Your data matches 104 different statistics following compositions of up to 3 maps.
(click to perform a complete search on your data)
Matching statistic: St000550
(load all 4 compositions to match this statistic)
Mapping
St000550: Lattices ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => 1 = 2 - 1
([(0,1)],2)
 => 2 = 3 - 1
([(0,2),(2,1)],3)
 => 3 = 4 - 1
([(0,1),(0,2),(1,3),(2,3)],4)
 => 4 = 5 - 1
([(0,3),(2,1),(3,2)],4)
 => 4 = 5 - 1
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => 5 = 6 - 1
([(0,4),(2,3),(3,1),(4,2)],5)
 => 5 = 6 - 1
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => 6 = 7 - 1
Description
The number of modular elements of a lattice. A pair $(x, y)$ of elements of a lattice $L$ is a modular pair if for every $z\geq y$ we have that $(y\vee x) \wedge z = y \vee (x \wedge z)$. An element $x$ is left-modular if $(x, y)$ is a modular pair for every $y\in L$, and is modular if both $(x, y)$ and $(y, x)$ are modular pairs for every $y\in L$.
Matching statistic: St000551
(load all 4 compositions to match this statistic)
Mapping
St000551: Lattices ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => 1 = 2 - 1
([(0,1)],2)
 => 2 = 3 - 1
([(0,2),(2,1)],3)
 => 3 = 4 - 1
([(0,1),(0,2),(1,3),(2,3)],4)
 => 4 = 5 - 1
([(0,3),(2,1),(3,2)],4)
 => 4 = 5 - 1
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => 5 = 6 - 1
([(0,4),(2,3),(3,1),(4,2)],5)
 => 5 = 6 - 1
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => 6 = 7 - 1
Description
The number of left modular elements of a lattice. A pair $(x, y)$ of elements of a lattice $L$ is a modular pair if for every $z\geq y$ we have that $(y\vee x) \wedge z = y \vee (x \wedge z)$. An element $x$ is left-modular if $(x, y)$ is a modular pair for every $y\in L$.
Matching statistic: St001616
(load all 4 compositions to match this statistic)
Mapping
St001616: Lattices ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => 1 = 2 - 1
([(0,1)],2)
 => 2 = 3 - 1
([(0,2),(2,1)],3)
 => 3 = 4 - 1
([(0,1),(0,2),(1,3),(2,3)],4)
 => 4 = 5 - 1
([(0,3),(2,1),(3,2)],4)
 => 4 = 5 - 1
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => 5 = 6 - 1
([(0,4),(2,3),(3,1),(4,2)],5)
 => 5 = 6 - 1
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => 6 = 7 - 1
Description
The number of neutral elements in a lattice. An element $e$ of the lattice $L$ is neutral if the sublattice generated by $e$, $x$ and $y$ is distributive for all $x, y \in L$.
Matching statistic: St000189
(load all 2 compositions to match this statistic)
Mapping
Mp00193: Lattices to posetPosets
St000189: Posets ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => ([],1)
 => 1 = 2 - 1
([(0,1)],2)
 => ([(0,1)],2)
 => 2 = 3 - 1
([(0,2),(2,1)],3)
 => ([(0,2),(2,1)],3)
 => 3 = 4 - 1
([(0,1),(0,2),(1,3),(2,3)],4)
 => ([(0,1),(0,2),(1,3),(2,3)],4)
 => 4 = 5 - 1
([(0,3),(2,1),(3,2)],4)
 => ([(0,3),(2,1),(3,2)],4)
 => 4 = 5 - 1
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => ([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => 5 = 6 - 1
([(0,4),(2,3),(3,1),(4,2)],5)
 => ([(0,4),(2,3),(3,1),(4,2)],5)
 => 5 = 6 - 1
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => ([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => 6 = 7 - 1
Description
The number of elements in the poset.
