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On this page are all graphs related to C4[ 40, 7 ].

Graphs which this one covers

     2-fold cover of C4[ 20, 1 ] = W( 10, 2)

Graphs which cover this one

     2-fold covered by C4[ 80, 13 ] = PX( 10, 3)

     2-fold covered by C4[ 80, 27 ] = SDD(R_ 10( 7, 6))

     3-fold covered by C4[ 120, 33 ] = PL(BC_30({ 0, 15 }, { 1, 26 })

     4-fold covered by C4[ 160, 23 ] = PX( 10, 4)

     4-fold covered by C4[ 160, 38 ] = KE_40(1,19,12,23,9)

     4-fold covered by C4[ 160, 39 ] = KE_40(1,21,8,17,11)

     4-fold covered by C4[ 160, 42 ] = PL(Curtain_20(1,10,1,7,17),[4^20,4^20])

     4-fold covered by C4[ 160, 44 ] = PL(Curtain_20(1,10,7,11,17),[4^20,8^10])

     4-fold covered by C4[ 160, 53 ] = UG(ATD[160,66])

     4-fold covered by C4[ 160, 59 ] = SDD(PX( 5, 3))

     4-fold covered by C4[ 160, 71 ] = BGCG(KE_20(1,9,7,13,4); K1;2)

     5-fold covered by C4[ 200, 31 ] = BGCG(W( 10, 2), C_ 5, 3)

     6-fold covered by C4[ 240, 60 ] = PL(Curtain_30(1,5,1,12,17),[4^30,12^10])

     6-fold covered by C4[ 240, 61 ] = PL(Curtain_30(1,11,4,14,30),[4^30,6^20])

     7-fold covered by C4[ 280, 26 ] = PL(BC_70({ 0, 35 }, { 1, 6 })

     8-fold covered by C4[ 320, 36 ] = PX( 10, 5)

     8-fold covered by C4[ 320, 123 ] = UG(ATD[320,166])

     8-fold covered by C4[ 320, 124 ] = UG(ATD[320,168])

     8-fold covered by C4[ 320, 125 ] = UG(ATD[320,171])

     8-fold covered by C4[ 320, 126 ] = UG(ATD[320,174])

     8-fold covered by C4[ 320, 127 ] = UG(ATD[320,176])

     8-fold covered by C4[ 320, 128 ] = UG(ATD[320,179])

     8-fold covered by C4[ 320, 129 ] = UG(ATD[320,181])

     8-fold covered by C4[ 320, 130 ] = UG(ATD[320,183])

     8-fold covered by C4[ 320, 131 ] = UG(ATD[320,185])

     8-fold covered by C4[ 320, 132 ] = UG(ATD[320,187])

     8-fold covered by C4[ 320, 133 ] = UG(ATD[320,188])

     8-fold covered by C4[ 320, 140 ] = UG(ATD[320,199])

     8-fold covered by C4[ 320, 147 ] = PL(ATD[10,2]#ATD[40,12])

     8-fold covered by C4[ 320, 148 ] = SDD(PX( 5, 4))

     8-fold covered by C4[ 320, 149 ] = SDD(KE_20(1,9,7,13,4))

     8-fold covered by C4[ 320, 155 ] = HC(Rmap(80,5){5,5|10}_8)

     8-fold covered by C4[ 320, 156 ] = HC(Rmap(80,59){8,5|8}_10)

     8-fold covered by C4[ 320, 162 ] = PL(CS(PX( 5, 3)[ 4^ 20], 1))

     8-fold covered by C4[ 320, 163 ] = PL(CS(PX( 5, 3)[ 5^ 16], 0))

     8-fold covered by C4[ 320, 164 ] = PL(CS(PX( 5, 3)[ 5^ 16], 1))

     8-fold covered by C4[ 320, 173 ] = SDD(KE_20(1,11,3,7,6))

     8-fold covered by C4[ 320, 174 ] = BGCG(KE_20(1,11,3,7,6); K2;{2, 3})

     8-fold covered by C4[ 320, 175 ] = SDD(UG(ATD[80,24]))

     8-fold covered by C4[ 320, 181 ] = BGCG(KE_40(1,19,12,23,9); K1;{4, 6})

     8-fold covered by C4[ 320, 182 ] = BGCG(KE_40(1,19,12,23,9); K1;{8, 9})

     8-fold covered by C4[ 320, 183 ] = BGCG(KE_40(1,19,12,23,9); K1;{10, 11})

