12a

0475

(K12a

0475

)

A knot diagram

Linearized knot diagam

3 6 11 9 2 10 5 12 7 1 8 4

Solving Sequence

8,12 4,9

5 1 7 11 3 2 10 6

, c

Ideals for irreducible components

of X

par

= h1.11285 × 10

886

164

− 3.44078 × 10

886

163

+ ··· + 2.18377 × 10

886

b − 6.10321 × 10

889

2.17789 × 10

889

164

− 6.46304 × 10

889

163

+ ··· + 5.77716 × 10

889

a − 9.99945 × 10

892

165

− 4u

164

+ ··· − 92466u + 5291i

= h1.21748 × 10

− 5.54627 × 10

+ ··· + 2.64218 × 10

b + 3.56406 × 10

1.91198 × 10

− 8.59389 × 10

+ ··· + 7.92654 × 10

a − 1.02616 × 10

, u

− 4u

+ ··· + u − 3i

= hb − a + 1, a

− 2a + 3, u + 1i

= h2b − 3a − 2, a

+ 2, u + 1i

= hb, a + 1, u − 1i

* 5 irreducible components of dim

= 0, with total 203 representations.

The image of knot diagram is generated by the software “Draw programme” developed by An-

drew Bartholomew(http://www.layer8.co.uk/maths/draw/index.htm#Running-draw), where we modi-

ﬁed some parts for our purpose(https://github.com/CATsTAILs/LinksPainter).

All coeﬃcients of polynomials are rational numbers. But the coeﬃcients are sometimes approximated

in decimal forms when there is not enough margin.

I. I

= h1.11 × 10

886

164

− 3.44 × 10

886

163

+ · · · + 2.18 × 10

886

b − 6.10 ×

889

, 2.18 × 10

889

164

− 6.46 × 10

889

163

+ · · · + 5.78 × 10

889

a − 1.00 ×

893

, u

165

− 4u

164

+ · · · − 92466u + 5291i

(i) Arc colorings











−0.376983u

164

+ 1.11872u

163

+ ··· − 28825.3u + 1730.86

−0.509600u

164

+ 1.57562u

163

+ ··· − 46058.6u + 2794.81









−0.245282u

164

+ 0.714234u

163

+ ··· − 16760.6u + 995.355

−0.396999u

164

+ 1.22308u

163

+ ··· − 35445.4u + 2147.63





−0.437933u

164

+ 1.40631u

163

+ ··· − 42794.0u + 2610.44

−0.302392u

164

+ 0.991408u

163

+ ··· − 31579.1u + 1932.62





0.196129u

164

− 0.649218u

163

+ ··· + 22352.2u − 1359.29

0.145758u

164

− 0.521515u

163

+ ··· + 20402.8u − 1262.91









−0.349509u

164

+ 0.998201u

163

+ ··· − 22723.8u + 1341.57

−0.482126u

164

+ 1.45509u

163

+ ··· − 39957.1u + 2405.52





−0.0587150u

164

+ 0.149057u

163

+ ··· − 794.726u + 25.6789

−0.0254560u

164

+ 0.118769u

163

+ ··· − 5333.39u + 339.046





0.0812809u

164

− 0.202180u

163

+ ··· + 1666.04u − 68.9146

0.180251u

164

− 0.493538u

163

+ ··· + 10195.9u − 586.870





−0.0206187u

164

+ 0.0815913u

163

+ ··· − 4604.61u + 297.410

−0.159919u

164

+ 0.467206u

163

+ ··· − 12375.5u + 739.339



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.660587u

164

− 1.95887u

163

+ ··· + 50154.9u − 3011.11

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

165

+ 73u

164

+ ··· + 5492581u + 346921

, c

165

+ 5u

164

+ ··· − 2107u + 589

2(2u

165

− 6u

164

+ ··· − 6475u + 1861)

2(2u

165

+ 4u

164

+ ··· − 1.28570 × 10

u − 1.40072 × 10

)

, c

165

+ 11u

164

+ ··· + 593536u + 54052

165

− 11u

164

+ ··· − 13275136u + 1499648

, c

165

+ 4u

164

+ ··· − 92466u − 5291

165

+ 18u

164

+ ··· − 1283584u − 111872

165

+ 16u

164

+ ··· + 1428492u + 35066

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

165

+ 47y

164

+ ··· + 929433493849y −120354180241

, c

165

− 73y

164

+ ··· + 5492581y −346921

4(4y

165

− 120y

164

+ ··· + 2.97286 × 10

y −3463321)

4(4y

165

− 228y

164

+ ··· + 1.18967 × 10

y −1.96202 × 10

)

