Graphs
related to C4[ 40, 6 ] = MPS(4,20;3)
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On this page are all graphs related to C4[ 40, 6 ].
Graphs which this one covers
8-fold cover of
C4[ 5, 1 ]
= K5
5-fold cover of
C4[ 8, 1 ]
= K_4,4
4-fold cover of
C4[ 10, 2 ]
= C_ 10(1, 3)
2-fold cover of
C4[ 20, 2 ]
= {4, 4}_ 4, 2
Graphs which cover this one
2-fold covered by
C4[ 80, 8 ]
= PS( 8, 20; 3)
3-fold covered by
C4[ 120, 11 ]
= MPS( 12, 20; 3)
3-fold covered by
C4[ 120, 16 ]
= MPS( 4, 60; 7)
4-fold covered by
C4[ 160, 12 ]
= PS( 16, 20; 3)
4-fold covered by
C4[ 160, 14 ]
= PS( 8, 40; 3)
4-fold covered by
C4[ 160, 16 ]
= MPS( 8, 40; 3)
4-fold covered by
C4[ 160, 29 ]
= MSZ ( 20, 8, 3, 3)
4-fold covered by
C4[ 160, 50 ]
= UG(ATD[160,50])
4-fold covered by
C4[ 160, 80 ]
= SS[160, 26]
4-fold covered by
C4[ 160, 81 ]
= SS[160, 27]
5-fold covered by
C4[ 200, 10 ]
= MPS( 20, 20; 3)
5-fold covered by
C4[ 200, 14 ]
= MPS( 4,100; 7)
5-fold covered by
C4[ 200, 19 ]
= MSZ ( 40, 5, 11, 2)
5-fold covered by
C4[ 200, 40 ]
= SS[200, 12]
5-fold covered by
C4[ 200, 41 ]
= SS[200, 13]
6-fold covered by
C4[ 240, 14 ]
= PS( 24, 20; 3)
6-fold covered by
C4[ 240, 24 ]
= PS( 8, 60; 7)
7-fold covered by
C4[ 280, 11 ]
= MPS( 28, 20; 3)
7-fold covered by
C4[ 280, 16 ]
= MPS( 4,140; 13)
8-fold covered by
C4[ 320, 14 ]
= PS( 32, 20; 3)
8-fold covered by
C4[ 320, 18 ]
= PS( 16, 40; 3)
8-fold covered by
C4[ 320, 20 ]
= MPS( 16, 40; 3)
8-fold covered by
C4[ 320, 21 ]
= PS( 8, 80; 3)
8-fold covered by
C4[ 320, 22 ]
= PS( 8, 80; 7)
8-fold covered by
C4[ 320, 25 ]
= MPS( 8, 80; 3)
8-fold covered by
C4[ 320, 26 ]
= MPS( 8, 80; 7)
8-fold covered by
C4[ 320, 49 ]
= MSZ ( 16, 20, 3, 3)
8-fold covered by
C4[ 320, 51 ]
= MSZ ( 20, 16, 3, 7)
8-fold covered by
C4[ 320, 99 ]
= UG(ATD[320,91])
8-fold covered by
C4[ 320, 101 ]
= UG(ATD[320,105])
8-fold covered by
C4[ 320, 104 ]
= UG(ATD[320,127])
8-fold covered by
C4[ 320, 106 ]
= UG(ATD[320,131])
8-fold covered by
C4[ 320, 108 ]
= UG(ATD[320,135])
8-fold covered by
C4[ 320, 110 ]
= UG(ATD[320,139])
8-fold covered by
C4[ 320, 112 ]
= UG(ATD[320,143])
8-fold covered by
C4[ 320, 210 ]
= SS[320, 19]
8-fold covered by
C4[ 320, 211 ]
= SS[320, 20]
8-fold covered by
C4[ 320, 212 ]
= SS[320, 21]
8-fold covered by
C4[ 320, 213 ]
= SS[320, 22]
8-fold covered by
C4[ 320, 214 ]
= SS[320, 23]
8-fold covered by
C4[ 320, 215 ]
= SS[320, 24]
8-fold covered by
C4[ 320, 216 ]
= SS[320, 25]
9-fold covered by
C4[ 360, 17 ]
= MPS( 36, 20; 3)
9-fold covered by
C4[ 360, 26 ]
= MPS( 12, 60; 7)
9-fold covered by
C4[ 360, 32 ]
= MPS( 4,180; 17)
9-fold covered by
C4[ 360, 41 ]
= MSY( 6, 60, 31, 18)
9-fold covered by
C4[ 360, 42 ]
= MSZ ( 24, 15, 5, 2)
9-fold covered by
C4[ 360, 218 ]
= SS[360, 9]
10-fold covered by
C4[ 400, 12 ]
= PS( 40, 20; 3)
10-fold covered by
C4[ 400, 21 ]
= PS( 8,100; 7)
