Pure MLX implementations of UMAP, t-SNE, PaCMAP, TriMap, DREAMS, CNE, MMAE, and NNDescent for Apple Silicon. Metal GPU acceleration for both computation and video rendering. No scipy, no sklearn, no matplotlib.
Project description
mlx-vis
Pure MLX implementations of UMAP, t-SNE, PaCMAP, TriMap, DREAMS, CNE, MMAE, and NNDescent for Apple Silicon. Metal GPU acceleration for both computation and video rendering. No scipy, no sklearn, no matplotlib.
Embed 70K points in 1-4 seconds. Add GPU-rendered animation video in under 5 seconds total. See benchmark.
Fashion-MNIST 70K on M3 Ultra:
| UMAP | t-SNE | PaCMAP |
|---|---|---|
 |
 |
 |
| TriMap | DREAMS | CNE |
 |
 |
 |
| MMAE | ||
 |
Just for fun -- morph_gpu smoothly interpolates between all six methods:
https://github.com/user-attachments/assets/b11418e0-51f6-4a73-8150-8a40097662cc
Install
uv pip install mlx-vis
From source:
git clone https://github.com/hanxiao/mlx-vis.git
cd mlx-vis
uv pip install .
Requires mlx >= 0.20.0 and numpy >= 1.24.0.
Usage
import numpy as np
from mlx_vis import UMAP, TSNE, PaCMAP, TriMap, DREAMS, CNE, MMAE, NNDescent
X = np.random.randn(10000, 128).astype(np.float32)
# UMAP
Y = UMAP(n_components=2, n_neighbors=15).fit_transform(X)
# t-SNE
Y = TSNE(n_components=2, perplexity=30).fit_transform(X)
# PaCMAP
Y = PaCMAP(n_components=2, n_neighbors=10).fit_transform(X)
# TriMap
Y = TriMap(n_components=2, n_iters=400).fit_transform(X)
# DREAMS (t-SNE + PCA regularization)
Y = DREAMS(n_components=2, lam=0.15).fit_transform(X)
# CNE (contrastive neighbor embedding, unifies t-SNE and UMAP)
Y = CNE(n_components=2, loss="infonce").fit_transform(X)
# MMAE (manifold-matching autoencoder, preserves global metric structure)
Y = MMAE(n_components=2, pca_dim=50).fit_transform(X)
# NNDescent (approximate k-NN graph)
indices, distances = NNDescent(k=15).build(X)
# KNN method selection (all algorithms support this)
# "auto" (default): brute-force for n≤20K, NNDescent for larger
# "brute": exact brute-force on GPU
# "nndescent": approximate NNDescent
Y = UMAP(knn_method="nndescent").fit_transform(X)
Per-module imports also work:
from mlx_vis.umap import UMAP
from mlx_vis.tsne import TSNE
from mlx_vis.pacmap import PaCMAP
from mlx_vis.trimap import TriMap
from mlx_vis.dreams import DREAMS
from mlx_vis.cne import CNE
from mlx_vis.mmae import MMAE
from mlx_vis.nndescent import NNDescent
Methods
| Method | Class | Main API | Output |
|---|---|---|---|
| UMAP | UMAP(n_components, n_neighbors, min_dist, ...) |
fit_transform(X) |
np.ndarray (n, d) |
| t-SNE | TSNE(n_components, perplexity, ...) |
fit_transform(X) |
np.ndarray (n, d) |
| PaCMAP | PaCMAP(n_components, n_neighbors, ...) |
fit_transform(X) |
np.ndarray (n, d) |
| TriMap | TriMap(n_components, n_iters, ...) |
fit_transform(X) |
np.ndarray (n, d) |
| DREAMS | DREAMS(n_components, lam, ...) |
fit_transform(X) |
np.ndarray (n, d) |
| CNE | CNE(n_components, loss, n_negatives, ...) |
fit_transform(X) |
np.ndarray (n, d) |
| MMAE | MMAE(n_components, pca_dim, lambda_mm, ...) |
fit_transform(X) |
np.ndarray (n, d) |
| NNDescent | NNDescent(k, n_iters, ...) |
build(X) |
(indices, distances) |
Visualization
All rendering runs on Metal GPU via MLX: coordinate mapping, circle-splatting, and color blending are fully vectorized MLX operations. Raw frames are piped to ffmpeg for PNG/video encoding. Zero matplotlib.
Static plots
from mlx_vis import UMAP, scatter_gpu
import numpy as np
X = np.random.randn(10000, 128).astype(np.float32)
labels = np.random.randint(0, 5, 10000)
Y = UMAP(n_components=2).fit_transform(X)
scatter_gpu(Y, labels=labels, theme="dark", save="plot.png")
Animation
Video frames are rendered on GPU and piped to ffmpeg with h264_videotoolbox hardware encoding. 500 frames of 15K points in 1.9 seconds on M3 Ultra.
UMAP:
https://github.com/user-attachments/assets/3252ec02-f032-4f82-b3e6-0205a9c6c91e
t-SNE:
https://github.com/user-attachments/assets/695503b6-4acc-457f-afb6-a4cfabc6a036
PaCMAP:
https://github.com/user-attachments/assets/3d2201ae-13bc-4c06-9e60-e836ca71f21d
TriMap:
https://github.com/user-attachments/assets/f982fcec-1dc1-468c-93eb-0fb646d6e260
DREAMS:
https://github.com/user-attachments/assets/0461359c-7e35-4458-9f06-8db8711f8ade
CNE:
https://github.com/user-attachments/assets/662597cb-b8d8-496f-9baa-ea3a19ae1bca
Benchmark
Fashion-MNIST 70,000 x 784, M3 Ultra:
| UMAP | t-SNE | PaCMAP | TriMap | DREAMS | CNE | MMAE | |
|---|---|---|---|---|---|---|---|
| Iterations | 500 | 500 | 450 | 500 | 500 | 500 | 39 epochs |
| Embedding | 3.4s | 3.9s | 2.3s | 2.6s | 3.8s | 3.4s | 1.3s |
| GPU render (800 frames) | 1.2s | 1.2s | 1.2s | 1.2s | 1.2s | 1.2s | - |
| Total | 4.6s | 5.1s | 3.5s | 3.8s | 5.0s | 4.6s | 1.3s |
from mlx_vis import UMAP, animate_gpu
import numpy as np, time
X = np.random.randn(10000, 128).astype(np.float32)
labels = np.random.randint(0, 5, 10000)
snaps, times = [], []
t0 = time.time()
def cb(epoch, Y_np):
snaps.append(Y_np.copy())
times.append(time.time() - t0)
Y = UMAP(n_components=2, n_epochs=200).fit_transform(X, epoch_callback=cb)
animate_gpu(snaps, labels=labels, timestamps=times,
method_name="umap-mlx", fps=120, theme="dark",
save="animation.mp4")
Full Fashion-MNIST example:
python -m mlx_vis.examples.fashion_mnist --method umap --theme dark
python -m mlx_vis.examples.fashion_mnist --method all
License
Apache-2.0
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