Consider a following application: a web search server that upon start creates a large in-memory index of web pages based on data read from disk. Once initialized, in-memory index can not be modified and multiple threads are started to serve user queries. Assume the server is compiled to native code and uses OS threads.
Now, threading model gives no isolation between threads. A buggy thread or any non thread safe code, can corrupt the index or corrupt memory that was allocated by and logically belongs to some other thread. Such problems are difficult to detect and debug.
Theoretically, Linux allows to enforce a better isolation. Once index is initialized, memory it occupies can be marked read only. Threads can be replaced with processes that share the index (shared memory) but other than that have separate heaps and can not corrupt each other. Illegal operation are automatically detected by hardware and the operating system. No mutexes or other synchronization primitives are needed. Memory related data races are completely eliminated.
Is such model feasible in practice? Are you aware of any real life application that do such things? Or maybe there are some fundamental difficulties that make such model impractical? Do you think such approach would introduce a performance overhead compared to traditional threads? Theoretically, memory that is used is the same, but are there some implementation-related issues that would make things slower?