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In
mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...
, and more specifically in
homological algebra Homological algebra is the branch of mathematics that studies homology (mathematics), homology in a general algebraic setting. It is a relatively young discipline, whose origins can be traced to investigations in combinatorial topology (a precurs ...
, a resolution (or left resolution; dually a coresolution or right resolution) is an
exact sequence An exact sequence is a sequence of morphisms between objects (for example, groups, rings, modules, and, more generally, objects of an abelian category) such that the image of one morphism equals the kernel of the next. Definition In the context o ...
of
module Module, modular and modularity may refer to the concept of modularity. They may also refer to: Computing and engineering * Modular design, the engineering discipline of designing complex devices using separately designed sub-components * Modul ...
s (or, more generally, of
object Object may refer to: General meanings * Object (philosophy), a thing, being, or concept ** Object (abstract), an object which does not exist at any particular time or place ** Physical object, an identifiable collection of matter * Goal, an ...
s of an
abelian category In mathematics, an abelian category is a category in which morphisms and objects can be added and in which kernels and cokernels exist and have desirable properties. The motivating prototypical example of an abelian category is the category of ab ...
), which is used to define invariants characterizing the structure of a specific module or object of this category. When, as usually, arrows are oriented to the right, the sequence is supposed to be infinite to the left for (left) resolutions, and to the right for right resolutions. However, a finite resolution is one where only finitely many of the objects in the sequence are non-zero; it is usually represented by a finite exact sequence in which the leftmost object (for resolutions) or the rightmost object (for coresolutions) is the zero-object. Generally, the objects in the sequence are restricted to have some property ''P'' (for example to be free). Thus one speaks of a ''P resolution''. In particular, every module has free resolutions, projective resolutions and flat resolutions, which are left resolutions consisting, respectively of
free module In mathematics, a free module is a module that has a basis – that is, a generating set consisting of linearly independent elements. Every vector space is a free module, but, if the ring of the coefficients is not a division ring (not a field in t ...
s,
projective module In mathematics, particularly in algebra, the class of projective modules enlarges the class of free modules (that is, modules with basis vectors) over a ring, by keeping some of the main properties of free modules. Various equivalent characterizati ...
s or
flat module In algebra, a flat module over a ring ''R'' is an ''R''-module ''M'' such that taking the tensor product over ''R'' with ''M'' preserves exact sequences. A module is faithfully flat if taking the tensor product with a sequence produces an exact seq ...
s. Similarly every module has injective resolutions, which are right resolutions consisting of
injective module In mathematics, especially in the area of abstract algebra known as module theory, an injective module is a module ''Q'' that shares certain desirable properties with the Z-module Q of all rational numbers. Specifically, if ''Q'' is a submodule of ...
s.


Resolutions of modules


Definitions

Given a module ''M'' over a ring ''R'', a left resolution (or simply resolution) of ''M'' is an
exact sequence An exact sequence is a sequence of morphisms between objects (for example, groups, rings, modules, and, more generally, objects of an abelian category) such that the image of one morphism equals the kernel of the next. Definition In the context o ...
(possibly infinite) of ''R''-modules :\cdots\oversetE_n\overset\cdots\oversetE_2\oversetE_1\oversetE_0\oversetM\longrightarrow0. The homomorphisms ''di'' are called boundary maps. The map ε is called an augmentation map. For succinctness, the resolution above can be written as :E_\bullet\oversetM\longrightarrow0. The dual notion is that of a right resolution (or coresolution, or simply resolution). Specifically, given a module ''M'' over a ring ''R'', a right resolution is a possibly infinite exact sequence of ''R''-modules :0\longrightarrow M\oversetC^0\oversetC^1\oversetC^2\overset\cdots\oversetC^n\overset\cdots, where each ''Ci'' is an ''R''-module (it is common to use superscripts on the objects in the resolution and the maps between them to indicate the dual nature of such a resolution). For succinctness, the resolution above can be written as :0\longrightarrow M\oversetC^\bullet. A (co)resolution is said to be finite if only finitely many of the modules involved are non-zero. The length of a finite resolution is the maximum index ''n'' labeling a nonzero module in the finite resolution.


