Deploy on TensorDock
Run Laboratory OS on a TensorDock GPU server. TensorDock is a marketplace offering low-cost GPU VMs from data centers worldwide.
No inbound ports or firewall rules are needed — Laboratory OS uses an outbound tunnel. You can block all inbound traffic entirely.
1. Deploy a GPU Server
Log in to the TensorDock console and click Deploy.
Choose a server: Browse available machines filtered by GPU type.
Choosing a GPU: More VRAM lets you run larger models — 16 GB handles most image generation, 24-48 GB covers mid-size LLMs, and 100 GB+ is needed for large LLMs.
OS: Select Ubuntu 22.04 (or the closest available LTS version).
Allocate at least 100 GB of storage. 200+ GB recommended if you plan to download multiple models or LLMs.
2. Install Dependencies
SSH into the server:
ssh root@<server-ip>Docker
curl -fsSL https://get.docker.com | sh
sudo usermod -aG docker $USER
newgrp dockerVerify:
docker run --rm hello-worldIf you see “Hello from Docker!”, the installation was successful.
NVIDIA Drivers
Note: TensorDock images may include NVIDIA drivers pre-installed. Run
nvidia-smifirst — if it works, skip this section.
sudo apt-get update
sudo apt-get install -y ubuntu-drivers-common
sudo ubuntu-drivers autoinstall
sudo rebootAfter reboot, confirm the driver is loaded:
nvidia-smiYou should see your GPU listed with its driver version and VRAM.
Troubleshooting: If nvidia-smi is not found after install, make sure you have rebooted — the reboot after ubuntu-drivers autoinstall is required. If you see a Driver/library version mismatch error, reboot to resync the driver and CUDA library versions.
NVIDIA Container Toolkit
# Add the NVIDIA package repository
curl -fsSL https://nvidia.github.io/libnvidia-container/gpgkey | \
sudo gpg --dearmor -o /usr/share/keyrings/nvidia-container-toolkit-keyring.gpg
curl -s -L https://nvidia.github.io/libnvidia-container/stable/deb/nvidia-container-toolkit.list | \
sed 's#deb https://#deb [signed-by=/usr/share/keyrings/nvidia-container-toolkit-keyring.gpg] https://#g' | \
sudo tee /etc/apt/sources.list.d/nvidia-container-toolkit.list
# Install
sudo apt-get update
sudo apt-get install -y nvidia-container-toolkit
# Configure Docker runtime and restart
sudo nvidia-ctk runtime configure --runtime=docker
sudo systemctl restart dockerVerify:
docker run --rm --gpus all nvidia/cuda:12.0-base-ubuntu22.04 nvidia-smiIf you see nvidia-smi output inside the container, everything is set up correctly.
Troubleshooting: If you see could not select device driver “nvidia”, run sudo nvidia-ctk runtime configure --runtime=docker followed by sudo systemctl restart docker. If the GPU is visible on the host but not inside the container, make sure you are passing --gpus all to docker run.
3. Run Laboratory OS
docker run --gpus all \
-e UPLINK_API_KEY='your-account-key' \
openlaboratoryorg/laboratory-osCheck the container logs for your assigned slug — it appears within the first 30 seconds. Then sign in to your account at:
https://app.laboratory.computerFrom there you'll see your running instance and can open the Laboratory OS desktop. Access is gated by your SSO login rather than a shared token, so only authenticated account holders can connect.
4. Cost Management
Destroy the server from the TensorDock console when not in use to stop billing. TensorDock bills per minute, so costs are tightly tied to uptime.
Tip: TensorDock’s marketplace pricing varies by data center and availability. Check multiple locations for the best rates.