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2020 – today
- 2024
[j17]François Charton, Kristin E. Lauter, Cathy Yuanchen Li, Mark Tygert:
An Efficient Algorithm for Integer Lattice Reduction. SIAM J. Matrix Anal. Appl. 45(1): 353-367 (2024)- [i25]Kamalika Chaudhuri, Chuan Guo, Laurens van der Maaten, Saeed Mahloujifar, Mark Tygert:
Guarantees of confidentiality via Hammersley-Chapman-Robbins bounds. CoRR abs/2404.02866 (2024) - 2023
- [j16]Mark Tygert:
Calibration of P-values for calibration and for deviation of a subpopulation from the full population. Adv. Comput. Math. 49(5): 70 (2023) - [i24]François Charton, Kristin E. Lauter, Cathy Yuanchen Li, Mark Tygert:
An efficient algorithm for integer lattice reduction. CoRR abs/2303.02226 (2023) - [i23]Isabel M. Kloumann, Hannah Korevaar, Chris McConnell, Mark Tygert, Jessica Zhao:
Cumulative differences between paired samples. CoRR abs/2305.11323 (2023) - 2022
- [j15]Aaron Defazio, Mark Tygert, Rachel A. Ward, Jure Zbontar:
Compressed sensing with a jackknife and a bootstrap. J. Data Sci. Stat. Vis. 2(4) (2022) - [j14]Imanol Arrieta Ibarra, Paman Gujral, Jonathan Tannen, Mark Tygert, Cherie Xu:
Metrics of Calibration for Probabilistic Predictions. J. Mach. Learn. Res. 23: 351:1-351:54 (2022) - [i22]Mark Tygert:
Calibration of P-values for calibration and for deviation of a subpopulation from the full population. CoRR abs/2202.00100 (2022) - [i21]Imanol Arrieta Ibarra, Paman Gujral, Jonathan Tannen, Mark Tygert, Cherie Xu:
Metrics of calibration for probabilistic predictions. CoRR abs/2205.09680 (2022) - 2021
- [j13]Mark Tygert
:
Cumulative deviation of a subpopulation from the full population. J. Big Data 8(1): 117 (2021) - [j12]Mark Tygert:
A graphical method of cumulative differences between two subpopulations. J. Big Data 8(1): 158 (2021) - [i20]Mark Tygert:
Cumulative differences between subpopulations. CoRR abs/2108.02666 (2021) - [i19]Mark Tygert:
Controlling for multiple covariates. CoRR abs/2112.00672 (2021) - 2020
- [i18]Chuan Guo, Awni Y. Hannun, Brian Knott, Laurens van der Maaten, Mark Tygert, Ruiyu Zhu:
Secure multiparty computations in floating-point arithmetic. CoRR abs/2001.03192 (2020) - [i17]Mark Tygert:
Plots of the cumulative differences between observed and expected values of ordered Bernoulli variates. CoRR abs/2006.02504 (2020) - [i16]Isabel M. Kloumann, Mark Tygert:
An optimizable scalar objective value cannot be objective and should not be the sole objective. CoRR abs/2006.02577 (2020) - [i15]Mark Tygert:
Plotting the cumulative deviation of a subgroup from the full population as a function of score. CoRR abs/2008.01779 (2020)
2010 – 2019
- 2018
- [j11]Huamin Li, Yuval Kluger, Mark Tygert:
Randomized algorithms for distributed computation of principal component analysis and singular value decomposition. Adv. Comput. Math. 44(5): 1651-1672 (2018) - [i14]Mark Tygert, Jure Zbontar:
Simulating single-coil MRI from the responses of multiple coils. CoRR abs/1811.08026 (2018) - 2017
- [j10]Arthur Szlam, Andrew Tulloch, Mark Tygert:
Accurate Low-Rank Approximations Via a Few Iterations of Alternating Least Squares. SIAM J. Matrix Anal. Appl. 38(2): 425-433 (2017) - [j9]Huamin Li, George C. Linderman, Arthur Szlam, Kelly P. Stanton, Yuval Kluger, Mark Tygert:
Algorithm 971: An Implementation of a Randomized Algorithm for Principal Component Analysis. ACM Trans. Math. Softw. 43(3): 28:1-28:14 (2017) - [i13]Cinna Wu, Mark Tygert, Yann LeCun:
Hierarchical loss for classification. CoRR abs/1709.01062 (2017) - [i12]Mark Tygert:
Regression-aware decompositions. CoRR abs/1710.04238 (2017) - 2016
- [j8]Mark Tygert, Joan Bruna, Soumith Chintala, Yann LeCun, Serkan Piantino, Arthur Szlam:
A Mathematical Motivation for Complex-Valued Convolutional Networks. Neural Comput. 28(5): 815-825 (2016) - [i11]Mark Tygert:
Poor starting points in machine learning. CoRR abs/1602.02823 (2016) - [i10]Arthur Szlam, Andrew Tulloch, Mark Tygert:
Accurate principal component analysis via a few iterations of alternating least squares. CoRR abs/1603.01765 (2016) - [i9]Huamin Li, Yuval Kluger, Mark Tygert:
Randomized algorithms for distributed computation of principal component analysis and singular value decomposition. CoRR abs/1612.08709 (2016) - 2015
- [i8]Joan Bruna, Soumith Chintala, Yann LeCun, Serkan Piantino, Arthur Szlam, Mark Tygert:
A theoretical argument for complex-valued convolutional networks. CoRR abs/1503.03438 (2015) - [i7]Soumith Chintala, Marc'Aurelio Ranzato, Arthur Szlam, Yuandong Tian, Mark Tygert, Wojciech Zaremba:
Scale-invariant learning and convolutional networks. CoRR abs/1506.08230 (2015) - 2014
- [i6]Arthur Szlam, Yuval Kluger, Mark Tygert:
An implementation of a randomized algorithm for principal component analysis. CoRR abs/1412.3510 (2014) - 2011
- [j7]William Perkins, Mark Tygert, Rachel A. Ward:
Computing the confidence levels for a root-mean-square test of goodness-of-fit. Appl. Math. Comput. 217(22): 9072-9084 (2011) - [j6]E. S. Coakley, Vladimir Rokhlin, Mark Tygert:
A Fast Randomized Algorithm for Orthogonal Projection. SIAM J. Sci. Comput. 33(2): 849-868 (2011) - [j5]Nathan Halko, Per-Gunnar Martinsson, Yoel Shkolnisky, Mark Tygert:
An Algorithm for the Principal Component Analysis of Large Data Sets. SIAM J. Sci. Comput. 33(5): 2580-2594 (2011) - 2010
- [j4]Mark Tygert:
Fast algorithms for spherical harmonic expansions, III. J. Comput. Phys. 229(18): 6181-6192 (2010) - [i5]Nathan Halko, Per-Gunnar Martinsson, Yoel Shkolnisky, Mark Tygert:
An algorithm for the principal component analysis of large data sets. CoRR abs/1007.5510 (2010)
2000 – 2009
- 2009
- [j3]Vladimir Rokhlin, Arthur Szlam, Mark Tygert:
A Randomized Algorithm for Principal Component Analysis. SIAM J. Matrix Anal. Appl. 31(3): 1100-1124 (2009) - [i4]Mark Tygert:
A fast algorithm for computing minimal-norm solutions to underdetermined systems of linear equations. CoRR abs/0905.4745 (2009) - [i3]Mark Tygert:
Fast algorithms for spherical harmonic expansions, III. CoRR abs/0910.5435 (2009) - [i2]Vladimir Rokhlin, Mark Tygert:
A fast randomized algorithm for orthogonal projection. CoRR abs/0912.1135 (2009) - 2008
- [j2]Mark Tygert:
Fast algorithms for spherical harmonic expansions, II. J. Comput. Phys. 227(8): 4260-4279 (2008) - 2006
- [j1]Vladimir Rokhlin, Mark Tygert:
Fast Algorithms for Spherical Harmonic Expansions. SIAM J. Sci. Comput. 27(6): 1903-1928 (2006) - [i1]Mark Tygert:
Recurrence relations and fast algorithms. CoRR abs/cs/0609081 (2006)
Coauthor Index
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last updated on 2024-10-04 20:00 CEST by the dblp team
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