, c

165

+ 125y

164

+ ··· + 44245013584y −2921618704

165

− 25y

164

+ ··· + 95755580735488y −2248944123904

, c

165

− 98y

164

+ ··· + 2317734584y −27994681

165

+ 16y

164

+ ··· − 906086514688y −12515344384

165

+ 50y

164

+ ··· + 436180962572y −1229624356

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.905625 + 0.395022I

a = −1.356160 − 0.178801I

b = −0.500288 + 0.541412I

1.76132 + 6.82155I 0

u = −0.905625 − 0.395022I

a = −1.356160 + 0.178801I

b = −0.500288 − 0.541412I

1.76132 − 6.82155I 0

u = 0.979945 + 0.253064I

a = 2.14093 − 0.15484I

b = 1.245890 + 0.373436I

−2.68322 − 10.66630I 0

u = 0.979945 − 0.253064I

a = 2.14093 + 0.15484I

b = 1.245890 − 0.373436I

−2.68322 + 10.66630I 0

u = −1.010130 + 0.104708I

a = 0.66284 − 1.49523I

b = −0.67789 − 2.01547I

−7.16497 + 2.22800I 0

u = −1.010130 − 0.104708I

a = 0.66284 + 1.49523I

b = −0.67789 + 2.01547I

−7.16497 − 2.22800I 0

u = −0.911483 + 0.450030I

a = 0.43769 − 1.68406I

b = 0.43601 − 1.82372I

−4.66672 − 1.50795I 0

u = −0.911483 − 0.450030I

a = 0.43769 + 1.68406I

b = 0.43601 + 1.82372I

−4.66672 + 1.50795I 0

u = 0.949136 + 0.247064I

a = −1.98722 + 0.29565I

b = −0.987252 − 0.036458I

−0.24597 − 4.87496I 0

u = 0.949136 − 0.247064I

a = −1.98722 − 0.29565I

b = −0.987252 + 0.036458I

−0.24597 + 4.87496I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.956326 + 0.354024I

a = 0.472835 + 0.991788I

b = 0.96915 + 2.16384I

0.39699 + 5.70050I 0

u = −0.956326 − 0.354024I

a = 0.472835 − 0.991788I

b = 0.96915 − 2.16384I

0.39699 − 5.70050I 0

u = 0.997397 + 0.222897I

a = 0.045810 − 0.837141I

b = 1.30671 − 2.18702I

0.02937 − 6.00270I 0

u = 0.997397 − 0.222897I

a = 0.045810 + 0.837141I

b = 1.30671 + 2.18702I

0.02937 + 6.00270I 0

u = 1.029100 + 0.039524I

a = −0.152827 − 0.504647I

b = 1.17849 − 2.45752I

−3.31303 + 0.23435I 0

u = 1.029100 − 0.039524I

a = −0.152827 + 0.504647I

b = 1.17849 + 2.45752I

−3.31303 − 0.23435I 0

u = 0.056114 + 0.961060I

a = 0.004362 + 0.793680I

b = 0.522822 − 0.084660I

0.53874 − 4.38609I 0

u = 0.056114 − 0.961060I

a = 0.004362 − 0.793680I

b = 0.522822 + 0.084660I

0.53874 + 4.38609I 0

u = 0.265842 + 0.916273I

a = 0.090527 + 0.910352I

b = 0.219918 − 0.118177I

0.1210590 − 0.0627933I 0

u = 0.265842 − 0.916273I

a = 0.090527 − 0.910352I

b = 0.219918 + 0.118177I

0.1210590 + 0.0627933I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.928790 + 0.214195I

a = −0.166509 + 0.819530I

b = −1.24767 + 2.01704I

1.59672 − 0.72836I 0

u = 0.928790 − 0.214195I

a = −0.166509 − 0.819530I

b = −1.24767 − 2.01704I

1.59672 + 0.72836I 0

u = 0.208224 + 0.928754I

a = −0.939974 − 0.108861I

b = 0.032619 − 0.688229I

−1.44989 − 2.06089I 0

u = 0.208224 − 0.928754I

a = −0.939974 + 0.108861I

b = 0.032619 + 0.688229I

−1.44989 + 2.06089I 0

u = 0.099343 + 0.945992I

a = 1.211790 − 0.585575I

b = 0.159309 + 0.050813I

−7.38673 + 5.98012I 0

u = 0.099343 − 0.945992I

a = 1.211790 + 0.585575I

b = 0.159309 − 0.050813I

−7.38673 − 5.98012I 0

u = −1.004120 + 0.343761I

a = −0.415362 − 0.862654I

b = −1.09118 − 2.32631I

−2.25182 + 11.57660I 0

u = −1.004120 − 0.343761I

a = −0.415362 + 0.862654I

b = −1.09118 + 2.32631I

−2.25182 − 11.57660I 0

u = −0.543395 + 0.919447I

a = −0.227727 + 0.555914I

b = −0.439377 − 0.320989I

0.479910 + 0.205738I 0

u = −0.543395 − 0.919447I

a = −0.227727 − 0.555914I

b = −0.439377 + 0.320989I

0.479910 − 0.205738I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.921973 + 0.064761I

a = −0.58718 + 1.64883I

b = 0.75741 + 1.83648I

−6.76898 − 1.45593I 0

u = −0.921973 − 0.064761I

a = −0.58718 − 1.64883I

b = 0.75741 − 1.83648I

−6.76898 + 1.45593I 0

u = 0.058757 + 1.081710I

a = −0.661431 − 0.299147I

b = 0.126078 − 0.124589I

−0.89907 − 2.39252I 0

u = 0.058757 − 1.081710I

a = −0.661431 + 0.299147I

b = 0.126078 + 0.124589I

−0.89907 + 2.39252I 0

u = 0.879166 + 0.214573I

a = 2.19850 − 1.13943I

b = 1.69238 − 1.06824I

−6.36992 − 1.10734I 0

u = 0.879166 − 0.214573I

a = 2.19850 + 1.13943I

b = 1.69238 + 1.06824I

−6.36992 + 1.10734I 0

u = 1.057980 + 0.337150I

a = 0.94946 − 1.39230I

b = 0.50194 − 2.07114I

−6.46535 − 0.46060I 0

u = 1.057980 − 0.337150I

a = 0.94946 + 1.39230I

b = 0.50194 + 2.07114I

−6.46535 + 0.46060I 0

u = 0.458763 + 1.011900I

a = 0.901403 + 0.412848I

b = −0.384411 + 0.936939I

−3.08963 − 6.66268I 0

u = 0.458763 − 1.011900I

a = 0.901403 − 0.412848I

b = −0.384411 − 0.936939I

−3.08963 + 6.66268I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.830270 + 0.293600I

