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On this page are all graphs related to C4[ 80, 1 ].
Graphs which cover this one
2-fold covered by
C4[ 160, 7 ]
= {4, 4}_[ 20, 4]
2-fold covered by
C4[ 160, 8 ]
= {4, 4}_< 22, 18>
2-fold covered by
C4[ 160, 21 ]
= MPS( 4, 80; 19)
2-fold covered by
C4[ 160, 60 ]
= SDD(W( 20, 2))
3-fold covered by
C4[ 240, 3 ]
= C_240(1, 41)
3-fold covered by
C4[ 240, 10 ]
= {4, 4}_[ 20, 6]
4-fold covered by
C4[ 320, 7 ]
= {4, 4}_[ 20, 8]
4-fold covered by
C4[ 320, 8 ]
= {4, 4}_< 24, 16>
4-fold covered by
C4[ 320, 9 ]
= {4, 4}_[ 40, 4]
4-fold covered by
C4[ 320, 10 ]
= {4, 4}_< 42, 38>
4-fold covered by
C4[ 320, 12 ]
= PS( 40, 16; 3)
4-fold covered by
C4[ 320, 13 ]
= MPS( 40, 16; 3)
4-fold covered by
C4[ 320, 24 ]
= PS( 8, 80; 19)
4-fold covered by
C4[ 320, 34 ]
= PX( 40, 3)
4-fold covered by
C4[ 320, 39 ]
= PL(MSY( 4, 40, 19, 0))
4-fold covered by
C4[ 320, 40 ]
= PL(MSY( 4, 40, 19, 20))
4-fold covered by
C4[ 320, 46 ]
= PL(MSY( 20, 8, 3, 0))
4-fold covered by
C4[ 320, 57 ]
= PL(LoPr_ 40( 1, 20, 2, 20, 1), [4^40, 40^4])
4-fold covered by
C4[ 320, 73 ]
= PL(Curtain_40(1,20,2,21,22),[4^40,8^20])
4-fold covered by
C4[ 320, 76 ]
= PL(Curtain_40(1,20,17,18,38),[4^40,20^8])
4-fold covered by
C4[ 320, 79 ]
= PL(BC_80({ 0, 40 }, { 1, 19 })
4-fold covered by
C4[ 320, 100 ]
= UG(ATD[320,102])
4-fold covered by
C4[ 320, 102 ]
= UG(ATD[320,121])
4-fold covered by
C4[ 320, 150 ]
= SDD(MPS( 4, 40; 9))
4-fold covered by
C4[ 320, 153 ]
= SDD({4, 4}_[ 10, 4])
4-fold covered by
C4[ 320, 167 ]
= SDD({4, 4}_< 12, 8>)
5-fold covered by
C4[ 400, 6 ]
= {4, 4}_[ 20, 10]
5-fold covered by
C4[ 400, 7 ]
= {4, 4}_< 25, 15>
5-fold covered by
C4[ 400, 12 ]
= PS( 40, 20; 3)
5-fold covered by
C4[ 400, 13 ]
= MPS( 40, 20; 3)
5-fold covered by
C4[ 400, 39 ]
= PL(MC3( 20, 10, 1, 9, 3, 0, 1), [10^20, 20^10])
5-fold covered by
C4[ 400, 40 ]
= PL(MC3( 40, 5, 1, 4, 2, 0, 1), [10^20, 40^5])
5-fold covered by
C4[ 400, 48 ]
= UG(ATD[400,13])
6-fold covered by
C4[ 480, 8 ]
= {4, 4}_[ 20, 12]
6-fold covered by
C4[ 480, 11 ]
= {4, 4}_< 26, 14>
6-fold covered by
C4[ 480, 14 ]
= {4, 4}_[ 40, 6]
6-fold covered by
C4[ 480, 15 ]
= {4, 4}_[ 60, 4]
6-fold covered by
C4[ 480, 16 ]
= {4, 4}_< 62, 58>
6-fold covered by
C4[ 480, 22 ]