Matching statistic: St001717
(load all 2 compositions to match this statistic)
Mapping
Mp00193: Lattices to posetPosets
St001717: Posets ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => ([],1)
 => 1 = 2 - 1
([(0,1)],2)
 => ([(0,1)],2)
 => 2 = 3 - 1
([(0,2),(2,1)],3)
 => ([(0,2),(2,1)],3)
 => 3 = 4 - 1
([(0,1),(0,2),(1,3),(2,3)],4)
 => ([(0,1),(0,2),(1,3),(2,3)],4)
 => 4 = 5 - 1
([(0,3),(2,1),(3,2)],4)
 => ([(0,3),(2,1),(3,2)],4)
 => 4 = 5 - 1
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => ([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => 5 = 6 - 1
([(0,4),(2,3),(3,1),(4,2)],5)
 => ([(0,4),(2,3),(3,1),(4,2)],5)
 => 5 = 6 - 1
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => ([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => 6 = 7 - 1
Description
The largest size of an interval in a poset.
Matching statistic: St001300
(load all 2 compositions to match this statistic)
Mapping
Mp00193: Lattices to posetPosets
St001300: Posets ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => ([],1)
 => 0 = 2 - 2
([(0,1)],2)
 => ([(0,1)],2)
 => 1 = 3 - 2
([(0,2),(2,1)],3)
 => ([(0,2),(2,1)],3)
 => 2 = 4 - 2
([(0,1),(0,2),(1,3),(2,3)],4)
 => ([(0,1),(0,2),(1,3),(2,3)],4)
 => 3 = 5 - 2
([(0,3),(2,1),(3,2)],4)
 => ([(0,3),(2,1),(3,2)],4)
 => 3 = 5 - 2
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => ([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => 4 = 6 - 2
([(0,4),(2,3),(3,1),(4,2)],5)
 => ([(0,4),(2,3),(3,1),(4,2)],5)
 => 4 = 6 - 2
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => ([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => 5 = 7 - 2
Description
The rank of the boundary operator in degree 1 of the chain complex of the order complex of the poset.
Matching statistic: St000459
(load all 4 compositions to match this statistic)
Mapping
Mp00193: Lattices to posetPosets
Mp00306: Posets rowmotion cycle typeInteger partitions
St000459: Integer partitions ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => ([],1)
 => [2]
 => 2
([(0,1)],2)
 => ([(0,1)],2)
 => [3]
 => 3
([(0,2),(2,1)],3)
 => ([(0,2),(2,1)],3)
 => [4]
 => 4
([(0,1),(0,2),(1,3),(2,3)],4)
 => ([(0,1),(0,2),(1,3),(2,3)],4)
 => [4,2]
 => 5
([(0,3),(2,1),(3,2)],4)
 => ([(0,3),(2,1),(3,2)],4)
 => [5]
 => 5
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => ([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => [5,2]
 => 6
([(0,4),(2,3),(3,1),(4,2)],5)
 => ([(0,4),(2,3),(3,1),(4,2)],5)
 => [6]
 => 6
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => ([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => [7]
 => 7
Description
The hook length of the base cell of a partition. This is also known as the perimeter of a partition. In particular, the perimeter of the empty partition is zero.
Matching statistic: St000870
(load all 4 compositions to match this statistic)
Mapping
Mp00193: Lattices to posetPosets
Mp00306: Posets rowmotion cycle typeInteger partitions
St000870: Integer partitions ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => ([],1)
 => [2]
 => 2
([(0,1)],2)
 => ([(0,1)],2)
 => [3]
 => 3
([(0,2),(2,1)],3)
 => ([(0,2),(2,1)],3)
 => [4]
 => 4
([(0,1),(0,2),(1,3),(2,3)],4)
 => ([(0,1),(0,2),(1,3),(2,3)],4)
 => [4,2]
 => 5
([(0,3),(2,1),(3,2)],4)
 => ([(0,3),(2,1),(3,2)],4)
 => [5]
 => 5
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => ([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => [5,2]
 => 6
([(0,4),(2,3),(3,1),(4,2)],5)
 => ([(0,4),(2,3),(3,1),(4,2)],5)
 => [6]
 => 6
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => ([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => [7]
 => 7
Description
The product of the hook lengths of the diagonal cells in an integer partition. For a cell in the Ferrers diagram of a partition, the hook length is given by the number of boxes to its right plus the number of boxes below + 1. This statistic is the product of the hook lengths of the diagonal cells $(i,i)$ of a partition.
