Definition 92.3.1. Let $A \to B$ be a ring map. The standard resolution of $B$ over $A$ is the augmentation $\epsilon : P_\bullet \to B$ with terms
and maps as constructed above.
Let $A$ be a ring. Let $\textit{Alg}_ A$ be the category of $A$-algebras. Consider the pair of adjoint functors $(U, V)$ where $V : \textit{Alg}_ A \to \textit{Sets}$ is the forgetful functor and $U : \textit{Sets} \to \textit{Alg}_ A$ assigns to a set $E$ the polynomial algebra $A[E]$ on $E$ over $A$. Let $X_\bullet $ be the simplicial object of $\text{Fun}(\textit{Alg}_ A, \textit{Alg}_ A)$ constructed in Simplicial, Section 14.34.
Consider an $A$-algebra $B$. Denote $P_\bullet = X_\bullet (B)$ the resulting simplicial $A$-algebra. Recall that $P_0 = A[B]$, $P_1 = A[A[B]]$, and so on. In particular each term $P_ n$ is a polynomial $A$-algebra. Recall also that there is an augmentation
where we view $B$ as a constant simplicial $A$-algebra.
Definition 92.3.1. Let $A \to B$ be a ring map. The standard resolution of $B$ over $A$ is the augmentation $\epsilon : P_\bullet \to B$ with terms and maps as constructed above.
It will turn out that we can use the standard resolution to compute left derived functors in certain settings.
Definition 92.3.2. The cotangent complex $L_{B/A}$ of a ring map $A \to B$ is the complex of $B$-modules associated to the simplicial $B$-module where $\epsilon : P_\bullet \to B$ is the standard resolution of $B$ over $A$.
In Simplicial, Section 14.23 we associate a chain complex to a simplicial module, but here we work with cochain complexes. Thus the term $L_{B/A}^{-n}$ in degree $-n$ is the $B$-module $\Omega _{P_ n/A} \otimes _{P_ n, \epsilon _ n} B$ and $L_{B/A}^ m = 0$ for $m > 0$.
Remark 92.3.3. Let $A \to B$ be a ring map. Let $\mathcal{A}$ be the category of arrows $\psi : C \to B$ of $A$-algebras and let $\mathcal{S}$ be the category of maps $E \to B$ where $E$ is a set. There are adjoint functors $V : \mathcal{A} \to \mathcal{S}$ (the forgetful functor) and $U : \mathcal{S} \to \mathcal{A}$ which sends $E \to B$ to $A[E] \to B$. Let $X_\bullet $ be the simplicial object of $\text{Fun}(\mathcal{A}, \mathcal{A})$ constructed in Simplicial, Section 14.34. The diagram commutes. It follows that $X_\bullet (\text{id}_ B : B \to B)$ is equal to the standard resolution of $B$ over $A$.
Lemma 92.3.4. Let $A_ i \to B_ i$ be a system of ring maps over a directed index set $I$. Then $\mathop{\mathrm{colim}}\nolimits L_{B_ i/A_ i} = L_{\mathop{\mathrm{colim}}\nolimits B_ i/\mathop{\mathrm{colim}}\nolimits A_ i}$.
Proof. This is true because the forgetful functor $V : A\textit{-Alg} \to \textit{Sets}$ and its adjoint $U : \textit{Sets} \to A\textit{-Alg}$ commute with filtered colimits. Moreover, the functor $B/A \mapsto \Omega _{B/A}$ does as well (Algebra, Lemma 10.131.5). $\square$
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