Free, projective, injective, and flat resolutions

In many circumstances conditions are imposed on the modules ''E''''i'' resolving the given module ''M''. For example, a ''free resolution'' of a module ''M'' is a left resolution in which all the modules ''E''''i'' are free ''R''-modules. Likewise, ''projective'' and ''flat'' resolutions are left resolutions such that all the ''E''''i'' are projective and
flat Flat or flats may refer to: Architecture * Flat (housing), an apartment in the United Kingdom, Ireland, Australia and other Commonwealth countries Arts and entertainment * Flat (music), a symbol () which denotes a lower pitch * Flat (soldier), ...
''R''-modules, respectively. Injective resolutions are ''right'' resolutions whose ''C''''i'' are all
injective module In mathematics, especially in the area of abstract algebra known as module theory, an injective module is a module ''Q'' that shares certain desirable properties with the Z-module Q of all rational numbers. Specifically, if ''Q'' is a submodule of ...
s. Every ''R''-module possesses a free left resolution.
A fortiori ''Argumentum a fortiori'' (literally "argument from the stronger
eason Eason is a surname. The name comes from Aythe where the first recorded spelling of the family name is that of Aythe Filius Thome which was dated circa 1630, in the "Baillie of Stratherne". Aythe ''filius'' Thome received a charter of the lands of F ...
) (, ) is a form of Argumentation theory, argumentation that draws upon existing confidence in a proposition to argue in favor of a second proposition that is held to be Logi ...
, every module also admits projective and flat resolutions. The proof idea is to define ''E''0 to be the free ''R''-module generated by the elements of ''M'', and then ''E''1 to be the free ''R''-module generated by the elements of the kernel of the natural map ''E''0 → ''M'' etc. Dually, every ''R''-module possesses an injective resolution. Projective resolutions (and, more generally, flat resolutions) can be used to compute
Tor functor In mathematics, the Tor functors are the derived functors of the tensor product of modules over a ring. Along with the Ext functor, Tor is one of the central concepts of homological algebra, in which ideas from algebraic topology are used to constr ...
s. Projective resolution of a module ''M'' is unique up to a
chain homotopy In homological algebra in mathematics, the homotopy category ''K(A)'' of chain complexes in an additive category ''A'' is a framework for working with chain homotopies and homotopy equivalences. It lies intermediate between the category of chain co ...
, i.e., given two projective resolutions ''P''0 → ''M'' and ''P''1 → ''M'' of ''M'' there exists a chain homotopy between them. Resolutions are used to define homological dimensions. The minimal length of a finite projective resolution of a module ''M'' is called its ''
projective dimension In mathematics, particularly in algebra, the class of projective modules enlarges the class of free modules (that is, modules with basis vectors) over a ring, by keeping some of the main properties of free modules. Various equivalent characterizati ...
'' and denoted pd(''M''). For example, a module has projective dimension zero if and only if it is a projective module. If ''M'' does not admit a finite projective resolution then the projective dimension is infinite. For example, for a commutative
local ring In abstract algebra, more specifically ring theory, local rings are certain rings that are comparatively simple, and serve to describe what is called "local behaviour", in the sense of functions defined on varieties or manifolds, or of algebraic num ...
''R'', the projective dimension is finite if and only if ''R'' is regular and in this case it coincides with the
Krull dimension In commutative algebra, the Krull dimension of a commutative ring ''R'', named after Wolfgang Krull, is the supremum of the lengths of all chains of prime ideals. The Krull dimension need not be finite even for a Noetherian ring. More generally t ...
of ''R''. Analogously, the
injective dimension In mathematics, especially in the area of abstract algebra known as module theory, an injective module is a module ''Q'' that shares certain desirable properties with the Z-module Q of all rational numbers. Specifically, if ''Q'' is a submodule of ...
id(''M'') and
flat dimension In abstract algebra, the weak dimension of a nonzero right module ''M'' over a ring ''R'' is the largest number ''n'' such that the Tor group \operatorname_n^R(M,N) is nonzero for some left ''R''-module ''N'' (or infinity if no largest such ''n ...
fd(''M'') are defined for modules also. The injective and projective dimensions are used on the category of right ''R'' modules to define a homological dimension for ''R'' called the right
global dimension In ring theory and homological algebra, the global dimension (or global homological dimension; sometimes just called homological dimension) of a ring ''A'' denoted gl dim ''A'', is a non-negative integer or infinity which is a homological invariant ...
of ''R''. Similarly, flat dimension is used to define
weak global dimension In abstract algebra, the weak dimension of a nonzero right module ''M'' over a ring ''R'' is the largest number ''n'' such that the Tor group \operatorname_n^R(M,N) is nonzero for some left ''R''-module ''N'' (or infinity if no largest such ''n ...
. The behavior of these dimensions reflects characteristics of the ring. For example, a ring has right global dimension 0 if and only if it is a
semisimple ring In mathematics, especially in the area of abstract algebra known as module theory, a semisimple module or completely reducible module is a type of module that can be understood easily from its parts. A ring that is a semisimple module over itself ...
, and a ring has weak global dimension 0 if and only if it is a
von Neumann regular ring In mathematics, a von Neumann regular ring is a ring ''R'' (associative, with 1, not necessarily commutative) such that for every element ''a'' in ''R'' there exists an ''x'' in ''R'' with . One may think of ''x'' as a "weak inverse" of the element ...
.


