Graph structure

In July 2016, Cosmin Ionita and Pat Quillen of MathWorks used MATLAB to analyze the Math Genealogy Project graph. At the time, the genealogy graph contained 200,037 vertices. There were 7639 (3.8%) isolated vertices and 1962 components of size two (advisor-advisee pairs where we have no information about the advisor). The largest component of the genealogy graph contained 180,094 vertices, accounting for 90% of all vertices in the graph. The main component has 7323 root vertices (individuals with no advisor) and 137,155 leaves (mathematicians with no students), accounting for 76.2% of the vertices in this component. The next largest component sizes were 81, 50, 47, 34, 34, 33, 31, 31, and 30.

For historical comparisonn, we also have data from June 2010, when Professor David Joyner of the United States Naval Academy asked for data from our database to analyze it as a graph. At the time, the genealogy graph had 142,688 vertices. Of these, 7,190 were isolated vertices (5% of the total). The largest component had 121,424 vertices (85% of the total number). The next largest component had 128 vertices. The next largest component sizes were 79, 61, 45, and 42. The most frequent size of a nontrivial component was 2; there were 1937 components of size 2. The component with 121,424 vertices had 4,639 root verticies, i.e., mathematicians for whom the advisor is currently unknown.

Top 25 Advisors

NameStudents
C.-C. Jay Kuo176
Egbert Havinga143
Roger Meyer Temam130
Pekka Neittaanmäki130
Shlomo Noach (Stephen Ram) Sawilowsky111
Andrew Bernard Whinston109
Alexander Vasil'evich Mikhalëv101
Willi Jäger100
Ronold Wyeth Percival King100
Dimitris John Bertsimas97
Erol Gelenbe96
Leonard Salomon Ornstein95
Kurt Mehlhorn93
Bart De Moor91
Ludwig Prandtl90
Yurii Alekseevich Mitropolsky88
Wolfgang Karl Härdle85
Rudiger W. Dornbusch85
Andrei Nikolayevich Kolmogorov82
Olivier Jean Blanchard82
David Garvin Moursund82
Selim Grigorievich Krein82
Richard J. Eden81
Stefan Jähnichen81
Sergio Albeverio81

Expand to top 75 advisors

Most Descendants

NameDescendantsYear of Degree
Abu Abdallah Al-Husayn ibn Ibrahim al-Natili226234
Abu Sahl 'Isa ibn Yahya al-Masihi226234
Abu Mansur al-Hasan ibn Nuh al-Qumri226234
Abu ʿAli al-Husayn (Avicenna) ibn Sina226233
Bahmanyār ibn al-Marzubān226232
Ghiyāth al-Dīn Abū al-Fatḥ ʿUmar ibn Ibrāhīm al-Khayyām al-Nīsābūrī2262311068
Saraf al-Dīn Muhammad al-Masʿūdī al-Marwazī226230
Fakhr al-Dīn Muhammad al-Rēzī226228
Sharaf al-Dīn al-Ṭūsī226228
Qutb al-Dīn Ibrāhīm al-Mīṣrī2262271222
Kamāl al-Dīn Ibn Yūnus226227
Athīr al-Dīn al-Mufaḍḍal al-Abharī2262261264
Nasir al-Dīn al-Ṭūsī226225
Shams al‐Dīn al‐Bukhārī226222
Gregory Chioniadis2262211296
Manuel Bryennios2262201300
Theodore Metochites2262191315
Gregory Palamas2262161316
Nilos Kabasilas2262151363
Demetrios Kydones226214
Elissaeus Judaeus226189
Georgios Plethon Gemistos2261881380, 1393
Basilios Bessarion2261851436
Manuel Chrysoloras226176
Giovanni Conversini2261761363

Nonplanarity

The Mathematics Genealogy Project graph is nonplanar. Thanks to Professor Ezra Brown of Virginia Tech for assisting in finding the subdivision of K3,3 depicted below. The green vertices form one color class and the yellow ones form the other. Interestingly, Gauß is the only vertex that needs to be connected by paths with more than one edge.

K_{3,3} in the Genealogy graph

Frequency Counts

The table below indicates the values of number of students for mathematicians in our database along with the number of mathematicians having that many students.

Number of StudentsFrequency
0237163
132499
211902
36789
44725
53521
62712
72196
81804
91509
101201
111037
12896
13763
14663
15569
16519
17428
18350
19324
20296
21245
22241
23237
24179
25168
26156
28129
27126
2999
3088
3181
3269
3462
3361
3560
3658
3743
3937
3832
4231
4329
4528
4027
4127
4623
4422
5222
4919
5419
5115
5313
4812
5012
5512
5712
4711
5611
6010
648
688
587
617
596
696
706
726
635
655
734
754
824
623
663
713
793
813
742
762
772
782
852
1002
1302
671
801
881
901
911
931
951
961
971
1011
1091
1111
1431
1761