π Dragon Interceptor (267k)
Dragon Interceptor is an ultra-compact, high-speed generative model designed for aviation-inspired structural synthesis. Optimized for 35W mobile hardware, it bridges the gap between neural text generation and 2D pixel blueprints.
π Performance HUD
Benchmarks recorded on Intel Core i5-10210U (Surface Pro setup):
- Weight Loading: 2055.47 it/s
- Inference Speed: ~286 iterations/sec
- Full Image Gen (28x28): ~0.88s
- Brute Force Throughput: 1.2 - 2.5 images/sec (Turbo Mode)
π οΈ Architecture
The model utilizes a GPT-2 Causal LM backbone, repurposed for spatial data:
- Vocab Size: 256 (Mapped to 8-bit grayscale intensity)
- Sequence Length: 784 (Fixed $28 \times 28$ positional embeddings)
- Parameters: 267,000 (Fits entirely within L2/L3 CPU cache)
π°οΈ Key Features
1. Mosaic Synthesis
By utilizing a sliding-window context bridge, the model can bypass its 784-position limit to generate seamless, multi-tile blueprints.
- Tile Resolution: 28x28
- Global Resolution: 112x112 (4x4 Mosaic) or custom strips.
2. Seed Brute-Forcing
The "Titan DNA" protocol allows for mass-generation of 1,000+ seeds to map the latent space for specific aircraft parts (wings, fuselages, tail fins).
3. Thermal-Aware Inference
Optimized for the Surface Pro's 35W power envelope. Uses raw Torch inference with KV-Caching to maintain stable frame rates even under thermal pressure.
πΌοΈ Sample Inference & Visualization
Use the following code to generate a high-fidelity "Radar Scan" from a specific seed. This snippet is optimized for 4K displays and technical clarity.
import torch
from transformers import AutoModelForCausalLM
import matplotlib.pyplot as plt
import os
# Load Dragon Interceptor
model = AutoModelForCausalLM.from_pretrained("MightyDragon-Dev/dragon_interceptor")
# Generate a 28x28 Blueprint (Random Seed)
seed_id = os.urandom(1)[0] % 10**6 # Random seed for variability
print(f"π Generating Dragon Blueprint with Seed {seed_id}...")
input_ids = torch.tensor([[seed_id]])
output = model.generate(input_ids, max_length=784, min_length=784, do_sample=True, temperature=0.7)
# Reshape and Render
blueprint = output[0].view(28, 28).detach().numpy()
plt.figure(figsize=(8, 8), dpi=120)
plt.imshow(blueprint, cmap='magma', interpolation='lanczos')
plt.title(f"Dragon Interceptor: Sector Scan (Seed {seed_id})", color='white')
plt.style.use('dark_background')
plt.axis('off')
plt.show()
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