a = −1.142810 − 0.693487I

b = −0.47384 − 1.88262I

−5.83699 + 1.41896I 0

u = −0.830270 − 0.293600I

a = −1.142810 + 0.693487I

b = −0.47384 + 1.88262I

−5.83699 − 1.41896I 0

u = −1.092040 + 0.250124I

a = −0.53036 − 1.35874I

b = −0.65812 − 2.06798I

−4.49963 + 0.97465I 0

u = −1.092040 − 0.250124I

a = −0.53036 + 1.35874I

b = −0.65812 + 2.06798I

−4.49963 − 0.97465I 0

u = 1.112570 + 0.146778I

a = 0.086327 + 0.326728I

b = −0.72273 + 1.56197I

−3.30358 + 0.53754I 0

u = 1.112570 − 0.146778I

a = 0.086327 − 0.326728I

b = −0.72273 − 1.56197I

−3.30358 − 0.53754I 0

u = −0.790955 + 0.377288I

a = 1.51363 + 0.25917I

b = 0.477732 − 0.416986I

3.18590 + 1.28226I 0

u = −0.790955 − 0.377288I

a = 1.51363 − 0.25917I

b = 0.477732 + 0.416986I

3.18590 − 1.28226I 0

u = 0.751764 + 0.835486I

a = 0.106249 − 0.125011I

b = 0.452743 − 0.287726I

−0.70273 − 1.40924I 0

u = 0.751764 − 0.835486I

a = 0.106249 + 0.125011I

b = 0.452743 + 0.287726I

−0.70273 + 1.40924I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.228998 + 1.105140I

a = −1.029760 + 0.398436I

b = −0.127356 − 0.341013I

−0.69256 + 8.20346I 0

u = 0.228998 − 1.105140I

a = −1.029760 − 0.398436I

b = −0.127356 + 0.341013I

−0.69256 − 8.20346I 0

u = −0.867320

a = −1.90161

b = −1.09360

−2.84073 0

u = 0.406558 + 0.763432I

a = −0.057417 − 1.060420I

b = −0.1342720 − 0.0332840I

0.00310 − 4.02060I 0

u = 0.406558 − 0.763432I

a = −0.057417 + 1.060420I

b = −0.1342720 + 0.0332840I

0.00310 + 4.02060I 0

u = −0.975283 + 0.581760I

a = −1.09940 + 1.14684I

b = −0.99216 + 1.59918I

−5.06065 + 5.72523I 0

u = −0.975283 − 0.581760I

a = −1.09940 − 1.14684I

b = −0.99216 − 1.59918I

−5.06065 − 5.72523I 0

u = −1.135730 + 0.035452I

a = 0.609597 − 1.261730I

b = −0.29117 − 2.00297I

−6.86660 − 2.87605I 0

u = −1.135730 − 0.035452I

a = 0.609597 + 1.261730I

b = −0.29117 + 2.00297I

−6.86660 + 2.87605I 0

u = −0.024095 + 0.861263I

a = 0.069793 − 0.747455I

b = −0.602458 − 0.116725I

0.940791 − 0.237333I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.024095 − 0.861263I

a = 0.069793 + 0.747455I

b = −0.602458 + 0.116725I

0.940791 + 0.237333I 0

u = −0.298727 + 1.120920I

a = 0.850074 + 0.284549I

b = −0.098946 − 0.430575I

3.31062 − 2.35546I 0

u = −0.298727 − 1.120920I

a = 0.850074 − 0.284549I

b = −0.098946 + 0.430575I

3.31062 + 2.35546I 0

u = −0.804266 + 0.838329I

a = 0.014358 − 0.556604I

b = 0.483803 + 0.156529I

−0.26591 + 6.01439I 0

u = −0.804266 − 0.838329I

a = 0.014358 + 0.556604I

b = 0.483803 − 0.156529I

−0.26591 − 6.01439I 0

u = −1.160280 + 0.071947I

a = −0.382685 − 1.121420I

b = 0.30068 − 1.66006I

−5.77557 − 1.21497I 0

u = −1.160280 − 0.071947I

a = −0.382685 + 1.121420I

b = 0.30068 + 1.66006I

−5.77557 + 1.21497I 0

u = 0.993491 + 0.613036I

a = −0.053013 + 0.207665I

b = −0.676586 + 0.767305I

−1.88344 − 5.23161I 0

u = 0.993491 − 0.613036I

a = −0.053013 − 0.207665I

b = −0.676586 − 0.767305I

−1.88344 + 5.23161I 0

u = 0.806218 + 0.186328I

a = −1.48357 − 0.17893I

b = 0.316977 − 0.132627I

2.03513 − 1.28246I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.806218 − 0.186328I

a = −1.48357 + 0.17893I

b = 0.316977 + 0.132627I

2.03513 + 1.28246I 0

u = 0.181258 + 1.161330I

a = 0.966257 − 0.450421I

b = 0.026849 + 0.353142I

−2.5882 + 14.0878I 0

u = 0.181258 − 1.161330I

a = 0.966257 + 0.450421I

b = 0.026849 − 0.353142I

−2.5882 − 14.0878I 0

u = −0.700839 + 0.404790I

a = 0.054640 + 1.215590I

b = 0.83768 + 1.41021I

3.40890 + 2.17216I 0

u = −0.700839 − 0.404790I

a = 0.054640 − 1.215590I

b = 0.83768 − 1.41021I

3.40890 − 2.17216I 0

u = 1.179340 + 0.215040I

a = 0.46961 − 1.83928I

b = 0.95078 − 2.41449I

−9.46194 − 1.63399I 0

u = 1.179340 − 0.215040I

a = 0.46961 + 1.83928I

b = 0.95078 + 2.41449I

−9.46194 + 1.63399I 0

u = 0.378157 + 0.688670I

a = −1.64772 + 0.16779I

b = −0.746451 − 0.075755I

−1.10643 + 3.08168I 0

u = 0.378157 − 0.688670I

a = −1.64772 − 0.16779I

b = −0.746451 + 0.075755I

−1.10643 − 3.08168I 0

u = 1.093150 + 0.546626I

a = −0.12095 + 1.69603I

b = −0.23509 + 2.34390I

−3.19196 − 7.84564I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.093150 − 0.546626I