= PS( 40, 24; 5)
6-fold covered by
C4[ 480, 23 ]
= MPS( 40, 24; 5)
6-fold covered by
C4[ 480, 42 ]
= MPS( 12, 80; 19)
6-fold covered by
C4[ 480, 65 ]
= PL(MSY( 4, 60, 19, 0))
6-fold covered by
C4[ 480, 69 ]
= PL(MSY( 6, 40, 19, 0))
6-fold covered by
C4[ 480, 70 ]
= PL(MSY( 6, 40, 19, 20))
6-fold covered by
C4[ 480, 83 ]
= PL(MSY( 20, 12, 5, 0))
6-fold covered by
C4[ 480, 101 ]
= PL(MC3( 6, 40, 1, 21, 19, 0, 1), [4^60, 6^40])
6-fold covered by
C4[ 480, 102 ]
= PL(MC3( 6, 40, 1, 21, 19, 20, 1), [4^60, 12^20])
6-fold covered by
C4[ 480, 118 ]
= PL(LoPr_ 60( 3, 20, 6, 20, 3), [6^40, 20^12])
6-fold covered by
C4[ 480, 142 ]
= PL(MBr( 2, 120; 19))
6-fold covered by
C4[ 480, 192 ]
= UG(ATD[480,232])
6-fold covered by
C4[ 480, 335 ]
= SDD(C_120(1, 41))
6-fold covered by
C4[ 480, 337 ]
= SDD({4, 4}_[ 10, 6])
6-fold covered by
C4[ 480, 433 ]
= SDD(C_120(1, 19))
Graphs which have this one as the base graph in a BGCG dissection:
C4[ 320, 9 ]
= {4, 4}_[ 40, 4]
with connection graph [K_2]
C4[ 320, 10 ]
= {4, 4}_< 42, 38>
with connection graph [K_2]
C4[ 320, 24 ]
= PS( 8, 80; 19)
with connection graph [K_2]
C4[ 320, 39 ]
= PL(MSY( 4, 40, 19, 0))
with connection graph [K_2]
C4[ 320, 50 ]
= PL(MSZ ( 20, 8, 5, 3), [4^40, 20^8])
with connection graph [K_2]
C4[ 320, 54 ]
= PL(MC3( 10, 16, 1, 9, 7, 0, 1), [4^40, 10^16])
with connection graph [K_2]
C4[ 320, 55 ]
= PL(MC3( 10, 16, 1, 9, 7, 8, 1), [4^40, 20^8])
with connection graph [K_2]
C4[ 320, 57 ]
= PL(LoPr_ 40( 1, 20, 2, 20, 1), [4^40, 40^4])
with connection graph [K_2]
C4[ 320, 59 ]
= PL(LoPr_ 40( 1, 20, 2, 20, 9), [4^40, 40^4])
with connection graph [K_2]
C4[ 320, 67 ]
= PL(Curtain_40(1,10,1,2,32),[4^40,8^20])
with connection graph [K_2]
C4[ 320, 69 ]
= PL(Curtain_40(1,11,29,39,40),[4^40,8^20])
with connection graph [K_2]
C4[ 320, 72 ]
= PL(Curtain_40(1,20,2,11,22),[4^40,16^10])
with connection graph [K_2]
C4[ 320, 79 ]
= PL(BC_80({ 0, 40 }, { 1, 19 })
with connection graph [K_2]
C4[ 320, 80 ]
= PL(BC_80({ 0, 40 }, { 1, 31 })
with connection graph [K_2]
C4[ 320, 102 ]
= UG(ATD[320,121])
with connection graph [K_2]
Aut-Orbital graphs of this one:
C4[ 8, 1 ] = K_4,4
C4[ 10, 1 ] = W( 5, 2)
C4[ 16, 1 ] = W( 8, 2)
C4[ 20, 1 ] = W( 10, 2)
C4[ 40, 1 ] = W( 20, 2)
C4[ 80, 1 ] = W( 40, 2)