What was once considered science fiction has currently impacted just about every industry. We're talking about AI.
Autonomous machines are using AI to solve some of the world's most challenging tasks. The NVIDIA® Jetson™ platform gives you the means to develop and deploy AI-powered robots, drones, IVA applications, and other autonomous machines that think for themselves.
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Robotics

Enable robots and other autonomous machines to perceive, move in, and influence the world around them.

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Machine vision

Use AI to quickly and accurately detect defects and ensure the highest product quality with autonomous optical inspection (AOI).

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KIoT

The power of AI across a wide range of IoT gateways and peripherals enables local processing of sensors and data.

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Intelligent video analysis

Get actionable insights in real time by streaming video analytics.

THE JETSON FAMILY

For AI in the periphery or for autonomous machines

NVIDIA Jetson modules provide accelerated computing performance at different power levels and price points for a wide range of autonomous applications. From manufacturing to construction, healthcare to delivery, the NVIDIA Jetson platform delivers unmatched performance, energy efficiency, and ease of development.
Learn more about the Jetson family.
Jetson AGX Orin-Serie

Jetson AGX Orin Series

Up to 275 TOPS
15-60 W
​​​​​​​100 mm x 87 mm
JETSON ORIN NX-SERIE
Available from September 2022

Jetson Orin NX Series

Up to 100 TOPS
10-25 W
70 mm x 45 mm
Module Vergleichen
Jetson Nano
Jetson TX2 Series
Jetson Xavier NX Series
Jetson AGX Xavier Series
Jetson Orin NX Series
Jetson AGX Orin Series
TX2 NX
TX2 (4GB)
TX2
TX2i
Jetson Xavier NX (16 GB)
Jetson Xavier NX
Jetson AGX Xavier (64 GB)
Jetson AGX Xavier
Jetson AGX Xavier Industrial
Jetson Orin NX 8 GB
Jetson Orin NX 16 GB
Jetson Orin AGX 32 GB
Jetson Orin AGX 64 GB
AI Performance
472 GFLOPS
1.33 TFLOPS
1.26 TFLOPS
21 TOPS
32 TOPS
30 TOPS
70 TOPS
100 TOPS
200 TOPS
275 TOPS
GPU
NVIDIA Maxwell™ GPU with 128 cores
NVIDIA Pascal™ GPU with 256 cores
NVIDIA Volta™ GPU with 384 cores and 48 tensor cores
NVIDIA Volta GPU with 512 cores and 64 Tensor cores
NVIDIA Volta GPU with 512 cores and 64 Tensor cores
NVIDIA Ampere GPU with 1792 cores and 56 Tensor cores
NVIDIA Ampere GPU with 2048 cores and 64 Tensor cores
CPU
Quad-core ARM® Cortex®-A57 MPCore processor
Dual-core Denver 2 64-bit CPU and quad-core Arm Cortex-A57 MPCore processor
6-core NVIDIA Carmel Arm®v8.2 64-bit CPU 6 MB L2 + 4 MB L3
8-core NVIDIA Carmel Arm®v8.2 64-bit CPU 8 MB L2 + 4 MB L3
8-core NVIDIA Arm® Cortex A78AE v8.2 64-bit CPU, 1.5 MB L2 + 4 MB L3
6-core NVIDIA Arm® Cortex A78AE v8.2 64-bit CPU2
MB L2 + 4 MB L3
8-core NVIDIA Arm® Cortex A78AE v8.2 64-bit CPU2
MB L2 + 4 MB L3
12-core NVIDIA Arm® Cortex A78AE v8.2 64-bit CPU3
MB L2 + 6 MB L3
DL accelerator
-
-
2x NVDLA
2x NVDLA
1x NVDLA v2
2x NVDLA v2
2x NVDLA v2
Vision Accelerator
-
-
2x PVA
2x PVA
1 x PVA v2
1 x PVA v2
Safety Cluster Engine
-
-
-
-
2x Arm Cortex-R5 in Lockstep
-
-
-
-
Working memory
4 GB 64-bit LPDDR4 25.6 GB/s
4 GB 128-bit LPDDR4 51.2 GB/s
8 GB 128-bit LPDDR4 59.7 GB/s
8 GB 128-bit LPDDR4 (ECC Support) 51.2 GB/s
16 GB 128-bit LPDDR4x 59.7 GB/s
8 GB 128-bit LPDDR4x 59.7GB/s
64 GB 256-bit LPDDR4x 136.5 GB/s
32 GB 256-bit LPDDR4x 136.5 GB/s
32 GB 256-bit LPDDR4x (ECC support) 136.5 GB/s
8 GB 128-bit LPDDR5102
.4 GB/s
16 GB 128-bit LPDDR5102
.4 GB/s
32 GB 256-bit LPDDR5204
.8 GB/s
64 GB 256-bit LPDDR5204
.8 GB/s
Data storage
16 GB eMMC 5.1
16 GB eMMC 5.1
32 GB eMMC 5.1
32 GB eMMC 5.1
16 GB eMMC 5.1
32 GB eMMC 5.1
64 GB eMMC 5.1
(Supports external NVMe)
64 GB eMMC 5.1
Camera
Up to 4 cameras12
lanes MIPI CSI-2D-PHY
1.1 (up to 18 Gbit/s)

