C4graphGraphs related to C4[ 80, 6 ] = {4,4}_<12,8>

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On this page are all graphs related to C4[ 80, 6 ].

Graphs which this one covers

     10-fold cover of C4[ 8, 1 ] = K_4,4

     5-fold cover of C4[ 16, 2 ] = {4, 4}_ 4, 0

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

     2-fold cover of C4[ 40, 1 ] = W( 20, 2)

Graphs which cover this one

     2-fold covered by C4[ 160, 7 ] = {4, 4}_[ 20, 4]

     2-fold covered by C4[ 160, 24 ] = PL(MSY( 4, 20, 11, 0))

     2-fold covered by C4[ 160, 37 ] = KE_40(1,19,2,23,1)

     3-fold covered by C4[ 240, 9 ] = {4, 4}_< 16, 4>

     3-fold covered by C4[ 240, 12 ] = {4, 4}_< 32, 28>

     3-fold covered by C4[ 240, 17 ] = MPS( 20, 24; 5)

     3-fold covered by C4[ 240, 38 ] = PL(MSY( 6, 20, 11, 10))

     3-fold covered by C4[ 240, 65 ] = PL(MBr( 2, 60; 11))

     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, 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, 37 ] = PL(MSY( 4, 40, 11, 0))

     4-fold covered by C4[ 320, 38 ] = PL(MSY( 4, 40, 11, 20))

     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, 41 ] = PL(MSY( 4, 40, 9, 0))

     4-fold covered by C4[ 320, 42 ] = PL(MSY( 4, 40, 9, 20))

     4-fold covered by C4[ 320, 43 ] = PL(MSY( 8, 20, 11, 0))

     4-fold covered by C4[ 320, 46 ] = PL(MSY( 20, 8, 3, 0))

     4-fold covered by C4[ 320, 48 ] = MSY( 4, 80, 21, 4)

     4-fold covered by C4[ 320, 65 ] = PL(KE_40(5,1,10,9,5),[8^20,20^8])

     4-fold covered by C4[ 320, 98 ] = UG(ATD[320,88])

     4-fold covered by C4[ 320, 103 ] = UG(ATD[320,124])

     4-fold covered by C4[ 320, 105 ] = UG(ATD[320,128])

     4-fold covered by C4[ 320, 107 ] = UG(ATD[320,132])

     4-fold covered by C4[ 320, 109 ] = UG(ATD[320,136])

     4-fold covered by C4[ 320, 111 ] = UG(ATD[320,140])

     5-fold covered by C4[ 400, 10 ] = {4, 4}_< 52, 48>

     5-fold covered by C4[ 400, 16 ] = MPS( 20, 40; 3)

     5-fold covered by C4[ 400, 17 ] = MPS( 20, 40; 9)

     5-fold covered by C4[ 400, 49 ] = UG(ATD[400,21])

     5-fold covered by C4[ 400, 52 ] = UG(ATD[400,29])

     6-fold covered by C4[ 480, 8 ] = {4, 4}_[ 20, 12]

     6-fold covered by C4[ 480, 15 ] = {4, 4}_[ 60, 4]

     6-fold covered by C4[ 480, 22 ] = PS( 40, 24; 5)

     6-fold covered by C4[ 480, 61 ] = PL(MSY( 4, 60, 11, 0))

     6-fold covered by C4[ 480, 63 ] = PL(MSY( 4, 60, 29, 0))

     6-fold covered by C4[ 480, 65 ] = PL(MSY( 4, 60, 19, 0))

     6-fold covered by C4[ 480, 81 ] = PL(MSY( 12, 20, 11, 0))

     6-fold covered by C4[ 480, 83 ] = PL(MSY( 20, 12, 5, 0))

     6-fold covered by C4[ 480, 86 ] = MSY( 4,120, 61, 44)

     6-fold covered by C4[ 480, 116 ] = PL(LoPr_ 60( 3, 10, 6, 10, 3), [12^20, 20^12])

     6-fold covered by C4[ 480, 123 ] = PL(KE_60(3,13,6,53,3),[12^20,20^12])

     6-fold covered by C4[ 480, 190 ] = UG(ATD[480,228])

     6-fold covered by C4[ 480, 193 ] = UG(ATD[480,235])

     6-fold covered by C4[ 480, 194 ] = UG(ATD[480,238])

     6-fold covered by C4[ 480, 377 ] = BGCG({4, 4}_< 8, 2>, C_ 4, {3, 4})

BGCG dissections of this graph

     Base Graph: C4[ 20, 1 ] = W( 10, 2)   connection graph:  [K_2]

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

      C4[ 160, 32 ] = PL(MC3( 10, 8, 1, 5, 3, 0, 1), [4^20, 10^8])    with connection graph  [K_1]

      C4[ 160, 33 ] = PL(MC3( 10, 8, 1, 5, 3, 4, 1), [4^20, 20^4])    with connection graph  [K_1]

      C4[ 320, 8 ] = {4, 4}_< 24, 16>    with connection graph  [K_2]

      C4[ 320, 13 ] = MPS( 40, 16; 3)    with connection graph  [K_2]

      C4[ 320, 40 ] = PL(MSY( 4, 40, 19, 20))    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, 63 ] = PL(LoPr_ 40( 5, 4, 10, 4, 15), [8^20, 20^8])    with connection graph  [K_2]

      C4[ 320, 64 ] = PL(LoPr_ 40( 5, 8, 10, 8, 15), [8^20, 10^16])    with connection graph  [K_2]

      C4[ 320, 76 ] = PL(Curtain_40(1,20,17,18,38),[4^40,20^8])    with connection graph  [K_2]

      C4[ 320, 117 ] = UG(ATD[320,149])    with connection graph  [K_2]

      C4[ 320, 118 ] = UG(ATD[320,152])    with connection graph  [K_2]

      C4[ 320, 119 ] = UG(ATD[320,155])    with connection graph  [K_2]

      C4[ 320, 121 ] = UG(ATD[320,161])    with connection graph  [K_2]

      C4[ 480, 170 ] = UG(ATD[480,99])    with connection graph  [C_3]

      C4[ 480, 171 ] = UG(ATD[480,102])    with connection graph  [C_3]

      C4[ 480, 329 ] = XI(Rmap(240,49){15,6|6}_40)    with connection graph  [C_3]

      C4[ 480, 373 ] = BGCG(AMC( 3, 8, [ 5. 5: 5. 2]), C_ 5, 2)    with connection graph  [C_3]

Aut-Orbital graphs of this one:

      C4[ 16, 2 ] = {4, 4}_ 4, 0

      C4[ 20, 1 ] = W( 10, 2)

      C4[ 80, 6 ] = {4, 4}_< 12, 8>