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scx-upstream/scheds/rust/scx_rustland
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Andrea Righi 23b0bb5ff5 scx_rustland: dispatch interactive tasks on any CPU 
Dispatch non-interactive tasks on the CPU selected by the built-in idle
selection logic and allow interactive tasks to be dispatched on any CPU.

Signed-off-by: Andrea Righi <andrea.righi@canonical.com>
2024-05-22 12:12:55 +02:00
..
src scx_rustland: dispatch interactive tasks on any CPU 2024-05-22 12:12:55 +02:00
.gitignore scx_rustland_core: generate source files in-tree 2024-02-28 17:49:44 +01:00
build.rs scx_rustland_core: introduce RustLandBuilder() 2024-02-28 17:49:44 +01:00
Cargo.toml scx_rustland_core: use a BPF_MAP_TYPE_USER_RINGBUF to dispatch tasks 2024-05-08 22:16:53 +02:00
LICENSE scx_rustland: rename from scx_rustlite 2023-12-22 00:20:14 +01:00
meson.build scheds-rust: build rust schedulers in sequence 2024-04-23 08:06:27 +08:00
README.md scx_rustland: update documentation 2024-02-28 17:49:44 +01:00
rustfmt.toml scx_rustland: rename from scx_rustlite 2023-12-22 00:20:14 +01:00

README.md

scx_rustland

This is a single user-defined scheduler used within sched_ext, which is a Linux kernel feature which enables implementing kernel thread schedulers in BPF and dynamically loading them. Read more about sched_ext.

Overview

scx_rustland is made of a BPF component (scx_rustland_core) that implements the low level sched-ext functionalities and a user-space counterpart (scheduler), written in Rust, that implements the actual scheduling policy.

How To Install

Available as a Rust crate: cargo add scx_rustland

Typical Use Case

scx_rustland is designed to prioritize interactive workloads over background CPU-intensive workloads. For this reason the typical use case of this scheduler involves low-latency interactive applications, such as gaming, video conferencing and live streaming.

scx_rustland is also designed to be an "easy to read" template that can be used by any developer to quickly experiment more complex scheduling policies fully implemented in Rust.

Production Ready?

Not quite. For production scenarios, other schedulers are likely to exhibit better performance, as offloading all scheduling decisions to user-space comes with a certain cost.

However, a scheduler entirely implemented in user-space holds the potential for seamless integration with sophisticated libraries, tracing tools, external services (e.g., AI), etc.

Hence, there might be situations where the benefits outweigh the overhead, justifying the use of this scheduler in a production environment.

Demo

scx_rustland-terraria

The key takeaway of this demo is to demonstrate that , despite the overhead of running a scheduler in user-space, we can still obtain interesting results and, in this particular case, even outperform the default Linux scheduler (EEVDF) in terms of application responsiveness (fps), while a CPU intensive workload (parallel kernel build) is running in the background.