The massive parallel architecture enables graphics processing units (GPUs) to boost performance for a wide range of applications. Initially, GPUs only employ scratchpad memory as on-chip memory. Recently, to broaden the scope of applications that can be accelerated by GPUs, GPU vendors have used caches in conjunction with scratchpad memory as on-chip memory in the new generations of GPUs. Unfortunately, GPU caches face many performance challenges that arise due to excessive thread contention for cache resource. Cache bypassing, where memory requests can selectively bypass the cache, is one solution that can help to mitigate the cache resource contention problem. In this paper, we propose coordinated static and dynamic cache bypassing to imp...