ExCubecl

ExCubecl is a GPU compute runtime for Elixir, powered by CubeCL via Rust NIFs.

It provides GPU buffer management, kernel execution, async command submission, and pipeline orchestration — designed for AI inference, media processing, and realtime GPU effects on mobile and desktop.

Architecture

┌─────────────────────────────────────────────┐
│              Elixir / BEAM                   │
│  ExCubecl.buffer(...)                       │
│  ExCubecl.run_kernel(:blur, ...)            │
│  ExCubecl.pipeline() |> pipeline_run()      │
├─────────────────────────────────────────────┤
│           ExCubecl.NIF (Elixir)              │
│  - NIF function stubs                        │
├─────────────────────────────────────────────┤
│           Rust NIF (lib.rs)                  │
│  - GPU device management                     │
│  - Buffer pool / Texture pool                │
│  - Kernel cache                              │
│  - Async command queue                       │
│  - Stream scheduler                          │
├─────────────────────────────────────────────┤
│           CubeCL Runtime                     │
│  - GPU kernel compilation                    │
│  - Buffer management                         │
│  - Dispatch execution                        │
│  - Synchronization                           │
├─────────────────────────────────────────────┤
│           C FFI (ex_cubecl.h)                │
│  - Mobile platform interface                 │
│  - iOS / Android interop                     │
└─────────────────────────────────────────────┘

Installation

Add ex_cubecl to your list of dependencies in mix.exs:

def deps do
  [
    {:ex_cubecl, "~> 0.2.0"}
  ]
end

Quick Start

# Check device
{:ok, info} = ExCubecl.device_info()
# %{device_name: "CubeCL GPU (Phase 1 — CPU simulation)", ...}
# Note: Currently runs on CPU; GPU dispatch coming in a future release

# Create GPU buffers (returns resource references, not integer IDs)
a = ExCubecl.buffer!([1.0, 2.0, 3.0], [3], :f32)
b = ExCubecl.buffer!([4.0, 5.0, 6.0], [3], :f32)

# Inspect
{:ok, [3]} = ExCubecl.shape(a)
{:ok, "f32"} = ExCubecl.dtype(a)
{:ok, 12} = ExCubecl.size(a)    # bytes

# Read data back
{:ok, data} = ExCubecl.read(a)

# Run a kernel
output = ExCubecl.buffer!([0.0, 0.0, 0.0], [3], :f32)
{:ok, _cmd} = ExCubecl.run_kernel("elementwise_add", [a, b], output)

# Async execution
{:ok, cmd_id} = ExCubecl.submit("some_command")
{:ok, :completed} = ExCubecl.poll(cmd_id)
:ok = ExCubecl.wait(cmd_id)

# Pipeline orchestration
{:ok, pipeline} = ExCubecl.pipeline()
:ok = ExCubecl.pipeline_add(pipeline, "elementwise_add", [a, b], output)
:ok = ExCubecl.pipeline_add(pipeline, "relu", [output], output)
{:ok, _cmd_ids} = ExCubecl.pipeline_run(pipeline)
:ok = ExCubecl.pipeline_free(pipeline)

# Buffers are automatically freed when GC'd — no manual free needed

Supported Types

Type	Description
`:f32`	32-bit float
`:f64`	64-bit float
`:s32`	32-bit signed integer
`:s64`	64-bit signed integer
`:u32`	32-bit unsigned integer
`:u8`	8-bit unsigned integer

Mobile Integration (iOS / Android)

ExCubecl includes a C FFI layer for mobile platform integration.

iOS (Objective-C / Swift)

#include "ex_cubecl.h"

float data[] = {1.0f, 2.0f, 3.0f};
size_t shape[] = {3};
ex_cubecl_buffer_handle_t buf = ex_cubecl_buffer_new(
    (const uint8_t*)data, shape, 1, EX_CUBECL_DTYPE_F32
);

float out[3];
ex_cubecl_buffer_read(buf, (uint8_t*)out, sizeof(out));

ex_cubecl_buffer_free(buf);

Android (JNI)

#include "ex_cubecl.h"
#include <jni.h>

JNIEXPORT jlong JNICALL
Java_com_example_excubecl_ExCubeclBuffer_create(
    JNIEnv *env, jobject thiz, jbyteArray data, jlongArray shape, jint dtype) {
    jsize data_len = (*env)->GetArrayLength(env, data);
    jbyte *data_ptr = (*env)->GetByteArrayElements(env, data, NULL);
    jlong *shape_ptr = (*env)->GetLongArrayElements(env, shape, NULL);
    jsize ndim = (*env)->GetArrayLength(env, shape);

    ex_cubecl_buffer_handle_t handle = ex_cubecl_buffer_new(
        (const uint8_t*)data_ptr, (const size_t*)shape_ptr, ndim, dtype
    );

    (*env)->ReleaseByteArrayElements(env, data, data_ptr, 0);
    (*env)->ReleaseLongArrayElements(env, shape, shape_ptr, 0);

    return (jlong)handle;
}

See native/ex_cubecl_nif/include/ex_cubecl.h for the full API reference.

Use Cases

GPU Image Processing

camera frame → GPU texture → CubeCL kernel → screen render

Blur, sharpen, denoise, beauty filters, LUT filters — all without CPU copies.

AI Inference

tensor → CubeCL kernels → prediction

Segmentation, face landmarks, pose detection, embeddings — realtime camera AI.

Video Processing

video texture → GPU kernels → encoder

Compositing, transitions, overlays, subtitles, color grading.

Livestream Effects

camera → AI segmentation → background replacement → stream encoder

Virtual background, AR effects, realtime filters — all GPU-native.

Evolution Path

Phase	Focus	Status
1	GPU compute runtime	✅ Current
2	Media runtime (video/camera)	🔜 Planned
3	AI runtime (inference)	🔜 Planned
4	Nx integration (Axon/training)	🔜 Planned (Phase 4)

License

Apache 2.0 — See LICENSE for details.