a = −0.12095 − 1.69603I

b = −0.23509 − 2.34390I

−3.19196 + 7.84564I 0

u = −1.128490 + 0.473924I

a = 0.262969 + 1.304190I

b = 0.61424 + 2.02554I

−1.21383 + 5.54894I 0

u = −1.128490 − 0.473924I

a = 0.262969 − 1.304190I

b = 0.61424 − 2.02554I

−1.21383 − 5.54894I 0

u = −1.187050 + 0.303700I

a = 0.166697 + 0.629003I

b = −1.19563 + 1.36882I

−9.82340 + 2.80556I 0

u = −1.187050 − 0.303700I

a = 0.166697 − 0.629003I

b = −1.19563 − 1.36882I

−9.82340 − 2.80556I 0

u = 1.206120 + 0.279453I

a = 0.129864 − 0.613403I

b = −0.48678 − 1.33134I

−2.67844 − 1.25468I 0

u = 1.206120 − 0.279453I

a = 0.129864 + 0.613403I

b = −0.48678 + 1.33134I

−2.67844 + 1.25468I 0

u = −0.235723 + 1.225790I

a = −0.788767 − 0.267827I

b = 0.275627 + 0.396488I

2.18155 − 7.39945I 0

u = −0.235723 − 1.225790I

a = −0.788767 + 0.267827I

b = 0.275627 − 0.396488I

2.18155 + 7.39945I 0

u = 0.693656 + 0.262829I

a = −0.90550 + 1.22346I

b = −1.41372 + 1.35496I

0.48947 + 2.43883I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.693656 − 0.262829I

a = −0.90550 − 1.22346I

b = −1.41372 − 1.35496I

0.48947 − 2.43883I 0

u = −0.544656 + 0.493674I

a = 0.097345 − 1.142150I

b = −0.851814 − 1.055840I

2.71700 − 3.14847I 0

u = −0.544656 − 0.493674I

a = 0.097345 + 1.142150I

b = −0.851814 + 1.055840I

2.71700 + 3.14847I 0

u = 0.524400 + 0.509061I

a = 0.0780599 − 0.0652838I

b = −0.037059 − 0.599061I

−0.34407 − 1.50763I 0

u = 0.524400 − 0.509061I

a = 0.0780599 + 0.0652838I

b = −0.037059 + 0.599061I

−0.34407 + 1.50763I 0

u = −0.568060 + 0.445141I

a = 1.78884 + 0.51032I

b = 0.154856 + 0.268846I

1.52963 − 2.30175I 0

u = −0.568060 − 0.445141I

a = 1.78884 − 0.51032I

b = 0.154856 − 0.268846I

1.52963 + 2.30175I 0

u = 0.700651 + 0.160361I

a = 1.54258 + 0.48246I

b = −0.524967 + 0.276742I

1.02945 + 4.00940I 0

u = 0.700651 − 0.160361I

a = 1.54258 − 0.48246I

b = −0.524967 − 0.276742I

1.02945 − 4.00940I 0

u = 0.636411 + 0.301996I

a = 0.78301 − 1.66688I

b = 1.51335 − 1.31208I

−1.70707 + 8.11526I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.636411 − 0.301996I

a = 0.78301 + 1.66688I

b = 1.51335 + 1.31208I

−1.70707 − 8.11526I 0

u = −0.240820 + 0.645491I

a = 1.183670 + 0.756445I

b = 0.317700 − 0.173341I

1.34841 − 1.24787I 0

u = −0.240820 − 0.645491I

a = 1.183670 − 0.756445I

b = 0.317700 + 0.173341I

1.34841 + 1.24787I 0

u = 1.132990 + 0.663936I

a = 0.052868 − 0.824855I

b = 0.168209 − 1.017740I

−0.483633 − 1.323650I 0

u = 1.132990 − 0.663936I

a = 0.052868 + 0.824855I

b = 0.168209 + 1.017740I

−0.483633 + 1.323650I 0

u = −1.270030 + 0.401139I

a = −0.200188 − 0.700116I

b = 0.52677 − 1.46926I

−5.91221 + 6.44950I 0

u = −1.270030 − 0.401139I

a = −0.200188 + 0.700116I

b = 0.52677 + 1.46926I

−5.91221 − 6.44950I 0

u = 0.456706 + 1.252420I

a = −0.272067 + 0.021591I

b = −0.320455 − 0.282464I

1.92515 − 0.33419I 0

u = 0.456706 − 1.252420I

a = −0.272067 − 0.021591I

b = −0.320455 + 0.282464I

1.92515 + 0.33419I 0

u = −0.481239 + 0.443674I

a = −1.91723 − 0.63238I

b = 0.207789 − 0.246850I

−0.74504 − 8.24884I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.481239 − 0.443674I

