We prove that for every 3-player (3-prover) game $\mathcal G$ with value less than one, whose query distribution has the support $\mathcal S = \{(1,0,0), (0,1,0), (0,0,1)\}$ of hamming weight one vectors, the value of the $n$-fold parallel repetition $\mathcal G^{\otimes n}$ decays polynomially fast to zero; that is, there is a constant $c = c(\mathcal G)>0$ such that the value of the game $\mathcal G^{\otimes n}$ is at most $n^{-c}$. Following the recent work of Girish, Holmgren, Mittal, Raz and Zhan (STOC 2022), our result is the missing piece that implies a similar bound for a much more general class of multiplayer games: For $\textbf{every}$ 3-player game $\mathcal G$ over $\textit{binary questions}$ and $\textit{arbitrary answer lengths}$, with value less than 1, there is a constant $c = c(\mathcal G)>0$ such that the value of the game $\mathcal G^{\otimes n}$ is at most $n^{-c}$. Our proof technique is new and requires many new ideas. For example, we make use of the Level-$k$ inequalities from Boolean Fourier Analysis, which, to the best of our knowledge, have not been explored in this context prior to our work.
翻译:我们证明,对于价值小于1的每3位玩家(3-prover)游戏,$=mathcal G$ (3-prover) $\mathcal G$ >0, 其查询分布得到支持的 $mathcal S= ⁇ ( 1,0,0,0,0,0,0,0,0,0,0,1美元) = {mathcal Squal 重量一个矢量, 美元双倍重复的价值$\mathcal G ⁇ otimets n} 的值是多球游戏的多球速率快速到零; 也就是说, 有一个恒定值$c=cal$=cal$(cal) $(calcal_cal) 游戏的值是$\ mathcal_cal$(cal_cal_cal_cal_gal_cal_cal_cal_cal_l), legn_ral_ral_c_ral_c_c_c_cal_cal_cal_c_c_c_c_c_c_c_c_c_c_c_c_c_xxxxxxxxxxxxxxxxxxxxxxxxxx_xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
相关内容
微信扫码咨询专知VIP会员