Up to 5 cameras
(12 via virtual channels)
12 lanes MIPI CSI-2D-PHY
1.2 (up to 30 Gbit/s)


Up to 6 cameras
(12 via virtual channels)
12 lanes MIPI CSI-2D-PHY
1.2 (up to 30 Gbit/s)


Up to 6 cameras
(24 via virtual channels)
14 lanes MIPI CSI-2D-PHY
1.2 (up to 30 Gbit/s)


Up to 6 cameras
(36 via virtual channels)
16 lanes MIPI CSI-2 | 8 lanes SLVS-ECD-PHY
1.2 (up to 40 Gbit/s)
C-PHY 1.1 (up to 62 Gbit/s)



Up to 6 cameras
(36 via virtual channels)
16 lanes MIPI CSI-2D-PHY
1.2 (up to 40 Gbit/s)
C-PHY 1.1 (up to 62 Gbit/s)



Up to 4 cameras (8 via virtual channels*
)8 lanes MIPI CSI-2D-PHY
1.2. (up to 20 Gbit/s)

Up to 6 cameras (16 via virtual channels*
)16 lanes MIPI CSI-2D-PHY 2
.1 (up to 40 Gbit/s) | C-PHY 2.0 (up to 164 Gbit/s)

Video encoding
1x 4K30 (H.265
)2x 1080p60 (H.265)
1x 4K60 (H.265
)3x
4K30
(H.265)
4x 1080p60 (H.265)

2x 4K60 (H.265
)10x 1080p60 (H.265)
22x 1080p30 (H.265)

4x 4K60 (H.265
)16x 1080p60 (H.265)
32x 1080p30 (H.265)

2x 4K60 (H.265
)12x 1080p60 (H.265)
24x 1080p30 (H.265)

1x 4K60 (H.265
)3x 4K30 (H.265)
6x 1080p60 (H

.

265)
12x 1080p30 (H.265)


1x 4K60 (H.265
)3x 4K30 (H.265)
6x 1080p60 (H

.

265)
12x 1080p30 (H.265)


2x 4K60 (H.265
)4x 4K30 (H.265)
8x 1080p60 (H.265)
16x 1080p30 (H.265)


Video decoding
1x 4K60 (H.265
)4x 1080p60 (H.265)
2x 4K60 (H.265
)7x 1080p60 (H.265)
14x 1080p30 (H.265)

2x 8K30 (H.265
)6x 4K60 (H.265)
22x 1080p60 (H.265)
44x 1080p30 (H.265)


2x 8K30 (H.265
)6 x 4K60 (H.265)
26x 1080p60 (H.265)
52x 1080p30 (H.265)


2x 8K30 (H.265
)4x 4K60 (H.265)
18x 1080p60 (H.265)
36x 1080p30 (H.265)


1x 8K30 (H.265
)2x 4K60 (H
.
265)
4x 4K30 (H.265)
9x 1080p60 (


H.265


)
18x 1080p30 (H.265)



1x 8K30 (H.265
)2x 4K60 (H
.
265)
4x 4K30 (H.265)
9x 1080p60 (


H.265


)
18x 1080p30 (H.265)



1x 8K30 (H.265
)3x 4K60 (H.265)
7x 4K30 (H

.

265)
11x 1080p60 (


H.


