Alert button
Picture for Xinyuan Huang

Xinyuan Huang

Alert button

Independent SE(3)-Equivariant Models for End-to-End Rigid Protein Docking

Nov 15, 2021
Octavian-Eugen Ganea, Xinyuan Huang, Charlotte Bunne, Yatao Bian, Regina Barzilay, Tommi Jaakkola, Andreas Krause

Figure 1 for Independent SE(3)-Equivariant Models for End-to-End Rigid Protein Docking
Figure 2 for Independent SE(3)-Equivariant Models for End-to-End Rigid Protein Docking
Figure 3 for Independent SE(3)-Equivariant Models for End-to-End Rigid Protein Docking
Figure 4 for Independent SE(3)-Equivariant Models for End-to-End Rigid Protein Docking
Viaarxiv icon

MedPerf: Open Benchmarking Platform for Medical Artificial Intelligence using Federated Evaluation

Oct 08, 2021
Alexandros Karargyris, Renato Umeton, Micah J. Sheller, Alejandro Aristizabal, Johnu George, Srini Bala, Daniel J. Beutel, Victor Bittorf, Akshay Chaudhari, Alexander Chowdhury, Cody Coleman, Bala Desinghu, Gregory Diamos, Debo Dutta, Diane Feddema, Grigori Fursin, Junyi Guo, Xinyuan Huang, David Kanter, Satyananda Kashyap, Nicholas Lane, Indranil Mallick, Pietro Mascagni, Virendra Mehta, Vivek Natarajan, Nikola Nikolov, Nicolas Padoy, Gennady Pekhimenko, Vijay Janapa Reddi, G Anthony Reina, Pablo Ribalta, Jacob Rosenthal, Abhishek Singh, Jayaraman J. Thiagarajan, Anna Wuest, Maria Xenochristou, Daguang Xu, Poonam Yadav, Michael Rosenthal, Massimo Loda, Jason M. Johnson, Peter Mattson

Figure 1 for MedPerf: Open Benchmarking Platform for Medical Artificial Intelligence using Federated Evaluation
Figure 2 for MedPerf: Open Benchmarking Platform for Medical Artificial Intelligence using Federated Evaluation
Figure 3 for MedPerf: Open Benchmarking Platform for Medical Artificial Intelligence using Federated Evaluation
Figure 4 for MedPerf: Open Benchmarking Platform for Medical Artificial Intelligence using Federated Evaluation
Viaarxiv icon

Benchmarking TinyML Systems: Challenges and Direction

Mar 10, 2020
Colby R. Banbury, Vijay Janapa Reddi, Max Lam, William Fu, Amin Fazel, Jeremy Holleman, Xinyuan Huang, Robert Hurtado, David Kanter, Anton Lokhmotov, David Patterson, Danilo Pau, Jae-sun Seo, Jeff Sieracki, Urmish Thakker, Marian Verhelst, Poonam Yadav

Figure 1 for Benchmarking TinyML Systems: Challenges and Direction
Figure 2 for Benchmarking TinyML Systems: Challenges and Direction
Figure 3 for Benchmarking TinyML Systems: Challenges and Direction
Viaarxiv icon

MLPerf Training Benchmark

Oct 30, 2019
Peter Mattson, Christine Cheng, Cody Coleman, Greg Diamos, Paulius Micikevicius, David Patterson, Hanlin Tang, Gu-Yeon Wei, Peter Bailis, Victor Bittorf, David Brooks, Dehao Chen, Debojyoti Dutta, Udit Gupta, Kim Hazelwood, Andrew Hock, Xinyuan Huang, Bill Jia, Daniel Kang, David Kanter, Naveen Kumar, Jeffery Liao, Guokai Ma, Deepak Narayanan, Tayo Oguntebi, Gennady Pekhimenko, Lillian Pentecost, Vijay Janapa Reddi, Taylor Robie, Tom St. John, Carole-Jean Wu, Lingjie Xu, Cliff Young, Matei Zaharia

Figure 1 for MLPerf Training Benchmark
Figure 2 for MLPerf Training Benchmark
Figure 3 for MLPerf Training Benchmark
Figure 4 for MLPerf Training Benchmark
Viaarxiv icon