a = −1.91723 + 0.63238I

b = 0.207789 + 0.246850I

−0.74504 + 8.24884I 0

u = 0.597895 + 1.211770I

a = 0.247324 − 0.057864I

b = 0.426965 + 0.245472I

1.42930 − 5.31281I 0

u = 0.597895 − 1.211770I

a = 0.247324 + 0.057864I

b = 0.426965 − 0.245472I

1.42930 + 5.31281I 0

u = 1.262320 + 0.537583I

a = 0.225099 − 1.289860I

b = 0.49930 − 2.31043I

−10.9205 − 11.3051I 0

u = 1.262320 − 0.537583I

a = 0.225099 + 1.289860I

b = 0.49930 + 2.31043I

−10.9205 + 11.3051I 0

u = 1.334510 + 0.345102I

a = −0.325108 + 1.156520I

b = −0.84351 + 1.82687I

−5.32783 − 4.17784I 0

u = 1.334510 − 0.345102I

a = −0.325108 − 1.156520I

b = −0.84351 − 1.82687I

−5.32783 + 4.17784I 0

u = −1.338460 + 0.347423I

a = 0.136708 + 0.724965I

b = −0.61757 + 1.93275I

−8.60928 + 10.86600I 0

u = −1.338460 − 0.347423I

a = 0.136708 − 0.724965I

b = −0.61757 − 1.93275I

−8.60928 − 10.86600I 0

u = −1.333190 + 0.416625I

a = −0.229017 + 0.749046I

b = −0.63725 + 1.41211I

−11.86490 − 1.14533I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.333190 − 0.416625I

a = −0.229017 − 0.749046I

b = −0.63725 − 1.41211I

−11.86490 + 1.14533I 0

u = −1.339290 + 0.409077I

a = −0.446188 − 1.009600I

b = −0.77439 − 1.83612I

−5.08147 + 8.17449I 0

u = −1.339290 − 0.409077I

a = −0.446188 + 1.009600I

b = −0.77439 + 1.83612I

−5.08147 − 8.17449I 0

u = 1.379320 + 0.244135I

a = 0.605847 − 1.133560I

b = 1.12506 − 1.81315I

−7.25376 − 8.97708I 0

u = 1.379320 − 0.244135I

a = 0.605847 + 1.133560I

b = 1.12506 + 1.81315I

−7.25376 + 8.97708I 0

u = 1.134530 + 0.828720I

a = 0.498053 + 0.830201I

b = −0.54111 + 1.86228I

−5.37571 − 1.93557I 0

u = 1.134530 − 0.828720I

a = 0.498053 − 0.830201I

b = −0.54111 − 1.86228I

−5.37571 + 1.93557I 0

u = 1.400010 + 0.144057I

a = −0.021464 + 0.519835I

b = 0.66538 + 1.67640I

−4.56498 + 2.42568I 0

u = 1.400010 − 0.144057I

a = −0.021464 − 0.519835I

b = 0.66538 − 1.67640I

−4.56498 − 2.42568I 0

u = −1.27506 + 0.61630I

a = 0.077120 + 1.078610I

b = 0.63547 + 2.09079I

0.13415 + 8.50566I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.27506 − 0.61630I

a = 0.077120 − 1.078610I

b = 0.63547 − 2.09079I

0.13415 − 8.50566I 0

u = −1.33545 + 0.49474I

a = −0.225704 − 0.940104I

b = −0.39277 − 1.92800I

−5.24644 + 7.82970I 0

u = −1.33545 − 0.49474I

a = −0.225704 + 0.940104I

b = −0.39277 + 1.92800I

−5.24644 − 7.82970I 0

u = 1.23878 + 0.70712I

a = −0.002016 + 0.772581I

b = −0.231001 + 1.123390I

−0.71231 − 6.59785I 0

u = 1.23878 − 0.70712I

a = −0.002016 − 0.772581I

b = −0.231001 − 1.123390I

−0.71231 + 6.59785I 0

u = 1.29198 + 0.61664I

a = −0.142721 + 1.223130I

b = −0.63621 + 2.19212I

−4.0482 − 14.3233I 0

u = 1.29198 − 0.61664I

a = −0.142721 − 1.223130I

b = −0.63621 − 2.19212I

−4.0482 + 14.3233I 0

u = 1.33560 + 0.52171I

a = 0.023588 + 0.909211I

b = −0.40425 + 1.75079I

−5.03338 − 3.62537I 0

u = 1.33560 − 0.52171I

a = 0.023588 − 0.909211I

b = −0.40425 − 1.75079I

−5.03338 + 3.62537I 0

u = −1.42498 + 0.24937I

a = −0.009391 − 0.653150I

b = 0.536101 − 1.279930I

−6.59876 − 3.33600I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.42498 − 0.24937I

a = −0.009391 + 0.653150I

b = 0.536101 + 1.279930I

−6.59876 + 3.33600I 0

u = 1.32524 + 0.61562I

a = 0.160684 − 1.194010I

b = 0.70657 − 2.23812I

−6.2109 − 20.3514I 0

u = 1.32524 − 0.61562I

a = 0.160684 + 1.194010I

b = 0.70657 + 2.23812I

−6.2109 + 20.3514I 0

u = −1.35644 + 0.55246I

a = −0.461141 − 0.719339I

b = −0.631924 − 0.916252I

−3.37369 + 5.53723I 0

u = −1.35644 − 0.55246I

a = −0.461141 + 0.719339I

b = −0.631924 + 0.916252I

−3.37369 − 5.53723I 0

u = −1.32336 + 0.62930I

a = −0.058732 − 1.029390I

b = −0.62725 − 2.16900I

−1.35406 + 13.86310I 0

u = −1.32336 − 0.62930I

a = −0.058732 + 1.029390I

b = −0.62725 + 2.16900I

−1.35406 − 13.86310I 0

u = −1.40974 + 0.46544I

a = 0.503773 + 0.879897I

b = 0.95714 + 1.49361I

−5.03934 + 5.09956I 0

u = −1.40974 − 0.46544I

a = 0.503773 − 0.879897I

b = 0.95714 − 1.49361I

−5.03934 − 5.09956I 0

u = 1.43389 + 0.43302I

a = 0.044166 + 0.666122I

b = 0.14385 + 1.80177I

−5.49120 − 3.48774I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.43389 − 0.43302I

