Instructions to use litert-community/RTMPose-Hand-LiteRT with libraries, inference providers, notebooks, and local apps. Follow these links to get started.
- Libraries
- LiteRT
How to use litert-community/RTMPose-Hand-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
RTMPose-Hand β LiteRT (on-device 21-keypoint hand pose, fully-GPU)
RTMPose (mmpose, CSPNeXt + RTMCC/SimCC head)
hand pose, converted to LiteRT and running fully on the CompiledModel GPU (ML Drift) on Android.
The 21 standard hand keypoints (wrist + 4 joints Γ 5 fingers) for a single centered hand.
On-device (Pixel 8a, Tensor G3 β verified)
| nodes on GPU | 333 / 333 LITERT_CL (full residency) |
| inference | ~4 ms (256Γ256) |
| size | 28 MB (fp16) |
| accuracy | device-vs-PyTorch SimCC corr 0.999, 21/21 keypoints |
image[1,3,256,256] (ImageNet 0-255) β[GPU: CSPNeXt + RTMCC]β simcc_x[1,21,512], simcc_y[1,21,512]
Minimal usage
Android (Kotlin, CompiledModel GPU)
val model = CompiledModel.create(context.assets, "rtmhand_fp16.tflite",
CompiledModel.Options(Accelerator.GPU), null)
val inputs = model.createInputBuffers()
val outputs = model.createOutputBuffers()
inputs[0].writeFloat(chw) // [1,3,256,256] mmpose mean/std (0-255 RGB), NCHW
model.run(inputs, outputs)
val simccX = outputs[0].readFloat() // [1,21,512]
val simccY = outputs[1].readFloat() // [1,21,512]; keypoint = argmax / 2
Python (desktop verification)
MEAN = np.array([123.675, 116.28, 103.53], np.float32)
STD = np.array([58.395, 57.12, 57.375], np.float32)
import numpy as np
from PIL import Image
from ai_edge_litert.interpreter import Interpreter
img = Image.open("hand.jpg").convert("RGB").resize((256, 256)) # centered subject crop
x = ((np.asarray(img, np.float32) - MEAN) / STD).transpose(2, 0, 1)[None]
it = Interpreter(model_path="rtmhand_fp16.tflite"); it.allocate_tensors()
it.set_tensor(it.get_input_details()[0]["index"], x); it.invoke()
od = it.get_output_details() # output 0 = simcc_x, 1 = simcc_y
sx = it.get_tensor(od[0]["index"])[0] # simcc_x [21,512]
sy = it.get_tensor(od[1]["index"])[0] # simcc_y [21,512]
kx, ky = sx.argmax(-1) / 2.0, sy.argmax(-1) / 2.0 # 21 keypoints, px in 256x256
for i, (a, b) in enumerate(zip(kx, ky)):
print(f"kp{i}: ({a:.1f}, {b:.1f})")
How it converts (litert-torch)
Identical RTMPose-family recipe (both numerically exact, no PixelShuffle since there's no neck):
ScaleNorm(RMS) β SafeRMSNorm β fp16-overflow all-zero-head fix (scale x down by S=64 before squaring).- GAU
act@actBMM β broadcast-multiply + reduce-sum.
Result: banned ops NONE, all tensors β€4D, tflite-vs-torch corr 1.0, device-vs-torch corr 0.999.
Preprocessing
Center-crop to square, resize to 256Γ256, ImageNet 0-255 normalize, NCHW. Top-down β one centered hand. SimCC argmax (Γ· split=2) β pixel.
License
Apache-2.0. Upstream: open-mmlab/mmpose RTMPose-Hand.
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