Videos

Parallel Repetition for 3-Player XOR Games

Presenter
April 16, 2024
Abstract
In a 3-𝖷𝖮𝖱 game , the verifier samples a challenge (x,y,z)∼μ where μ is a probability distribution over Σ×Γ×Φ,  and a map t:Σ×Γ×Φ→ for a finite Abelian group  defining a constraint.  The verifier sends the questions x, y and  z to the players Alice, Bob and Charlie respectively, receives answers f(x), g(y) and h(z) that are elements in  and accepts if f(x)+g(y)+h(z)=t(x,y,z). The value, 𝗏𝖺𝗅(), of the game is defined to be the maximum probability the verifier accepts over all players' strategies. We show that if  is a 3-𝖷𝖮𝖱 game with value strictly less than 1, whose underlying distribution over questions μ does not admit Abelian embeddings into (ℤ,+), then the value of the n-fold repetition of  is exponentially decaying. That is, there exists c=c()>0 such that 𝗏𝖺𝗅(⊗n)≤2−cn. This extends a previous result of [Braverman-Khot-Minzer, FOCS 2023] showing exponential decay for the GHZ game. Our proof combines tools from additive combinatorics and tools from discrete Fourier analysis. Based on joint work with Amey Bhangale, Mark Braverman, Subhash Khot, Dor Minzer.