Graded modules and algebras

Let ''M'' be a
graded module In mathematics, in particular abstract algebra, a graded ring is a ring such that the underlying additive group is a direct sum of abelian groups R_i such that R_i R_j \subseteq R_. The index set is usually the set of nonnegative integers or the se ...
over a
graded algebra In mathematics, in particular abstract algebra, a graded ring is a ring such that the underlying additive group is a direct sum of abelian groups R_i such that R_i R_j \subseteq R_. The index set is usually the set of nonnegative integers or the se ...
, which is generated over a field by its elements of positive degree. Then ''M'' has a free resolution in which the free modules ''E''''i'' may be graded in such a way that the ''d''''i'' and ε are graded linear maps. Among these graded free resolutions, the minimal free resolutions are those for which the number of basis elements of each ''E''''i'' is minimal. The number of basis elements of each ''E''''i'' and their degrees are the same for all the minimal free resolutions of a graded module. If ''I'' is a
homogeneous ideal In mathematics, in particular abstract algebra, a graded ring is a ring such that the underlying additive group is a direct sum of abelian groups R_i such that R_i R_j \subseteq R_. The index set is usually the set of nonnegative integers or the s ...
in a
polynomial ring In mathematics, especially in the field of algebra, a polynomial ring or polynomial algebra is a ring (which is also a commutative algebra) formed from the set of polynomials in one or more indeterminates (traditionally also called variables) ...
over a field, the Castelnuovo-Mumford regularity of the
projective algebraic set Algebraic varieties are the central objects of study in algebraic geometry, a sub-field of mathematics. Classically, an algebraic variety is defined as the set of solutions of a system of polynomial equations over the real or complex numbers. ...
defined by ''I'' is the minimal integer ''r'' such that the degrees of the basis elements of the ''E''''i'' in a minimal free resolution of ''I'' are all lower than ''r-i''.


Examples

A classic example of a free resolution is given by the
Koszul complex In mathematics, the Koszul complex was first introduced to define a cohomology theory for Lie algebras, by Jean-Louis Koszul (see Lie algebra cohomology). It turned out to be a useful general construction in homological algebra. As a tool, its ho ...
of a
regular sequence In commutative algebra, a regular sequence is a sequence of elements of a commutative ring In mathematics, a commutative ring is a ring in which the multiplication operation is commutative. The study of commutative rings is called commutative alg ...
in a
local ring In abstract algebra, more specifically ring theory, local rings are certain rings that are comparatively simple, and serve to describe what is called "local behaviour", in the sense of functions defined on varieties or manifolds, or of algebraic num ...
or of a homogeneous regular sequence in a
graded algebra In mathematics, in particular abstract algebra, a graded ring is a ring such that the underlying additive group is a direct sum of abelian groups R_i such that R_i R_j \subseteq R_. The index set is usually the set of nonnegative integers or the se ...
finitely generated over a field. Let ''X'' be an
aspherical space In topology, a branch of mathematics, an aspherical space is a topological space with all homotopy groups \pi_n(X) equal to 0 when n>1. If one works with CW complexes, one can reformulate this condition: an aspherical CW complex is a CW complex who ...
, i.e., its
universal cover A covering of a topological space X is a continuous map \pi : E \rightarrow X with special properties. Definition Let X be a topological space. A covering of X is a continuous map : \pi : E \rightarrow X such that there exists a discrete spa ...
''E'' is
contractible In mathematics, a topological space ''X'' is contractible if the identity map on ''X'' is null-homotopic, i.e. if it is homotopic to some constant map. Intuitively, a contractible space is one that can be continuously shrunk to a point within that ...
. Then every
singular Singular may refer to: * Singular, the grammatical number that denotes a unit quantity, as opposed to the plural and other forms * Singular homology * SINGULAR, an open source Computer Algebra System (CAS) * Singular or sounder, a group of boar, ...
(or
simplicial In geometry, a simplex (plural: simplexes or simplices) is a generalization of the notion of a triangle or tetrahedron to arbitrary dimensions. The simplex is so-named because it represents the simplest possible polytope in any given dimension. ...
) chain complex of ''E'' is a free resolution of the module Z not only over the ring Z but also over the
group ring In algebra, a group ring is a free module and at the same time a ring, constructed in a natural way from any given ring and any given group. As a free module, its ring of scalars is the given ring, and its basis is the set of elements of the give ...
Z 'π''1(''X'')