     8-fold covered by C4[ 320, 185 ] = BGCG(KE_40(1,21,8,17,11); K1;{10, 11})

     8-fold covered by C4[ 320, 186 ] = BGCG(KE_40(1,21,8,17,11); K1;{12, 13})

     8-fold covered by C4[ 320, 194 ] = BGCG(UG(ATD[160,68]); K1;1)

     8-fold covered by C4[ 320, 195 ] = BGCG(UG(ATD[160,68]); K1;6)

     8-fold covered by C4[ 320, 196 ] = BGCG(UG(ATD[160,70]); K1;3)

     9-fold covered by C4[ 360, 50 ] = PL(MC3( 6, 30, 1, 16, 19, 25, 1), [4^45, 36^5])

     10-fold covered by C4[ 400, 67 ] = PL(ATD[20,4]#DCyc[5])

     11-fold covered by C4[ 440, 41 ] = PL(BC_110({ 0, 55 }, { 1, 76 })

     12-fold covered by C4[ 480, 166 ] = UG(ATD[480,89])

     12-fold covered by C4[ 480, 227 ] = UG(ATD[480,340])

     12-fold covered by C4[ 480, 228 ] = UG(ATD[480,341])

     12-fold covered by C4[ 480, 235 ] = UG(ATD[480,354])

     12-fold covered by C4[ 480, 301 ] = PL(ATD[15,2]#ATD[40,12])

     12-fold covered by C4[ 480, 345 ] = XI(Rmap(240,344){12,10|4}_15)

     12-fold covered by C4[ 480, 429 ] = BGCG(PX( 10, 3), C_ 3, {2, 4})

     12-fold covered by C4[ 480, 430 ] = BGCG(PX( 5, 4), C_ 3, {1, 4})

     12-fold covered by C4[ 480, 460 ] = BGCG(KE_60(1,29,17,33,14); K1;3)

BGCG dissections of this graph

     Base Graph: C4[ 10, 1 ] = W( 5, 2)   connection graph:  [K_2]

     Base Graph: C4[ 20, 1 ] = W( 10, 2)   connection graph:  [K_1]

     Base Graph: C4[ 20, 3 ] = R_ 10( 7, 6)   connection graph:  [K_1]

Graphs which have this one as the base graph in a BGCG dissection:

      C4[ 80, 13 ] = PX( 10, 3)    with connection graph  [K_1]

      C4[ 160, 85 ] = SS[160, 31]    with connection graph  [K_2]

      C4[ 160, 86 ] = SS[160, 32]    with connection graph  [K_2]

      C4[ 240, 60 ] = PL(Curtain_30(1,5,1,12,17),[4^30,12^10])    with connection graph  [C_3]

      C4[ 240, 61 ] = PL(Curtain_30(1,11,4,14,30),[4^30,6^20])    with connection graph  [C_3]

      C4[ 320, 68 ] = PL(Curtain_40(1,10,1,12,22),[4^40,8^20])    with connection graph  [C_4]

      C4[ 320, 219 ] = SS[320, 31]    with connection graph  [C_4]

      C4[ 320, 221 ] = SS[320, 33]    with connection graph  [C_4]

      C4[ 400, 67 ] = PL(ATD[20,4]#DCyc[5])    with connection graph  [C_5]

      C4[ 480, 126 ] = PL(Curtain_60(1,11,19,29,60),[4^60,12^20])    with connection graph  [C_6]

      C4[ 480, 131 ] = PL(Curtain_60(1,20,1,12,32),[4^60,6^40])    with connection graph  [C_6]

      C4[ 480, 396 ] = BGCG(UG(ATD[60,16]), C_ 4, {1, 4})    with connection graph  [K_6]

      C4[ 480, 482 ] = BGCG(UG(ATD[240,130]); K1;4)    with connection graph  [C_6]

      C4[ 480, 482 ] = BGCG(UG(ATD[240,130]); K1;4)    with connection graph  [K_6]

      C4[ 480, 547 ] = SS[480, 29]    with connection graph  [K_6]

      C4[ 480, 548 ] = SS[480, 30]    with connection graph  [C_6]

      C4[ 480, 548 ] = SS[480, 30]    with connection graph  [K_6]

      C4[ 480, 552 ] = SS[480, 35]    with connection graph  [K_6]

Aut-Orbital graphs of this one:

      C4[ 8, 1 ] = K_4,4

      C4[ 40, 7 ] = R_ 20( 12, 11)