Crates.io | hwlocality |
lib.rs | hwlocality |
version | 1.0.0-alpha.6 |
source | src |
created_at | 2023-12-26 17:10:59.155806 |
updated_at | 2024-08-10 16:16:23.827583 |
description | Idiomatic Rust bindings for the hwloc hardware locality library |
homepage | |
repository | https://github.com/HadrienG2/hwlocality |
max_upload_size | |
id | 1081065 |
size | 1,518,322 |
To optimize programs for parallel performance on all hardware, you must accept that on many common platforms, symmetric multiprocessing is a lie. "CPUs" detected by the operating system often have inequal access to shared resources like caches, DRAM and I/O peripherals, sometimes even inequal specifications (as in Arm big.LITTLE, Apple Mx and Intel Adler Lake), and significant performance gains can be achieved by taking these facts into account in your code.
This is the latest maintained Rust binding to hwloc, a C library from Open MPI for detecting the hierarchical topology of modern architectures: NUMA memory nodes, sockets, shared data & instruction caches, cores, simultaneous multi threading, and more. Additionally, hwloc lets you pin threads to specific CPU cores and memory to specific NUMA nodes, which is a prerequisite to perform topology-aware program optimizations.
hwlocality
is based on and still shares some code and design with the
previous, now-unmaintained attempts to write Rust hwloc bindings at
Ichbinjoe/hwloc2-rs and
daschl/hwloc-rs. However, it does not aim
for API compatibility with them. Indeed, many changes have been made with
respect to hwloc2-rs in the aim of improving ergonomics, performance, and
removing avenues for Undefined Behaviour like assuming pointers are non-null or
union fields are valid when nobody tells you they will always be.
hwlocality
is compatible with libhwloc
v2.0 and later. You can install a
suitable version of libhwloc
in two different ways:
libhwloc
package, then you can install it along with the associated development
package (typically called libhwloc-dev
or libhwloc-devel
). This is the
recommended way to do things because it will greatly speed up your
hwlocality
(re)builds and allow you to easily keep libhwloc
up to date
along with the rest of your development environment.hwlocality
can
alternatively download and build its own copy of libhwloc
. To use such an
internal build, please enable the vendored
Cargo feature. In addition to a
working C build environment, you will need automake
and libtool
on
Unices, and cmake
on Windows.Unless you are using a vendored version of hwloc of Windows, you will also need
to install pkg-config
or one of its clones (pkgconf
, pkgconfiglite
...), as
it is used to find libhwloc
and set up hwlocality
to link against it.
By default, compatibility with all hwloc 2.x versions is aimed for, which means features from newer versions in the 2.x series (or, in the near future, compatibility with breaking changes from the 3.x series) are not supported by default.
You can enable them, at the cost of losing compatibility with older
hwloc 2.x releases, by enabling the cargo feature that matches the lowest hwloc
release you need to be compatible with. See the [features]
section of this
crate's Cargo.toml
for more information.
First, add hwlocality
as a dependency:
cargo add hwlocality
Then, inside of your code, set up a
Topology
.
This is the main entry point to the hwloc library, through which you can access
almost every operation that hwloc allows.
Here is a quick usage example which walks though the detected hardware topology and prints out a short description of every CPU and cache object known to hwloc:
use hwlocality::{object::depth::NormalDepth, Topology};
fn main() -> eyre::Result<()> {
let topology = Topology::new()?;
for depth in NormalDepth::iter_range(NormalDepth::MIN, topology.depth()) {
println!("*** Objects at depth {depth}");
for (idx, object) in topology.objects_at_depth(depth).enumerate() {
println!("{idx}: {object}");
}
}
Ok(())
}
One possible output is:
*** Objects at depth 0
0: Machine
*** Objects at depth 1
0: Package
*** Objects at depth 2
0: L3 (16MB)
*** Objects at depth 3
0: L2 (512KB)
1: L2 (512KB)
2: L2 (512KB)
3: L2 (512KB)
4: L2 (512KB)
5: L2 (512KB)
*** Objects at depth 4
0: L1d (32KB)
1: L1d (32KB)
2: L1d (32KB)
3: L1d (32KB)
4: L1d (32KB)
5: L1d (32KB)
*** Objects at depth 5
0: Core
1: Core
2: Core
3: Core
4: Core
5: Core
*** Objects at depth 6
0: PU
1: PU
2: PU
3: PU
4: PU
5: PU
6: PU
7: PU
8: PU
9: PU
10: PU
11: PU
More examples are available in the source repository.
Most of the features from the hwloc 2.x series are now exposed by hwlocality. But some specialized features, mostly related to interoperability with other APIs, could not make it for various reasons. Issues with the "api coverage" label track unimplemented features, and are a great place to look for potential contributions to this library if you have time!
If you are already familiar with the hwloc C API, you will also be happy to know
that #[doc(alias)]
attributes
are extensively used so that you can search the documentation for hwloc API
entities like hwloc_bitmap_t
, hwloc_set_cpubind
or hwloc_obj::arity
and
be redirected to the suggested replacement in the Rust API.
The main exceptions to this rule are notions that are not needed in Rust due to ergonomics improvements permitted by the Rust type system. For example...
Drop
implsHWLOC_MEMBIND_BYNODESET
are replaced
by generics that do the right thing automatically.This project uses the MIT license, please see the LICENSE file for more information.