Resolutions in abelian categories

The definition of resolutions of an object ''M'' in an
abelian category In mathematics, an abelian category is a category in which morphisms and objects can be added and in which kernels and cokernels exist and have desirable properties. The motivating prototypical example of an abelian category is the category of ab ...
''A'' is the same as above, but the ''Ei'' and ''Ci'' are objects in ''A'', and all maps involved are
morphism In mathematics, particularly in category theory, a morphism is a structure-preserving map from one mathematical structure to another one of the same type. The notion of morphism recurs in much of contemporary mathematics. In set theory, morphisms a ...
s in ''A''. The analogous notion of projective and injective modules are projective and
injective object In mathematics, especially in the field of category theory, the concept of injective object is a generalization of the concept of injective module. This concept is important in cohomology, in homotopy theory and in the theory of model categories. ...
s, and, accordingly, projective and injective resolutions. However, such resolutions need not exist in a general abelian category ''A''. If every object of ''A'' has a projective (resp. injective) resolution, then ''A'' is said to have
enough projectives In category theory, the notion of a projective object generalizes the notion of a projective module. Projective objects in Abelian category, abelian Category (mathematics), categories are used in homological algebra. The Duality (mathematics), dual ...
(resp.
enough injectives In mathematics, especially in the field of category theory, the concept of injective object is a generalization of the concept of injective module. This concept is important in cohomology, in homotopy theory and in the theory of model categori ...
). Even if they do exist, such resolutions are often difficult to work with. For example, as pointed out above, every ''R''-module has an injective resolution, but this resolution is not
functor In mathematics, specifically category theory, a functor is a Map (mathematics), mapping between Category (mathematics), categories. Functors were first considered in algebraic topology, where algebraic objects (such as the fundamental group) ar ...
ial, i.e., given a homomorphism ''M'' → ''M' '', together with injective resolutions :0 \rightarrow M \rightarrow I_*, \ \ 0 \rightarrow M' \rightarrow I'_*, there is in general no functorial way of obtaining a map between I_* and I'_*.


Abelian categories without projective resolutions in general

One class of examples of Abelian categories without projective resolutions are the categories \text(X) of
coherent sheaves In mathematics, especially in algebraic geometry and the theory of complex manifolds, coherent sheaves are a class of sheaves closely linked to the geometric properties of the underlying space. The definition of coherent sheaves is made with refer ...
on a
scheme A scheme is a systematic plan for the implementation of a certain idea. Scheme or schemer may refer to: Arts and entertainment * ''The Scheme'' (TV series), a BBC Scotland documentary series * The Scheme (band), an English pop band * ''The Schem ...
X. For example, if X = \mathbb^n_S is projective space, any coherent sheaf \mathcal on X has a presentation given by an exact sequence :\bigoplus_ \mathcal_X(s_) \to \bigoplus_ \mathcal_X(s_i) \to \mathcal \to 0. The first two terms are not in general projective since H^n(\mathbb^n_S,\mathcal_X(s)) \neq 0 for s > 0. But, both terms are locally free, and locally flat. Both classes of sheaves can be used in place for certain computations, replacing projective resolutions for computing some derived functors.


