RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to Wigner circle law. This is universal (does not depend on the…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to Wigner circle law. This is universal (does not depend on the…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to Wigner circle law. This is universal (does not depend on the…
RT @academath: 👍Anne Bauval's arXiv:1406.6809 is the first paper by a female mathematician that made it into top 7 @arXiv #math papers that…
Wow
@sl2c This is the the tweet that got me interested in this subject
RT @integrablesys: Top 3 #openaccess @arxiv #mathematicalphysics #preprints ever #trending on @Twitter after 11/25/17: https://t.co/DNGZWyR…
RT @integrablesys: Top 3 #openaccess @arxiv #mathematicalphysics #preprints ever #trending on @Twitter after 11/25/17: https://t.co/DNGZWyR…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to Wigner circle law. This is universal (does not depend on the…
RT @sigfpe: I think this and its variations are among the most interesting things I've learnt in mathematics in recent years. https://t.co/…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @BaselessPursuit: A great result for understanding echo state networks!
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT "Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I show example in Statistical Consequences of Fat Tails, but with Fat tails (free PDF). https://t.co/P91R3M7L6u https://t.co/7eI
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @genkuroki: #JuliaLang The animation above demonstrates the semicircle law of real symmetric random matrices. The circular law of rea…
RT @genkuroki: #JuliaLang The animation above demonstrates the semicircle law of real symmetric random matrices. The circular law of rea…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
RT @nntaleb: Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I…
Beware statements like "it does not depend on the law of the entries". Convergence is super-slow, only works at infinity. I show example in Statistical Consequences of Fat Tails, but with Fat tails (free PDF). https://t.co/kVmzyMu7m8
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
😱
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
A great result for understanding echo state networks!
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…
RT @Al_levity: Ça ne parlera pas aux non-matheux, mais ce théorème représente parfaitement la puissance de Terence Tao, un mathématicien gé…
RT @gabrielpeyre: Eigenvalues of random matrices with iid entries converge to the Wigner circle law. This is universal (does not depend on…