Biproduct: Difference between revisions

Definition

For two objects

Suppose ${\displaystyle {\mathcal {C}}}$ is a category and ${\displaystyle A_{1},A_{2}\in \operatorname {Ob} {\mathcal {C}}}$. A biproduct of ${\displaystyle A_{1}}$ and ${\displaystyle A_{2}}$ is an object that serves the role of both a product and a coproduct. More explicitly, it is an object ${\displaystyle C}$ along with maps ${\displaystyle i_{1}:A_{1}\to C,i_{2}:A_{2}\to C}$ and maps ${\displaystyle \pi _{1}:A_{1}\to C,\pi _{2}:A_{2}\to C}$ such that:

1. ${\displaystyle \pi _{1}\circ i_{1}}$ and ${\displaystyle \pi _{2}\circ i_{2}}$ are the identity maps on ${\displaystyle A_{1}}$ and ${\displaystyle A_{2}}$ respectively.
2. ${\displaystyle C}$, along with the maps ${\displaystyle \pi _{1},\pi _{2}}$, is a product of ${\displaystyle A_{1}}$ and ${\displaystyle A_{2}}$. In other words, for any object ${\displaystyle D}$ with maps ${\displaystyle f_{1}:D\to A_{1},f_{2}:D\to A_{2}}$, there exists a unique map ${\displaystyle g:D\to C}$ such that ${\displaystyle f_{1}=\pi _{1}\circ g}$ and ${\displaystyle f_{2}=\pi _{2}\circ g}$.
3. ${\displaystyle C}$, along with the maps ${\displaystyle i_{1},i_{2}}$, is a coproduct of ${\displaystyle A_{1}}$ and ${\displaystyle A_{2}}$. In other words, for any object ${\displaystyle D}$ with maps ${\displaystyle f_{1}:A_{1}\to D,f_{2}:A_{2}\to D}$, there exists ${\displaystyle g:C\to D}$ such that ${\displaystyle f_{1}=g\circ i_{1},f_{2}=g\circ i_{2}}$.

For a finite collection of objects

A preadditive category that admits biproducts for finite collections of objects is termed an additive category.