The robotics framework for simplified robot development.
Peppy is a robotics framework that takes you from development to production at scale, letting you focus on building intelligent robots while we handle the complexity.
Build and deploy robot software with ease. Peppy streamlines your entire robot stack — sensors, actuators, AI, and controllers — making robotics development accessible even if you've never worked with robots before.
15 minutes to get productive•Fully free
Input
// This is an example launcher for a generic robot
{
peppy_schema: "launcher/v1",
deployments: [
{
source: {
name: "vla_brain:v1",
},
instances: [
{
instance_id: "ai_brain",
bindings: {
torso_camera: "torso_camera",
left_wrist_camera: "left_wrist_camera",
right_wrist_camera: "right_wrist_camera",
robot_controller: "the_controller"
}
}
],
},
{
source: {
name: "robot_backbone",
tag: "v1"
},
instances: [
{
instance_id: "the_controller",
bindings: {
left_robot_arm: "the_left_arm",
right_robot_arm: "the_right_arm"
}
}
]
},
{
source: {
name: "robot_arm:v1",
},
instances: [
{
instance_id: "the_right_arm",
},
{
instance_id: "the_left_arm",
}
]
},
{
source: {
name: "depth_camera:v1",
},
instances: [
{
instance_id: "torso_camera",
arguments: {
device_path: "/dev/video0",
depth: {
frame_rate: 30,
resolution: {
width: 1280,
height: 720,
},
depth_format: "z16",
depth_units_m: 0.001,
},
}
}
]
},
{
source: {
name: "uvc_camera:v1",
},
instances: [
{
instance_id: "left_wrist_camera",
arguments: {
device_path: "/dev/video1",
video: {
frame_rate: 30,
resolution: {
width: 1280,
height: 720,
},
camera_encoding: "mjpeg",
topic_encoding: "rgb8",
},
}
},
{
instance_id: "right_wrist_camera",
arguments: {
device_path: "/dev/video2",
video: {
frame_rate: 30,
resolution: {
width: 1280,
height: 720,
},
camera_encoding: "mjpeg",
topic_encoding: "rgb8",
},
}
}
]
}
]
}// This is an example launcher for a generic robot
{
peppy_schema: "launcher/v1",
deployments: [
{
source: {
name: "vla_brain:v1",
},
instances: [
{
instance_id: "ai_brain",
bindings: {
torso_camera: "torso_camera",
left_wrist_camera: "left_wrist_camera",
right_wrist_camera: "right_wrist_camera",
robot_controller: "the_controller"
}
}
],
},
{
source: {
name: "robot_backbone",
tag: "v1"
},
instances: [
{
instance_id: "the_controller",
bindings: {
left_robot_arm: "the_left_arm",
right_robot_arm: "the_right_arm"
}
}
]
},
{
source: {
name: "robot_arm:v1",
},
instances: [
{
instance_id: "the_right_arm",
},
{
instance_id: "the_left_arm",
}
]
},
{
source: {
name: "depth_camera:v1",
},
instances: [
{
instance_id: "torso_camera",
arguments: {
device_path: "/dev/video0",
depth: {
frame_rate: 30,
resolution: {
width: 1280,
height: 720,
},
depth_format: "z16",
depth_units_m: 0.001,
},
}
}
]
},
{
source: {
name: "uvc_camera:v1",
},
instances: [
{
instance_id: "left_wrist_camera",
arguments: {
device_path: "/dev/video1",
video: {
frame_rate: 30,
resolution: {
width: 1280,
height: 720,
},
camera_encoding: "mjpeg",
topic_encoding: "rgb8",
},
}
},
{
instance_id: "right_wrist_camera",
arguments: {
device_path: "/dev/video2",
video: {
frame_rate: 30,
resolution: {
width: 1280,
height: 720,
},
camera_encoding: "mjpeg",
topic_encoding: "rgb8",
},
}
}
]
}
]
}Output nodes
Your robot stack
Why robotics teams choose Peppy
Node-Based Robot Architecture
Define your robot stack as modular nodes — cameras, lidar, AI brains, and servo controllers — connected through a simple configuration file.
From Prototype to Production
Deploy robot software that scales from a single prototype to a fleet of robots. Peppy handles orchestration, monitoring, and updates.
Multi-Language Support
Write robot nodes in Python or Rust. Peppy connects them seamlessly with low-latency inter-process communication.
Built for Performance
Peppy is written in Rust for maximum throughput and minimal resource usage. Run more nodes on less hardware without sacrificing reliability.