Current Betti Table Entry:
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(6,0,0) |
(13,1,0) |
(20,1,1) |
(26,3,1) |
(32,4,2) |
(38,4,4) |
(43,7,4) |
(48,9,5) |
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(110,70,50) |
(112,70,56) |
(113,76,57) |
(114,81,59) |
(115,85,62) |
(116,88,66) |
(117,90,71) |
(118,91,77) |
(119,91,84) |
(119,98,85) |
(119,104,87) |
(119,109,90) |
(119,113,94) |
(119,116,99) |
(119,118,105) |
(119,119,112) |
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\(\lambda=(119,119,112)\)
- Multiplicity: 1
- Dimension: 36
- Dominant: Yes
\(\textbf{a}=(119,112,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(116,118,116)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(117,116,117)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(118,114,118)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(118,113,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(119,119,112)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(115,119,116)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(116,117,117)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(117,115,118)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(117,114,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(116,116,118)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(119,118,113)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(115,118,117)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(116,115,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(115,117,118)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(118,119,113)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(119,117,114)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(114,119,117)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(115,116,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(114,118,118)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(119,116,115)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(118,118,114)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(114,117,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(113,119,118)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(119,115,116)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(118,117,115)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(117,119,114)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(113,118,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(118,116,116)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(117,118,115)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(119,114,117)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(112,119,119)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(116,119,115)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(117,117,116)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(118,115,117)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
\(\textbf{a}=(119,113,118)\)
- Multiplicity: 1
- Dimension: 1
- Error: 0
Below is a plot displaying the Schur decomposition. In the \(\lambda=(\lambda_0,\lambda_1)\) spot we place \(\beta_{42,\lambda}(2,6;8)\), the multiplicity of \(\textbf{S}_{\lambda}\) occuring in the decomposition of \(K_{42,1}(2,6;8)\). Here \(\lambda\) is the weight \((\lambda_0,\lambda_1,\lambda_2)\) where \(\lambda_2\) is determined by the fact that \(|\lambda|\) equals \(d(p+q)+b\). The dominant weights are displayed in green. Click on an entry for more info!
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1
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Below is a plot displaying the multigraded Betti numbers. In the \((a_0,a_1)\) spot we place \(\beta_{42,\textbf{a}}(2,6;8)\). Here \(\textbf{a}\) is the weight \((a_0,a_1,a_2)\) where \(a_2\) is determined by the fact that \(|\textbf{a}|\) equals \(d(p+q)+b\). Entries with error corrected via our Schur decomposition algorithm are in orange. Click on an entry for more info!
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| 1
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| 1
| 1
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| 1
| 1
| 1
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| 1
| 1
| 1
| 1
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| 1
| 1
| 1
| 1
| 1
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| 1
| 1
| 1
| 1
| 1
| 1
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| 1
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| 1
| 1
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| 1
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