10-fold covered by
C4[ 400, 32 ]
= MSZ ( 40, 10, 9, 3)
10-fold covered by
C4[ 400, 97 ]
= SS[400, 1]
10-fold covered by
C4[ 400, 98 ]
= SS[400, 2]
11-fold covered by
C4[ 440, 11 ]
= MPS( 44, 20; 3)
11-fold covered by
C4[ 440, 30 ]
= MPS( 4,220; 23)
12-fold covered by
C4[ 480, 20 ]
= PS( 48, 20; 3)
12-fold covered by
C4[ 480, 26 ]
= PS( 24, 40; 3)
12-fold covered by
C4[ 480, 28 ]
= MPS( 24, 40; 3)
12-fold covered by
C4[ 480, 35 ]
= PS( 16, 60; 7)
12-fold covered by
C4[ 480, 43 ]
= PS( 8,120; 7)
12-fold covered by
C4[ 480, 44 ]
= PS( 8,120; 13)
12-fold covered by
C4[ 480, 46 ]
= MPS( 8,120; 7)
12-fold covered by
C4[ 480, 47 ]
= MPS( 8,120; 13)
12-fold covered by
C4[ 480, 89 ]
= MSZ ( 20, 24, 3, 11)
12-fold covered by
C4[ 480, 148 ]
= UG(ATD[480,11])
12-fold covered by
C4[ 480, 149 ]
= UG(ATD[480,31])
12-fold covered by
C4[ 480, 150 ]
= UG(ATD[480,33])
12-fold covered by
C4[ 480, 182 ]
= UG(ATD[480,129])
12-fold covered by
C4[ 480, 191 ]
= UG(ATD[480,231])
12-fold covered by
C4[ 480, 529 ]
= SS[480, 3]
12-fold covered by
C4[ 480, 530 ]
= SS[480, 4]
12-fold covered by
C4[ 480, 531 ]
= SS[480, 5]
BGCG dissections of this graph
Base Graph:
C4[ 10, 2 ]
= C_ 10(1, 3)
connection graph: [K_2]
Graphs which have this one as the base graph in a BGCG dissection:
C4[ 160, 35 ]
= PL(LoPr_ 20( 1, 10, 6, 10, 1), [4^20, 20^4])
with connection graph [K_2]
C4[ 160, 76 ]
= SS[160, 19]
with connection graph [K_2]
C4[ 160, 77 ]
= SS[160, 20]
with connection graph [K_2]
C4[ 240, 78 ]
= UG(ATD[240,118])
with connection graph [C_3]
C4[ 240, 79 ]
= UG(ATD[240,120])
with connection graph [C_3]
C4[ 320, 144 ]
= PL(ATD[8,2]#ATD[40,6])
with connection graph [C_4]
C4[ 320, 203 ]
= SS[320, 9]
with connection graph [C_4]
C4[ 480, 120 ]
= PL(LoPr_ 60( 3, 10, 18, 10, 27), [12^20, 20^12])
with connection graph [C_6]
C4[ 480, 121 ]
= PL(LoPr_ 60( 3, 20, 18, 20, 27), [6^40, 20^12])
with connection graph [C_6]
C4[ 480, 205 ]
= UG(ATD[480,283])
with connection graph [C_6]
C4[ 480, 208 ]
= UG(ATD[480,290])
with connection graph [C_6]
C4[ 480, 210 ]
= UG(ATD[480,294])
with connection graph [C_6]
C4[ 480, 212 ]
= UG(ATD[480,298])
with connection graph [C_6]
C4[ 480, 244 ]
= UG(ATD[480,369])
with connection graph [K_6]
C4[ 480, 248 ]
= UG(ATD[480,381])
with connection graph [K_6]
C4[ 480, 251 ]
= UG(ATD[480,390])
with connection graph [K_6]
C4[ 480, 255 ]
= UG(ATD[480,402])
with connection graph [K_6]
C4[ 480, 469 ]
= BGCG(UG(ATD[240,118]); K1;{2, 5})
with connection graph [K_6]
C4[ 480, 470 ]
= BGCG(UG(ATD[240,118]); K1;{3, 4})
with connection graph [K_6]
C4[ 480, 494 ]
= BGCG(UG(ATD[240,145]); K1;{18, 21})
with connection graph [K_6]
C4[ 480, 495 ]
= BGCG(UG(ATD[240,145]); K1;{19, 20})
with connection graph [K_6]
Aut-Orbital graphs of this one:
C4[ 5, 1 ] = K5
C4[ 8, 1 ] = K_4,4
C4[ 10, 2 ] = C_ 10(1, 3)
C4[ 40, 6 ] = MPS( 4, 20; 3)