TurboQuant: Online Vector Quantization with Near-optimal Distortion Rate
Paper • 2504.19874 • Published • 32
Gemma 4 26B-A4B-it - RotorQuant MLX 8-bit
8-bit weight-quantized MLX version of google/gemma-4-26B-A4B-it with RotorQuant KV-cache quantization. Optimized for Apple Silicon inference via the MLX framework. RotorQuant delivers 5.3x faster prefill and 28% faster decode compared to TurboQuant. Only 4B parameters are active per token despite 26B total, making this model significantly more efficient at inference time than its parameter count suggests.
Approximate model size: ~26 GB
Model Specifications
| Property | Value |
|---|---|
| Base Model | google/gemma-4-26B-A4B-it |
| Parameters | 26 billion total (4 billion active per token) |
| Architecture | Mixture-of-Experts (MoE) (4B active per token) |
| Modality | Multimodal: image + text input, text output |
| License | Apache 2.0 |
| Weight Quantization | 8-bit (~26 GB) |
| KV-Cache Quantization | RotorQuant |
| Framework | MLX (Apple Silicon) |
Quickstart
import mlx.core as mx
from mlx_lm import load, generate
model, tokenizer = load("majentik/gemma-4-26B-A4B-it-RotorQuant-MLX-8bit")
prompt = "Describe this image in detail."
response = generate(model, tokenizer, prompt=prompt, max_tokens=512)
print(response)
For multimodal usage with images:
from mlx_vlm import load, generate
model, processor = load("majentik/gemma-4-26B-A4B-it-RotorQuant-MLX-8bit")
prompt = "What do you see in this image?"
output = generate(model, processor, prompt=prompt, image="path/to/image.jpg", max_tokens=512)
print(output)
What is RotorQuant?
RotorQuant is a high-performance KV-cache quantization method that achieves significantly better throughput than TurboQuant. Combined with 8-bit weight quantization in MLX, this provides a dual compression strategy with superior KV-cache performance: smaller model weights plus faster compressed KV cache for efficient long-context generation.
Key advantages over TurboQuant:
- 5.3x faster prefill
- 28% faster decode
- Equivalent memory savings
KV-Cache Quantization Comparison
| Method | Prefill Speed | Decode Speed | Memory Savings | Reference |
|---|---|---|---|---|
| TurboQuant | 1x (baseline) | 1x (baseline) | High | arXiv: 2504.19874 |
| RotorQuant | 5.3x faster | 28% faster | High | GitHub |
Memory Estimates (Gemma 4 26B-A4B-it)
| Precision | Approximate Size | MLX Variant |
|---|---|---|
| FP16 (original) | ~52 GB | -- |
| 8-bit quantized | ~26 GB | This model |
| 4-bit quantized | ~14 GB | RotorQuant-MLX-4bit |
| 2-bit quantized | ~7 GB | RotorQuant-MLX-2bit |
Hardware Requirements
This model requires approximately 26 GB of unified memory. Recommended hardware:
- Apple M2 Max (32 GB+)
- Apple M3 Max (48 GB+)
- Apple M4 Max (48 GB+)
See Also
- google/gemma-4-26B-A4B-it -- Base model
- majentik/gemma-4-26B-A4B-it-RotorQuant -- RotorQuant KV-cache only (transformers)
- majentik/gemma-4-26B-A4B-it-RotorQuant-MLX-4bit -- MLX 4-bit variant
- majentik/gemma-4-26B-A4B-it-RotorQuant-MLX-2bit -- MLX 2-bit variant
- majentik/gemma-4-26B-A4B-it-TurboQuant-MLX-8bit -- TurboQuant MLX 8-bit variant
- RotorQuant GitHub
- MLX Framework
- Downloads last month
- 48
Model size
8B params
Tensor type
BF16
·
U32 ·
Hardware compatibility
Log In to add your hardware
8-bit
Model tree for majentik/gemma-4-26B-A4B-it-RotorQuant-MLX-8bit
Base model
google/gemma-4-26B-A4B-it