a = 0.044166 − 0.666122I

b = 0.14385 − 1.80177I

−5.49120 + 3.48774I 0

u = −1.39933 + 0.54469I

a = 0.513245 + 0.765771I

b = 0.908658 + 1.020910I

−4.06854 + 9.91345I 0

u = −1.39933 − 0.54469I

a = 0.513245 − 0.765771I

b = 0.908658 − 1.020910I

−4.06854 − 9.91345I 0

u = −1.50697 + 0.29718I

a = −0.053090 + 0.558886I

b = −0.624099 + 1.235250I

−8.48499 − 8.60363I 0

u = −1.50697 − 0.29718I

a = −0.053090 − 0.558886I

b = −0.624099 − 1.235250I

−8.48499 + 8.60363I 0

u = 1.31621 + 0.83959I

a = −0.374237 − 0.753399I

b = 0.54149 − 2.04112I

−5.96749 − 5.61476I 0

u = 1.31621 − 0.83959I

a = −0.374237 + 0.753399I

b = 0.54149 + 2.04112I

−5.96749 + 5.61476I 0

u = 1.45421 + 0.66078I

a = −0.212720 − 0.729793I

b = 0.26029 − 2.08819I

−6.08327 − 0.39862I 0

u = 1.45421 − 0.66078I

a = −0.212720 + 0.729793I

b = 0.26029 + 2.08819I

−6.08327 + 0.39862I 0

u = 0.048848 + 0.338546I

a = 2.96021 − 0.83569I

b = 0.647852 − 0.516409I

−3.83566 − 2.38410I −7.99211 + 1.13563I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.048848 − 0.338546I

a = 2.96021 + 0.83569I

b = 0.647852 + 0.516409I

−3.83566 + 2.38410I −7.99211 − 1.13563I

u = 0.047552 + 0.299628I

a = 3.22360 − 1.59170I

b = 0.634220 + 0.910865I

−6.31817 − 0.20964I −6.24749 − 0.03407I

u = 0.047552 − 0.299628I

a = 3.22360 + 1.59170I

b = 0.634220 − 0.910865I

−6.31817 + 0.20964I −6.24749 + 0.03407I

u = 0.145659 + 0.039974I

a = 1.39406 − 4.08523I

b = −0.537045 + 0.152952I

−1.45636 + 0.53602I −7.55207 − 1.66695I

u = 0.145659 − 0.039974I

a = 1.39406 + 4.08523I

b = −0.537045 − 0.152952I

−1.45636 − 0.53602I −7.55207 + 1.66695I

II.

= h1.22 × 10

− 5.55 × 10

+ · · · + 2.64 × 10

b + 3.56 × 10

, 1.91 ×

−8.59×10

+· · ·+7.93×10

a−1.03×10

, u

−4u

+· · ·+u−3i

(i) Arc colorings











−2.41213u

+ 10.8419u

+ ··· − 15.6099u + 12.9459

−0.460785u

+ 2.09913u

+ ··· − 3.06645u − 1.34891









−2.96002u

+ 13.0321u

+ ··· − 20.9732u + 17.8750

−0.859758u

+ 3.54202u

+ ··· − 4.70879u − 1.35295





0.0948124u

− 0.269872u

+ ··· + 11.3494u − 0.591207

−0.163875u

+ 0.692395u

+ ··· + 10.9687u − 4.49871





1.45008u

− 5.80247u

+ ··· + 21.8634u − 3.85369

0.338457u

− 1.28192u

+ ··· + 13.3050u − 3.58065









−3.53497u

+ 15.3449u

+ ··· − 22.4013u + 15.7581

−1.58363u

+ 6.60215u

+ ··· − 9.85790u + 1.46335





−0.258759u

+ 1.25388u

+ ··· − 15.9577u + 9.66690

0.324108u

− 1.68500u

+ ··· + 3.43407u − 2.12726





−0.186204u

+ 0.863659u

+ ··· + 3.26805u − 3.13144

−0.504231u

+ 2.31629u

+ ··· − 10.3336u + 4.71325





−0.128862u

+ 0.912845u

+ ··· − 18.2018u + 12.4124

0.658876u

− 3.03628u

+ ··· + 4.30602u − 2.58234



(ii) Obstruction class = 1

(iii) Cusp Shapes =

38872874370703539084286568

264218019166409153515396703

−

859656896962605495783297375

264218019166409153515396703

··· −

5717214818683061704822913990

264218019166409153515396703

u +

2367461876678989709026258686

264218019166409153515396703

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 15u

+ ··· + 100u − 9

+ 5u

+ ··· − 10u − 3

+ 4u

+ ··· − 5u

+ 1

+ 3u

+ ··· + 3u + 1

− 5u

+ ··· − 10u + 3

+ 2u

+ ··· + 15u + 1

+ 3u

+ ··· + 3u + 1

− 4u

+ ··· + u − 3

− 2u

+ ··· + 15u − 1

+ u

+ ··· + 6u − 1

+ 4u

+ ··· + u + 3

− 2u

+ ··· + 2u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 9y

+ ··· − 2780y −81

, c

− 15y

+ ··· + 100y −9

− 22y

+ ··· + 16y

− 1

− 9y

+ ··· + 21y −1

, c

+ 30y

+ ··· + 37y −1

− 13y

+ ··· + 3y −1

, c

− 16y

+ ··· + 187y −9

− 7y

+ ··· + 14y −1

− 2y

+ ··· + 8y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.951920 + 0.267560I

