the high volume of the second fluid. 19 . The method of claim 18 , wherein opening the fluid container from the one of the plurality of compartments of the storage area occurs after at least a portion of the low volume of the first fluid is accessed from the first well, at least a portion of the high volume of the second fluid is accessed from the second well, and at least a portion of the mid-volume of the third fluid is accessed from the third well. 20 . The method of claim 14 , further comprising: opening a first sealing portion of the openable first closure using a first cannula to provide access to the low volume of the first fluid of the first well; and opening a second sealing portion of the openable second closure using a second cannula to provide access to the high volume of the second fluid of the second well.