Battery module compressed cell assembly

1 . A method of manufacturing a battery module, comprising: assembling a plurality of prismatic battery cells of the battery module into a cell stack; compressing the cell stack using an actuating clamping mechanism; inserting the cell stack into a housing of the battery module with the actuating clamping mechanism engaged with and compressing the cell stack; and removing the actuating clamping mechanism from the cell stack to yield the battery module, wherein the housing of battery module maintains a compression of the cell stack above a predetermined threshold after removing the actuating clamping mechanism. 2 . The method of claim 1 , wherein compressing the cell stack comprises: disposing a first retaining wall against a first end of the cell stack, wherein the first retaining wall comprises a first slot; and inserting a first clamp of the actuating clamping mechanism into the first slot of the first retaining wall to engage the first end of the cell stack. 3 . The method of claim 2 , wherein compressing the cell stack comprises: disposing a second retaining wall against a second end of the cell stack opposite the first end, wherein the second retaining wall comprises a second slot; and inserting a second clamp of the actuating clamping mechanism into the second slot of the second retaining wall to engage the second end of the cell stack. 4 . The method of claim 1 , wherein assembling the plurality of prismatic battery cells into the cell stack comprises inserting an electrically insulating cell spacer between each of the plurality of prismatic battery cells in the cell stack. 5 . The method of claim 1 , wherein assembling the plurality of prismatic battery cells comprises assembling the plurality of prismatic battery cells into a horizontal cell stack. 6 . A method of manufacturing a battery module, comprising: assembling a plurality of prismatic battery cells of the battery module into a cell stack having a first end and a second end opposite the first end; disposing a first retaining wall against the first end of the cell stack, wherein the first retaining wall comprises a first slot; engaging the cell stack with an actuating clamping mechanism, comprising: inserting a first clamp of an actuating clamping mechanism into the first slot of the first retaining wall; compressing the cell stack using the actuating clamping mechanism; inserting the cell stack into a housing of the battery module while the cell stack is compressed by the actuating clamping mechanism; and removing the actuating clamping mechanism from the cell stack while the cell stack is in the housing to yield the battery module, comprising: withdrawing the first clamp of the actuating clamping mechanism from the first slot of the first retaining wall, wherein the housing of battery module maintains a compression of the cell stack above a predetermined threshold after removing the actuating clamping mechanism. 7 . The method of claim 6 , wherein disposing the first retaining wall against the first end of the cell stack comprises disposing a first surface of the first retaining wall against the first end of the cell stack, wherein the first retaining wall comprises a second surface opposite the first surface. 8 . The method of claim 7 , comprising mounting a circuit board to the second surface of the first retaining wall before inserting the cell stack into the housing of the battery module. 9 . The method of claim 7 , comprising mounting a relay to the second surface of the first retaining wall before inserting the cell stack into the housing of the battery module. 10 . The method of claim 7 , comprising mounting a fan to the second surface of the first retaining wall before inserting the cell stack into the housing of the battery module. 11 . The method of claim 7 , comprising mounting a vent to the second surface of the first retaining wall before inserting the cell stack into the housing of the battery module. 12 . The method of claim 6 , wherein the first retaining wall comprises a crumple zone configured to deform before the housing of the battery module in response to expansion of the cell stack during operation of the battery module. 13 . The method of claim 6 , wherein inserting the cell stack into the housing of the battery module comprises disposing the first retaining wall against first alignment tabs that extend from a first interior surface of the housing. 14 . The method of claim 6 , wherein, after inserting the cell stack into the housing of the battery module, the first retaining wall is secured against the housing by only the compression without being fastened to the housing. 15 . The method of claim 6 , wherein assembling the plurality of prismatic battery cells comprises assembling the plurality of prismatic battery cells into a horizontal cell stack comprising two adjacent columns of prismatic battery cells. 16 . The method of claim 6 , comprising providing the first retaining wall, wherein the first retaining wall comprises glass. 17 . The method of claim 16 , wherein the first retaining wall consists essentially of glass. 18 . The method of claim 6 , comprising disposing a second retaining wall against the second end of the cell stack prior to compressing the cell stack, wherein the second retaining wall comprises a second slot. 19 . The method of claim 18 , wherein inserting the cell stack into the housing of the battery module comprises disposing the second retaining wall against second alignment tabs that extend from a second interior surface of the housing opposite the first. 20 . The method of claim 18 , wherein engaging the cell stack with an actuating clamping mechanism comprises inserting a second clamp of the actuating clamping mechanism into the second slot of the second retaining wall, and wherein removing the actuating clamping mechanism comprises removing the second clamp of the actuating clamping mechanism from the second slot of the second retaining wall. 21 . A method of manufacturing a battery module, comprising: assembling a plurality of prismatic battery cells of the battery module into a cell stack having a first end and a second end opposite the first end; disposing a first retaining wall against the first end of the cell stack and a second retaining wall against the second end of the cell stack, wherein the first retaining wall comprises a first slot and the second retaining wall comprises a second slot; inserting a first clamp of an actuating clamping mechanism into the first slot of the first retaining wall and a second clamp of the actuating clamping mechanism into the second slot of the second retaining wall; compressing the cell stack using the actuating clamping mechanism; inserting the cell stack into a housing of the battery module while the cell stack is compressed by the actuating clamping mechanism; and withdrawing the first clamp of the actuating clamping mechanism from the first slot of the first retaining wall and the second clamp of the actuating clamping mechanism from the second slot of the second retaining wall to yield the battery module, wherein the housing of the battery module maintains a compression of the cell stack above a predetermined threshold after withdrawing the first clamp and the second clamp of the actuating clamping mechanism. 22 . The method of claim 21 , wherein inserting the cell stack comprises inserting the cell stack into the housing such that the housing surrounds and contacts