a = 1.67013 + 1.18431I

b = 1.37775 + 1.75730I

−6.86829 + 1.07142I −20.1631 − 4.0732I

u = −0.951920 − 0.267560I

a = 1.67013 − 1.18431I

b = 1.37775 − 1.75730I

−6.86829 − 1.07142I −20.1631 + 4.0732I

u = 1.03049

a = −0.338521

b = 2.02368

−3.20545 −39.6230

u = 0.590982 + 0.913740I

a = 0.330747 + 0.251972I

b = −0.0786731 + 0.0451711I

−1.10486 − 1.44157I −14.8210 − 0.4937I

u = 0.590982 − 0.913740I

a = 0.330747 − 0.251972I

b = −0.0786731 − 0.0451711I

−1.10486 + 1.44157I −14.8210 + 0.4937I

u = −0.066897 + 0.865994I

a = −0.544859 − 0.677902I

b = −0.437008 + 0.025007I

0.37221 − 2.19374I −0.52813 + 3.92890I

u = −0.066897 − 0.865994I

a = −0.544859 + 0.677902I

b = −0.437008 − 0.025007I

0.37221 + 2.19374I −0.52813 − 3.92890I

u = 0.699179 + 0.438480I

a = −0.576232 + 0.502954I

b = 0.389323 − 0.779167I

1.44296 − 5.39228I 0.02953 + 4.79292I

u = 0.699179 − 0.438480I

a = −0.576232 − 0.502954I

b = 0.389323 + 0.779167I

1.44296 + 5.39228I 0.02953 − 4.79292I

u = 1.117210 + 0.386758I

a = −0.028628 + 1.150650I

b = −0.15124 + 2.19874I

−4.96180 + 0.27487I −8.02110 − 0.43238I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.117210 − 0.386758I

a = −0.028628 − 1.150650I

b = −0.15124 − 2.19874I

−4.96180 − 0.27487I −8.02110 + 0.43238I

u = 0.552322 + 1.097360I

a = 0.125953 + 0.399942I

b = 0.023146 − 0.264388I

1.46437 − 5.82553I 0.20649 + 11.70510I

u = 0.552322 − 1.097360I

a = 0.125953 − 0.399942I

b = 0.023146 + 0.264388I

1.46437 + 5.82553I 0.20649 − 11.70510I

u = 1.027510 + 0.677835I

a = −0.612418 − 1.019350I

b = 0.01657 − 1.56407I

−4.12872 − 5.35259I −5.60711 + 5.87653I

u = 1.027510 − 0.677835I

a = −0.612418 + 1.019350I

b = 0.01657 + 1.56407I

−4.12872 + 5.35259I −5.60711 − 5.87653I

u = 0.446504 + 1.189630I

a = −0.148777 − 0.358296I

b = −0.115933 + 0.215929I

2.07399 − 0.77091I 3.97606 + 7.56423I

u = 0.446504 − 1.189630I

a = −0.148777 + 0.358296I

b = −0.115933 − 0.215929I

2.07399 + 0.77091I 3.97606 − 7.56423I

u = −1.168620 + 0.558886I

a = −0.231988 − 1.254930I

b = −0.36074 − 1.72850I

−2.83894 + 7.23780I −3.51469 − 4.75057I

u = −1.168620 − 0.558886I

a = −0.231988 + 1.254930I

b = −0.36074 + 1.72850I

−2.83894 − 7.23780I −3.51469 + 4.75057I

u = −0.587888 + 0.093397I

a = 2.29073 + 0.06793I

b = 0.94833 − 1.24038I

−1.91860 + 9.33689I −5.37527 − 7.64774I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.587888 − 0.093397I

a = 2.29073 − 0.06793I

b = 0.94833 + 1.24038I

−1.91860 − 9.33689I −5.37527 + 7.64774I

u = −1.379590 + 0.294264I

a = 0.688600 + 0.701993I

b = 0.90335 + 1.41420I

−5.81113 + 10.16790I −7.95638 − 10.39476I

u = −1.379590 − 0.294264I

a = 0.688600 − 0.701993I

b = 0.90335 − 1.41420I

−5.81113 − 10.16790I −7.95638 + 10.39476I

u = 0.507519 + 0.255748I

a = 1.140050 − 0.668907I

b = −0.351570 + 0.921325I

2.66064 + 0.12553I 2.32675 − 1.13693I

u = 0.507519 − 0.255748I

a = 1.140050 + 0.668907I

b = −0.351570 − 0.921325I

2.66064 − 0.12553I 2.32675 + 1.13693I

u = 1.28142 + 0.70891I

a = −0.305040 − 0.880940I

b = 0.60041 − 1.88902I

−5.57137 − 1.51328I −11.50954 − 3.42023I

u = 1.28142 − 0.70891I

a = −0.305040 + 0.880940I

b = 0.60041 + 1.88902I

−5.57137 + 1.51328I −11.50954 + 3.42023I

u = 1.32834 + 0.62223I

a = 0.236937 + 0.902141I

b = −0.54809 + 2.07432I

−5.85762 − 5.11082I −8.90745 + 1.76499I

u = 1.32834 − 0.62223I

a = 0.236937 − 0.902141I

b = −0.54809 − 2.07432I

−5.85762 + 5.11082I −8.90745 − 1.76499I

u = −1.43382 + 0.44753I

a = −0.459251 − 0.720191I

b = −0.71490 − 1.31211I

−4.17280 + 6.18688I −5.84605 − 7.89576I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.43382 − 0.44753I

