Instructions to use litert-community/M-LSD-tiny-LiteRT with libraries, inference providers, notebooks, and local apps. Follow these links to get started.
- Libraries
- LiteRT
How to use litert-community/M-LSD-tiny-LiteRT with LiteRT:
# No code snippets available yet for this library. # To use this model, check the repository files and the library's documentation. # Want to help? PRs adding snippets are welcome at: # https://github.com/huggingface/huggingface.js
- Notebooks
- Google Colab
- Kaggle
M-LSD-tiny β LiteRT (on-device line segment detection, fully-GPU)
M-LSD (NAVER, AAAI 2022) light-weight real-time line segment
detection, converted to LiteRT and running fully on the CompiledModel GPU (ML Drift) on Android.
Detects straight line segments β building edges, document borders, wireframes, room layout. The tiny
variant (MobileNetV2 backbone, 0.62M params) is 1.4 MB in fp16.
On-device (Pixel 8a, Tensor G3 β verified)
| nodes on GPU | 99 / 99 LITERT_CL (full residency) |
| inference | ~2 ms (512Γ512) |
| size | 1.4 MB (fp16) |
| accuracy | device-vs-PyTorch corr 0.997 (127 vs 128 lines decoded) |
image[1,4,512,512] (RGB + ones channel, scaled to [-1,1]) β[GPU: MobileNetV2 U-Net]β tpMap[1,9,256,256]
The output is a "TP map": channel 0 = line-center heatmap, channels 1β4 = start/end displacement. The decode (sigmoid + 3Γ3 NMS over centers, displacement β endpoints, Γ2) runs on the host.
How it converts (litert-torch)
Pure CNN encoder-decoder. A single re-authoring: the decoder's F.interpolate(bilinear, align_corners=True)
β align_corners=False (the Mali delegate bans align_corners=True + half-pixel). MobileNetV2 has no
max-pool (strided convs β no PADV2), and the upsample is RESIZE_BILINEAR, not a transposed conv β fully
GPU-clean. Result: banned ops NONE, all tensors β€4D, tflite-vs-torch corr 1.0, device-vs-torch corr 0.997.
Preprocessing & decode
Resize to 512Γ512, append a 4th channel of ones, scale (x/127.5) - 1, NCHW. Decode: sigmoid the center map,
3Γ3 max NMS, threshold (0.10), displacement β endpoints, filter by length, Γ2 to 512-space.
Minimal usage
Android (Kotlin, CompiledModel GPU)
val model = CompiledModel.create(context.assets, "mlsd_fp16.tflite",
CompiledModel.Options(Accelerator.GPU), null)
val inputs = model.createInputBuffers(); val outputs = model.createOutputBuffers()
inputs[0].writeFloat(x) // [1,4,512,512] NCHW: RGB + ones channel, x/127.5 - 1
model.run(inputs, outputs)
val tpMap = outputs[0].readFloat() // [1,9,256,256]: ch0 center, ch1-4 displacement
// sigmoid + 3x3 NMS + displacement -> segments: port of the Python decode below.
Python (desktop verification)
import numpy as np
from PIL import Image
from scipy.ndimage import maximum_filter
from ai_edge_litert.interpreter import Interpreter
im = Image.open("photo.jpg").convert("RGB").resize((512, 512))
a = np.asarray(im, np.float32)
a = np.concatenate([a, np.ones((512, 512, 1), np.float32)], -1) # 4th channel of ones
x = ((a.transpose(2, 0, 1)[None] / 127.5) - 1.0).copy() # [1,4,512,512]
it = Interpreter(model_path="mlsd_fp16.tflite"); it.allocate_tensors()
it.set_tensor(it.get_input_details()[0]["index"], x); it.invoke()
tp = it.get_tensor(it.get_output_details()[0]["index"])[0] # [9,256,256]
center = 1 / (1 + np.exp(-tp[0])); disp = tp[1:5]
peak = (center == maximum_filter(center, 3)) & (center > 0.10) # 3x3 NMS + threshold
ys, xs = np.where(peak)
order = center[ys, xs].argsort()[::-1][:200] # top-200 centers
lines = []
for y, x0 in zip(ys[order], xs[order]):
dxs, dys, dxe, dye = disp[:, y, x0]
if np.hypot(dxs - dxe, dys - dye) > 20: # min segment length (px)
lines.append([(x0 + dxs) * 2, (y + dys) * 2, (x0 + dxe) * 2, (y + dye) * 2])
print(f"{len(lines)} line segments (x0,y0,x1,y1 in 512-space)")
License
Apache-2.0. Upstream: navervision/mlsd; PyTorch port lhwcv/mlsd_pytorch.
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# No code snippets available yet for this library. # To use this model, check the repository files and the library's documentation. # Want to help? PRs adding snippets are welcome at: # https://github.com/huggingface/huggingface.js