Jetson Thor: This is the new Robotics and Artificial Intelligence platform with GPU Blackwell and up to 2070 Tflops
NVIDA has launched its last platform for advanced artificial and robotic intelligence systems: Nvidia Jetson Thor.
The Nvidia Jetson Thor will arrive in 2 “flavors”: Nvidia Jetson T5000 and Jetson T4000. The first will be the most powerful, with a GPU NVIDIA BLACKWELL From 2,560 CUDA CORES AND 96 TENSOR CORES, accompanied by a processor with 14 CABLES ARM NEOVERY-V2AE to 2.6 GHz with 1 MB of L2 cache per each nucleus and 16 MB of L3 cache for the entire system. The Jetson T5000 is accompanied by 128 GB of LPDDR5X memory with a bandwidth of 273 GB/s.
In total, it offers 2,070 power tflops with sparsity.
On the other hand, Nvidia Jetson T4000 promises 1,200 power tflops. To do this, the NVIDIA Blackwell GPU stays at 1,525 cores, with 64 Tensor Core, while the processor drops to 12 ARM Neote-V3AE nuclei operating at 2.6 GHz.
In this model, RAM is 64 GB, also LPDDR5X and also with 273 GB/s bandwidth.
The Jetson Agx Thor development kit combines the Jetson T5000 with all types of connectivity
In addition, Nvidia has launched a Development kit called Jetson Agx Thor based on the Jetson T5000 and accompanied by different connectivity options.
This kit integrates an HSB camera, two m.2 slots for SSD and other devices, one of them with 5 x4 PCIe and another PCie Gen 5 x1. It does not lack two USB-A 3.1 ports, two USB-C 3.1, or HDMI 2.0 By Displayport 1.4a video outputs. WSPF, M.2 connectors for WiFi, NVIE, Pins or audio panels end up completing much of the connectivity options of the Jetson Agx Thor.
For the network connection we have an RJ45 with 5 Gbps Ethernet and a QSFP28 compatibble with four 25 GBE ports. All this in a small team of 243.19 x 112.40 x 56.88 mm and a TDP that goes from 40W to 130W.
The kit will be sold for a price around $ 3,500.
Technical Specifications of Nvidia Jetson Thor
| Specification | Jetson Agx Thor Development Kit | Jetson T5000 | Jetson T4000 |
|---|---|---|---|
| IA | 2070 Tflops (FP4 – Spell) | 1200 Tflops (FP4 – ESCASE) | 1200 Tflops (FP4 – ESCASE) |
| GPU | GPU NVIDIA BLACKWELL 2560 cores with 96 fifth generation tensor cores Multi-instance GPU (MIG) with 10 TPCS |
– | GPU Nvidia Blackwell of 1536 cores with 64 fifth generation tensioner cores Multi-instance GPU (MIG) with 6 TPCS |
| Maximum GPU frequency | 1.57 GHz | – | – |
| CPU | CPU ARM® NEOVERSE ™ V3AE of 64 bit with 14 nuclei 1 MB of L2 cache per nucleus 16 MB of shared L3 cache |
– | CPU ARM® NEOVERSE ™ V3AE of 64 bit with 12 cores 1 MB of L2 cache per nucleus 16 MB of shared L3 cache |
| Maximum CPU frequency | 2.6 GHz | – | – |
| Vision Accelerator | – | 1x PVA V3 | – |
| Memory | 128 GB LPDDR5X of 256 bit 273 GB/s |
– | 64 GB LPDDR5x of 256 bit 273 GB/s |
| Storage | 1 TB NVME M.2 KEY M | SUPORTA NVME via pcie Supports SSD via USB3.2 |
– |
| Video decoding | 6 × 4kp60 (h.265) 12 × 4kp30 (h.265) 24 × 1080p60 (h.265) 50 × 1080p30 (h.265) 48 × 1080p30 (h.264) 6 × 4kp60 (h.264) |
4 × 8kp30 (h.265) 10 × 4kp60 (h.265) 22 × 4kp30 (h.265) 46 × 1080p60 (h.265) 92 × 1080p30 (h.265) 82 × 1080p30 (h.264) 4 × 4kp60 (h.264) |
– |
| Camera | HSB camera via slug QSFP USB camera |
Up to 20 cameras via HSB | Up to 6 cameras through 6 Mipi CSI-2 lines Up to 32 cameras using virtual channels |
| PCIE | M.2 Key M with X4 Pcie Gen5 M.2 Key E With X1 Pcie Gen5 |
Port Raíz only – C1 (X1) and C3 (X2) | Root port + end point – C2 (X1), C4 (X8), and C5 (X4) |
| USB | 2 × USB-A (3.2 GEN2) 2 × USB-C (3.1) |
X1HC controller with integrated Phy (up to 2 × USB 3.2, 4 × USB 2.0) | – |
| Grid | 1 × RJ45 5gbe connector 1 × QSFP28 (4 × 25 GBE) |
4 × 25 Gbe | 3 × 25 Gbe |
| Screen | 1 × HDMI 2.0b 1 × Displayport 1.4a |
4 × HDMI2.1 shared Displayport Vesa 1.4a – HBR2, MST |
– |
| Other i/o | QSFP connector Expansion slot M.2 Key E (Wi-Fi/BT, X1 PCIE, USB2.0, I2C1, I2S1) M.2 Key M connector (NVME for storage) 2 × 12 pins can head 2 × 13 pins jtag connector 6 × 6 pins automation head LED 2 -pin backup battery connector |
5 × I2S/2 × Audio Hub (AHUB), 2 × DMIS, 4 × UART, 4 × Can, 3 × SPI, 13 × I2C, 6 × PWM outputs | 5 × I2S/2 × Audio Hub (AHUB), 2 × DMIS, 4 × UART, 3 × SPI, 13 × I2C, 6 × PWM outputs |
| Feeding | 40 W – 1130 W. | 40 W–30 W | 40 W–70 W |
| Dimensions | 243.19 mm × 112.40 mm × 56.88 mm Thermal transfer plate (TTP) and optional fan or dissipator |
100 mm × 87 mm B2B connector of 699 pins Thermal transfer plate (TTP) integrated with Heatpipe |
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