a = −0.459251 + 0.720191I

b = −0.71490 + 1.31211I

−4.17280 − 6.18688I −5.84605 + 7.89576I

u = −0.477510 + 0.101539I

a = −2.74002 − 0.51117I

b = −1.012570 − 0.966942I

0.63416 − 3.37754I −1.47753 + 6.20472I

u = −0.477510 − 0.101539I

a = −2.74002 + 0.51117I

b = −1.012570 + 0.966942I

0.63416 + 3.37754I −1.47753 − 6.20472I

III. I

= hb − a + 1, a

− 2a + 3, u + 1i

(i) Arc colorings







−1





a − 1









a + 1





−2a + 3

−a + 2





−3a + 4

−2a + 3





−1





a + 1





−a + 4





−a − 4

−a − 2





2a − 3

a − 2



(ii) Obstruction class = 1

(iii) Cusp Shapes = −12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

, c

+ 2

, c

− 2u + 3

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

(y + 2)

, c

+ 2y + 9

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.00000

a = 1.00000 + 1.41421I

b = 1.414210I

−8.22467 −12.0000

u = −1.00000

a = 1.00000 − 1.41421I

b = − 1.414210I

−8.22467 −12.0000

IV. I

= h2b − 3a − 2, a

+ 2, u + 1i

(i) Arc colorings







−1





a + 1









a − 1





−a + 2





a + 2





−1





a − 1





a + 1





2a − 1

2a + 1





−2

a − 2



(ii) Obstruction class = 1

(iii) Cusp Shapes = −12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

2(2u

− 4u + 3)

2(2u

+ 4u + 3)

, c

(u + 1)

, c

+ 2

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

4(4y

− 4y + 9)

, c

(y + 2)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.00000

a = 1.414210I

b = 1.00000 + 2.12132I

−8.22467 −12.0000

u = −1.00000

a = − 1.414210I

b = 1.00000 − 2.12132I

−8.22467 −12.0000

V. I

= hb, a + 1, u − 1i

(i) Arc colorings











−1









−2

−1









−1









−2

−1





−1









−1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

u − 1

, c

u + 1

, c

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

y −1

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = −1.00000

b = 0

−3.28987 −12.0000

VI. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

− 15u

+ ··· + 100u − 9)

· (u

165

+ 73u

164

+ ··· + 5492581u + 346921)

((u − 1)

)(u

+ 5u

+ ··· − 10u − 3)(u

165

+ 5u

164

+ ··· − 2107u + 589)

4(u + 1)

(2u

− 4u + 3)(u

+ 4u

+ ··· − 5u

+ 1)

· (2u

165

− 6u

164

+ ··· − 6475u + 1861)

4(u − 1)

(u + 1)(2u

+ 4u + 3)(u

+ 3u

+ ··· + 3u + 1)

· (2u

165

+ 4u

164

+ ··· − 128570378u − 140071969)

((u + 1)

)(u

− 5u

+ ··· − 10u + 3)(u

165

+ 5u

164

+ ··· − 2107u + 589)

u(u

+ 2)

+ 2u

+ ··· + 15u + 1)

· (u

165

+ 11u

164

+ ··· + 593536u + 54052)

(u + 1)(u

+ 2)(u

− 2u + 3)(u

+ 3u

+ ··· + 3u + 1)

· (u

165

− 11u

164

+ ··· − 13275136u + 1499648)

(u − 1)(u + 1)

− 4u

+ ··· + u − 3)

· (u

165

+ 4u

164

+ ··· − 92466u − 5291)

u(u

+ 2)

− 2u

+ ··· + 15u − 1)

· (u

165

+ 11u

164

+ ··· + 593536u + 54052)

u(u

+ 2)

+ u

+ ··· + 6u − 1)

· (u

165

+ 18u

164

+ ··· − 1283584u − 111872)

((u − 1)

)(u + 1)(u

+ 4u

+ ··· + u + 3)

· (u

165

+ 4u

164

+ ··· − 92466u − 5291)

(u − 1)(u

+ 2)(u

− 2u + 3)(u

− 2u

+ ··· + 2u − 1)

· (u

165

+ 16u

164

+ ··· + 1428492u + 35066)

VII. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y −1)

)(y

+ 9y

+ ··· − 2780y −81)

· (y

165

+ 47y

164

+ ··· + 929433493849y −120354180241)

, c

((y −1)

)(y

− 15y

+ ··· + 100y −9)

· (y

165

− 73y

164

+ ··· + 5492581y −346921)

16(y −1)

(4y

− 4y + 9)(y

− 22y

+ ··· + 16y

− 1)

· (4y

165

− 120y

164

+ ··· + 29728631y −3463321)

16(y −1)

(4y

− 4y + 9)(y

− 9y

+ ··· + 21y −1)

· (4y

165

− 228y

164

+ ··· + 1.19 × 10

y −1.96 × 10

)

, c

y(y + 2)

+ 30y

+ ··· + 37y −1)

· (y

165

+ 125y

164

+ ··· + 44245013584y −2921618704)

(y −1)(y + 2)

+ 2y + 9)(y

− 13y

+ ··· + 3y −1)

· (y

165

− 25y

164

+ ··· + 95755580735488y −2248944123904)

, c

((y −1)

)(y

− 16y

+ ··· + 187y −9)

· (y

165

− 98y

164

+ ··· + 2317734584y −27994681)

y(y + 2)

− 7y

+ ··· + 14y −1)

· (y

165

+ 16y

164

+ ··· − 906086514688y −12515344384)

(y −1)(y + 2)

+ 2y + 9)(y

− 2y

+ ··· + 8y −1)

· (y

165

+ 50y

164

+ ··· + 436180962572y −1229624356)