Matching statistic: St000228
(load all 5 compositions to match this statistic)
Mapping
Mp00193: Lattices to posetPosets
Mp00110: Posets Greene-Kleitman invariantInteger partitions
St000228: Integer partitions ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => ([],1)
 => [1]
 => 1 = 2 - 1
([(0,1)],2)
 => ([(0,1)],2)
 => [2]
 => 2 = 3 - 1
([(0,2),(2,1)],3)
 => ([(0,2),(2,1)],3)
 => [3]
 => 3 = 4 - 1
([(0,1),(0,2),(1,3),(2,3)],4)
 => ([(0,1),(0,2),(1,3),(2,3)],4)
 => [3,1]
 => 4 = 5 - 1
([(0,3),(2,1),(3,2)],4)
 => ([(0,3),(2,1),(3,2)],4)
 => [4]
 => 4 = 5 - 1
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => ([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => [4,1]
 => 5 = 6 - 1
([(0,4),(2,3),(3,1),(4,2)],5)
 => ([(0,4),(2,3),(3,1),(4,2)],5)
 => [5]
 => 5 = 6 - 1
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => ([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => [6]
 => 6 = 7 - 1
Description
The size of a partition. This statistic is the constant statistic of the level sets.
Matching statistic: St000460
(load all 2 compositions to match this statistic)
Mapping
Mp00193: Lattices to posetPosets
Mp00110: Posets Greene-Kleitman invariantInteger partitions
St000460: Integer partitions ⟶ ℤResult quality: 100% values known / values provided: 100%distinct values known / distinct values provided: 100%
Values
([],1)
 => ([],1)
 => [1]
 => 1 = 2 - 1
([(0,1)],2)
 => ([(0,1)],2)
 => [2]
 => 2 = 3 - 1
([(0,2),(2,1)],3)
 => ([(0,2),(2,1)],3)
 => [3]
 => 3 = 4 - 1
([(0,1),(0,2),(1,3),(2,3)],4)
 => ([(0,1),(0,2),(1,3),(2,3)],4)
 => [3,1]
 => 4 = 5 - 1
([(0,3),(2,1),(3,2)],4)
 => ([(0,3),(2,1),(3,2)],4)
 => [4]
 => 4 = 5 - 1
([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => ([(0,3),(1,4),(2,4),(3,1),(3,2)],5)
 => [4,1]
 => 5 = 6 - 1
([(0,4),(2,3),(3,1),(4,2)],5)
 => ([(0,4),(2,3),(3,1),(4,2)],5)
 => [5]
 => 5 = 6 - 1
([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => ([(0,5),(2,4),(3,2),(4,1),(5,3)],6)
 => [6]
 => 6 = 7 - 1
Description
The hook length of the last cell along the main diagonal of an integer partition.
The following 94 statistics, ordered by result quality, also match your data. Click on any of them to see the details.
St000479The Ramsey number of a graph. St000636The hull number of a graph. St000917The open packing number of a graph. St000918The 2-limited packing number of a graph. St001315The dissociation number of a graph. St001318The number of vertices of the largest induced subforest with the same number of connected components of a graph. St001321The number of vertices of the largest induced subforest of a graph. St001342The number of vertices in the center of a graph. St001615The number of join prime elements of a lattice. St001617The dimension of the space of valuations of a lattice. St001622The number of join-irreducible elements of a lattice. St001654The monophonic hull number of a graph. St001655The general position number of a graph. St001656The monophonic position number of a graph. St001672The restrained domination number of a graph. St001707The length of a longest path in a graph such that the remaining vertices can be partitioned into two sets of the same size without edges between them. St000987The number of positive eigenvalues of the Laplacian matrix of the graph. St001120The length of a longest path in a graph. St001382The number of boxes in the diagram of a partition that do not lie in its Durfee square. St000528The height of a poset. St000543The size of the conjugacy class of a binary word. St000718The largest Laplacian eigenvalue of a graph if it is integral. St000912The number of maximal antichains in a poset. St000998Number of indecomposable projective modules with injective dimension smaller than or equal to the dominant dimension in the Nakayama algebra corresponding to the Dyck path. St001237The number of simple modules with injective dimension at most one or dominant dimension at least one. St001240The number of indecomposable modules e_i J^2 that have injective dimension at most one in the corresponding Nakayama algebra St001650The order of Ringel's homological bijection associated to the linear Nakayama algebra corresponding to the Dyck path. St001725The harmonious chromatic number of a graph. St001746The coalition number of a graph. St000144The pyramid weight of the Dyck path. St000171The degree of the graph. St000271The chromatic index of a graph. St000293The number of inversions of a binary word. St000377The dinv defect of an integer partition. St000395The sum