Acyclic resolution

In many cases one is not really interested in the objects appearing in a resolution, but in the behavior of the resolution with respect to a given
functor In mathematics, specifically category theory, a functor is a Map (mathematics), mapping between Category (mathematics), categories. Functors were first considered in algebraic topology, where algebraic objects (such as the fundamental group) ar ...
. Therefore, in many situations, the notion of acyclic resolutions is used: given a
left exact functor In mathematics, particularly homological algebra, an exact functor is a functor that preserves short exact sequences. Exact functors are convenient for algebraic calculations because they can be directly applied to presentations of objects. Much ...
''F'': ''A'' → ''B'' between two abelian categories, a resolution :0 \rightarrow M \rightarrow E_0 \rightarrow E_1 \rightarrow E_2 \rightarrow \cdots of an object ''M'' of ''A'' is called ''F''-acyclic, if the
derived functor In mathematics, certain functors may be ''derived'' to obtain other functors closely related to the original ones. This operation, while fairly abstract, unifies a number of constructions throughout mathematics. Motivation It was noted in vari ...
s ''R''''i''''F''(''E''''n'') vanish for all ''i'' > 0 and ''n'' ≥ 0. Dually, a left resolution is acyclic with respect to a right exact functor if its derived functors vanish on the objects of the resolution. For example, given a ''R'' module ''M'', the
tensor product In mathematics, the tensor product V \otimes W of two vector spaces and (over the same field) is a vector space to which is associated a bilinear map V\times W \to V\otimes W that maps a pair (v,w),\ v\in V, w\in W to an element of V \otimes W ...
  \otimes_R M is a right exact functor Mod(''R'') → Mod(''R''). Every flat resolution is acyclic with respect to this functor. A ''flat resolution'' is acyclic for the tensor product by every ''M''. Similarly, resolutions that are acyclic for all the functors Hom( ⋅ , ''M'') are the projective resolutions and those that are acyclic for the functors Hom(''M'',  ⋅ ) are the injective resolutions. Any injective (projective) resolution is ''F''-acyclic for any left exact (right exact, respectively) functor. The importance of acyclic resolutions lies in the fact that the derived functors ''R''''i''''F'' (of a left exact functor, and likewise ''L''''i''''F'' of a right exact functor) can be obtained from as the homology of ''F''-acyclic resolutions: given an acyclic resolution E_* of an object ''M'', we have :R_i F(M) = H_i F(E_*), where right hand side is the ''i''-th homology object of the complex F(E_*). This situation applies in many situations. For example, for the
constant sheaf Constant or The Constant may refer to: Mathematics * Constant (mathematics), a non-varying value * Mathematical constant, a special number that arises naturally in mathematics, such as or Other concepts * Control variable or scientific cons ...
''R'' on a
differentiable manifold In mathematics, a differentiable manifold (also differential manifold) is a type of manifold that is locally similar enough to a vector space to allow one to apply calculus. Any manifold can be described by a collection of charts (atlas). One ma ...
''M'' can be resolved by the sheaves \mathcal C^*(M) of smooth
differential form In mathematics, differential forms provide a unified approach to define integrands over curves, surfaces, solids, and higher-dimensional manifolds. The modern notion of differential forms was pioneered by Élie Cartan. It has many applications, ...
s: : 0 \rightarrow R \subset \mathcal C^0(M) \stackrel d \rightarrow \mathcal C^1(M) \stackrel d \rightarrow \cdots \mathcal C^(M) \rightarrow 0. The sheaves \mathcal C^*(M) are fine sheaves, which are known to be acyclic with respect to the
global section In mathematics, a sheaf is a tool for systematically tracking data (such as sets, abelian groups, rings) attached to the open sets of a topological space and defined locally with regard to them. For example, for each open set, the data could ...
functor \Gamma: \mathcal F \mapsto \mathcal F(M). Therefore, the
sheaf cohomology In mathematics, sheaf cohomology is the application of homological algebra to analyze the global sections of a sheaf on a topological space. Broadly speaking, sheaf cohomology describes the obstructions to solving a geometric problem globally when i ...
, which is the derived functor of the global section functor Γ is computed as \mathrm H^i(M, \mathbf R) = \mathrm H^i( \mathcal C^*(M)). Similarly
Godement resolution The Godement resolution of a sheaf (mathematics), sheaf is a construction in homological algebra that allows one to view global, cohomological information about the sheaf in terms of local information coming from its stalks. It is useful for comput ...
s are acyclic with respect to the global sections functor.


See also

*
Standard resolution In mathematics, the standard complex, also called standard resolution, bar resolution, bar complex, bar construction, is a way of constructing resolution (algebra), resolutions in homological algebra. It was first introduced for the special case ...
*
Hilbert–Burch theorem In mathematics, the Hilbert–Burch theorem describes the structure of some free resolutions of a quotient of a local or graded ring in the case that the quotient has projective dimension 2. proved a version of this theorem for polynomial ...
*
Hilbert's syzygy theorem In mathematics, Hilbert's syzygy theorem is one of the three fundamental theorems about polynomial rings over fields, first proved by David Hilbert in 1890, which were introduced for solving important open questions in invariant theory, and are at ...
*
Free presentation In algebra, a free presentation of a module ''M'' over a commutative ring ''R'' is an exact sequence of ''R''-modules: :\bigoplus_ R \ \overset \to\ \bigoplus_ R \ \overset\to\ M \to 0. Note the image under ''g'' of the standard basis generate ...
* Matrix factorizations (algebra)


Notes


References

* * * * * {{Weibel IHA Homological algebra Module theory