Learn how to interact with this file using the Ouro SDK or REST API.
API access requires an API key. Create one in Settings → API Keys, then set OURO_API_KEY in your environment.
Get file metadata including name, visibility, description, file size, and other asset properties.
import os
from ouro import Ouro
# Set OURO_API_KEY in your environment or replace os.environ.get("OURO_API_KEY")
ouro = Ouro(api_key=os.environ.get("OURO_API_KEY"))
file_id = "a93f1048-348d-45bc-9baf-e66028094bb7"
# Retrieve file metadata
file = ouro.files.retrieve(file_id)
print(file.name, file.visibility)
print(file.metadata)Get a URL to download or embed the file. For private assets, the URL is temporary and will expire after 1 hour.
# Get signed URL to download the file
file_data = file.read_data()
print(file_data.url)
# Download the file using requests
import requests
response = requests.get(file_data.url)
with open('downloaded_file', 'wb') as output_file:
output_file.write(response.content)Update file metadata (name, description, visibility, etc.) and optionally replace the file data with a new file. Requires write or admin permission.
# Update file metadata
updated = ouro.files.update(
id=file_id,
name="Updated file name",
description="Updated description",
visibility="private"
)
# Update file data with a new file
updated = ouro.files.update(
id=file_id,
file_path="./new_file.txt"
)Permanently delete a file from the platform. Requires admin permission. This action cannot be undone.
# Delete a file (requires admin permission)
ouro.files.delete(id=file_id)Neo-Magnets, commonly known as Neodymium Iron Boron (NdFeB) magnets, are high-performance permanent magnets engineered for applications requiring exceptional magnetic strength within compact geometries. They exhibit the highest energy product among commercially available permanent magnets, enabling significant miniaturization and enhanced efficiency in advanced electromechanical systems.
Manufactured through precision powder metallurgy, Neo-Magnets offer high remanence and strong intrinsic coercivity, ensuring stable magnetic performance under demanding operating conditions. By optimizing alloy composition and grain structure, these magnets deliver reliable magnetic output while maintaining tight dimensional tolerances essential for high-precision assemblies.
Neo-Magnets are widely used in electric motors, generators, sensors, magnetic couplings, medical devices, and renewable energy systems. To address environmental exposure and corrosion sensitivity, they are available with various surface treatments such as nickel, epoxy, zinc, or customized coatings, extending service life and performance stability.
With a balance of superior magnetic strength, design flexibility, and scalable manufacturing, Neo-Magnets represent a critical material solution for industries pursuing higher power density, energy efficiency, and advanced functional integration.