Computer systems designers are building cache hierarchies with higher capacity to capture the ever-increasing working sets of modern workloads. Cache hierarchies with higher capacity improve system performance but shift the performance bottleneck to address translation. We propose Midgard, an intermediate address space between the virtual and the physical address spaces, to mitigate address translation overheads without program-level changes. Midgard leverages the operating system concept of virtual memory areas (VMAs) to realize a single Midgard address space where VMAs of all processes can be uniquely mapped. The Midgard address space serves as the namespace for all data in a coherence domain and the cache hierarchy. Because real-world wo...