On the symmetrized arithmetic-geometric mean inequality for opertors

Abstract: We study the symmetrized noncommutative arithmetic geometric mean inequality introduced(AGM) by Recht and R\'{e} $$ |\frac{(n-d)!}{n!}\sum\limits_{{ j_1,...,j_d \mbox{ different}} }A_{j_{1}}^A_{j_{2}}^...A_{j_{d}}^*A_{j_{d}}...A_{j_{2}}A_{j_{1}} | \leq C(d,n) |\frac{1}{n} \sum_{j=1}^n A_j^*A_j|^d.$$ Complementing the results from Recht and R\'{e}, we find upper bounds for C(d,n) under additional assumptions. Moreover, using free probability, we show that $C(d, n) > 1$, thereby disproving the most optimistic conjecture from Recht and R\'{e}.We also prove a deviation result for the symmetrized-AGM inequality which shows that the symmetric inequality almost holds for many classes of random matrices. Finally we apply our results to the incremental gradient method(IGM).