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Modern memory hierarchies are increasingly complex, with more memory types and richer topologies. Unfortunately kernel memory managers lack the extensibility that many other parts of the kernel use to support diversity. This makes it difficult to add and deploy support for new memory configurations, such as tiered memory: engineers must navigate and modify the monolithic memory management code to add support, and custom kernels are needed to deploy such support until it is upstreamed. We take inspiration from filesystems and note that VFS, the extensible interface for filesystems, supports a huge variety of filesystems for different media and different use cases, and importantly, has interfaces for memory management operations such as controlling virtual-to-physical mapping and handling page faults. We propose writing memory management systems as filesystems using VFS, bringing extensibility to kernel memory management. We call this idea File-Based Memory Management (FBMM). Using this approach, many recent memory management extensions, e.g., tiering support, can be written without modifying existing memory management code. We prototype FBMM in Linux to show that the overhead of extensibility is low (within 1.6%) and that it enables useful extensions.