265)
22x 1080p30 (H.265)



PCIe
1 x4
(PCIe 2nd generation)
1 x1 + 1 x2
(2nd generation PCIe)
1 x1 + 1 X4 OR 1 x1 + 1 x1 + 1 x2
(2nd generation PCIe)
1 x1 (PCIe Gen3) + 1 x4
(PCIe 4th generation)
1 x8 + 1 x4 + 1 x2 + 2 x1
(4th generation PCIe, root port and endpoint)
1 x4 + 3 x1
(4th generation PCIe, root port and endpoint)
Up to 2 x8 + 1 x4 + 2 x1
(4th generation PCIe, root port and endpoint)
Networks
10/100/1000 BASE-T Ethernet
10/100/1000 BASE-T Ethernet, WLAN
10/100/1000 BASE-T Ethernet
1x GbE
1x GbE2×
10 GbE
Display
2 Multi-Mode DP 1.2/eDP 1.4/HDMI 2.
01 x 2 DSI (1.5 Gbit/s/Lane)
2 Multi-Mode DP 1.2/eDP 1.4/HDMI 2.
01 x 2 DSI (1.5 Gbit/s/Lane)
2 Multi-Mode DP 1.2/eDP 1.4/HDMI 2.
02 x 4 DSI (1.5 Gbit/s/Lane)
2 Multi-Mode DP 1.4/eDP 1.4/HDMI 2.0No
support for DSI
3 Multi-mode DP 1.4/eDP 1.4/HDMI 2.0No
support for DSI
1x 8K60 multimodal DP 1.4a (+MST)/eDP 1.4a/HDMI 2.1
1x 8K60 multimodal DP 1.4a (+MST)/eDP 1.4a/HDMI 2.1
Power
5 W | 10 W
7.5 W | 15 W
10 W | 20 W
10 W | 15 W | 20 W
10 W | 20 W | 30 W
20 W | 40 W
10 W | 15 W | 20 W
10 W | 15 W | 25 W
15 W | 20 W | 50 W
15 W | 30 W | 50
W Up to 60 W MAX
.
Mechanics
69.6 mm x 45 mm260-pin
SO-DIMM socket
69.6 mm x 45 mm260-pin
SO-DIMM socket
87 mm x 50 mm400-pin
connectorIntegrated
heat transfer plate

69.6 mm x 45 mm260-pin
SO-DIMM socket
100 mm x 87 mm699-pin
connectorIntegrated
heat transfer plate

69.6 mm x 45 mm260-pin
SO-DIMM socket
100 mm x 87 mm699-pin
Molex Mirror Mezz connectorIntegrated
heat transfer plate

NVIDIA ISAAC USHERS IN A NEW AGE OF
AUTONOMOUS MACHINES

NVIDIA Isaac is our new platform that delivers the power for the next generation of autonomous machines. It provides AI capabilities for robots used in manufacturing, logistics, agriculture, construction, and many other industries.
LEARN MORE
Isaac Plattform
Conveyor

COBOTS

The term cobot comes from the combination of the English words "collaboration" and "robot" and describes robots designed for direct interaction/collaboration with humans. If humans and robots share a workspace without a separating safety device, this is also referred to as human-robot collaboration (HRC).

collaborative robotics is expected to open up new possibilities for factory automation (in manufacturing processes such as assembly, packaging and palletizing). Ideally, such collaborative robotics applications should be able to combine the advantages of humans (flexibility, judgment, creativity, experience, intuition and overview) and the advantages of robots (endurance, precision and strength). A specially designed cobot (lightweight robot) is often used in collaborative robotics. Alternatively, it is possible to use specially safeguarded industrial robots for MRK.
Excavator

Robust Jetson systems

Robotics and automation are increasingly used in manufacturing, agriculture, construction, energy, government and other industries. These applications often require advanced temperature, shock and vibration resistance and are designed to operate in harsh environments. The NVIDIA Jetson platform offers several options for rugged applications.

The Stories Behind The Innovation

Rail

Rail Vision provides AI-powered safety for rail lines

Rail Vision, an Israel-based startup, is using NVIDIA Jetson to develop object recognition and classification systems for the global rail industry.
Free Power Pole scanned

Noteworthy AI uses smart cameras to track utility resources

Noteworthy AI has equipped FirstEnergy's trucks with smart cameras. The pilot project shows how edge computing can monitor millions of utility poles.
Speech waves

HuEx uses AI for the drive-in experience

Toronto-based startup HuEx is piloting a conversational AI assistant for drive-ins to support several popular Canadian fast-food chains.