of the heights of the peaks of a Dyck path. St000476The sum of the semi-lengths of tunnels before a valley of a Dyck path. St000548The number of different non-empty partial sums of an integer partition. St000734The last entry in the first row of a standard tableau. St000947The major index east count of a Dyck path. St000967The value p(1) for the Coxeterpolynomial p of the corresponding LNakayama algebra. St001018Sum of projective dimension of the indecomposable injective modules of the Nakayama algebra corresponding to the Dyck path. St001020Sum of the codominant dimensions of the non-projective indecomposable injective modules of the Nakayama algebra corresponding to the Dyck path. St001034The area of the parallelogram polyomino associated with the Dyck path. St001118The acyclic chromatic index of a graph. St001170Number of indecomposable injective modules whose socle has projective dimension at most g-1 when g denotes the global dimension in the corresponding Nakayama algebra. St001176The size of a partition minus its first part. St001183The maximum of $projdim(S)+injdim(S)$ over all simple modules in the Nakayama algebra corresponding to the Dyck path. St001218Smallest index k greater than or equal to one such that the Coxeter matrix C of the corresponding Nakayama algebra has C^k=1. St001249Sum of the odd parts of a partition. St001258Gives the maximum of injective plus projective dimension of an indecomposable module over the corresponding Nakayama algebra. St001416The length of a longest palindromic factor of a binary word. St001417The length of a longest palindromic subword of a binary word. St001643The Frobenius dimension of the Nakayama algebra corresponding to the Dyck path. St001917The order of toric promotion on the set of labellings of a graph. St000645The sum of the areas of the rectangles formed by two consecutive peaks and the valley in between. St000921The number of internal inversions of a binary word. St001119The length of a shortest maximal path in a graph. St001227The vector space dimension of the first extension group between the socle of the regular module and the Jacobson radical of the corresponding Nakayama algebra. St001391The disjunction number of a graph. St001723The differential of a graph. St001724The 2-packing differential of a graph. St001798The difference of the number of edges in a graph and the number of edges in the complement of the Turán graph. St000070The number of antichains in a poset. St000104The number of facets in the order polytope of this poset. St000151The number of facets in the chain polytope of the poset. St000656The number of cuts of a poset. St001875The number of simple modules with projective dimension at most 1. St001441The number of non-empty connected induced subgraphs of a graph. St000680The Grundy value for Hackendot on posets. St000717The number of ordinal summands of a poset. St000806The semiperimeter of the associated bargraph. St000906The length of the shortest maximal chain in a poset. St001636The number of indecomposable injective modules with projective dimension at most one in the incidence algebra of the poset. St000005The bounce statistic of a Dyck path. St000300The number of independent sets of vertices of a graph. St000301The number of facets of the stable set polytope of a graph. St000643The size of the largest orbit of antichains under Panyushev complementation. St001117The game chromatic index of a graph. St001645The pebbling number of a connected graph. St001869The maximum cut size of a graph. St000867The sum of the hook lengths in the first row of an integer partition. St001706The number of closed sets in a graph. St001742The difference of the maximal and the minimal degree in a graph. St001880The number of 2-Gorenstein indecomposable injective modules in the incidence algebra of the lattice. St000080The rank of the poset. St001330The hat guessing number of a graph. St000454The largest eigenvalue of a graph if it is integral. St001651The Frankl number of a lattice. St000642The size of the smallest orbit of antichains under Panyushev complementation. St000777The number of distinct eigenvalues of the distance Laplacian of a connected graph. St000327The number of cover relations in a poset. St001637The number of (upper) dissectors of a poset. St001668The number of points of the poset minus the width of the poset. St001879The number of indecomposable summands of the top of the first syzygy of the dual of the regular module in the incidence algebra of the lattice.