Although NVIDIA’s original plans for Tegra haven’t quite panned out as NVIDIA wanted to – at this point even tablet wins are few and far between – the company has continued to invest in developing their line of ARM SoCs and products built around them such as the SHIELD platform. One of the less public investments NVIDIA has put into Tegra has been on the development kit side; starting with Tegra K1 in 2014, NVIDIA began releasing a full development kit for the Tegra platform. Dubbed Jetson, the TK1 Jetson was a full commercial off the shelf Tegra system containing the SoC, memory, storage, a Linux distribution pre-configured for the board, and all of the necessary I/O interfaces a developer could want. With Jetson NVIDIA was looking to bootstrap the development of products around Tegra K1 by giving developers the means to easily prototype their devices around the dev board, before going into traditional full production.

However since it was a full COTS implementation of Tegra K1, something unexpected happened for NVIDIA: developers started using Jetson TK1 outright as a production board. For small developers doing similarly small product runs, or just projects that didn’t require a highly integrated solution (e.g. embedded systems as opposed to mobile devices), some developers would just stick with Jetson since it meant they could skip system hardware development and focus on software and/or peripherals.

Moving on to the present, after announcing their latest-generation Tegra X1 SoC at CES 2015 and integrating it into some of their own products over the past several months (Drive PX, SHIELD Console, etc) NVIDIA is now rolling out an updated Jetson product based on the X1. The latest Jetson, which NVIDIA is appropriately calling the Jetson TX1, is designed to refresh the platform with the more powerful Tegra X1 SoC and its full ARMv8 AArch64 CPU + Maxwell GPU capabilities. At the same time however, based on their unexpected success as a COTS product, NVIDIA has redesigned Jetson to better serve the COTS market while also continuing to serve the Tegra developer kit market.

The end result is that for its TX1 iteration Jetson has been split in two, and now comes as stand-alone compute module with a separate carrier board for I/O. The Jetson TX1 module itself – which is for all practical definitions Jetson TX1 in its entirety – contains a full working TX1 system. NVIDIA tells us that Jetson TX1 should offer 2-3 times the performance of Tegra K1, particularly where the GPU is involved, and while we don’t have the CPU clockspeed some quick math on NVIDIA’s 1 TFLOPS claim puts the GPU clockspeed at 975MHz (assuming FP16) with the complete module rated for approximately 10W.

Otherwise along with the TX1 SoC, NVIDIA has attached 4GB of LPDDR4-3200, a 16GB eMMC flash module, a 2x2 802.11ac + Bluetooth wireless radio, and a Gigabit Ethernet controller. By providing a complete TX1 system on a board a bit smaller than a credit card, NVIDIA is looking to further the COTS usage of Jetson by giving product developers a smaller dedicated board specifically designed for COTS usage and quick integration into shipping products.

Meanwhile I/O connectivity is now provided by a separate board, be it a product-specific developer design or the official Jetson TX1 carrier board, with the Jetson TX1 using a 400 pin board-to-board connector to attach to other devices. Similar to the original Jetson TK1, the official Jetson TX1 carrier board is designed to offer TX1 as a development kit and contains a full suite of I/O including Ethernet, WiFi + BT antenna connectors, HDMI, USB, M.2, a large number of GPIOs, a camera serial interface with 5MP camera, and a PCIe 2.0 x4 slot. Relative to Jetson TK1, the newer TX1 includes more GPIOs, the camera, a full-size PCIe interface, and it can now work from a more traditional 3.3v power supply.

Moving on, not unlike TX1’s discrete GPU counterparts, with the Jetson TX1 platform NVIDIA is strongly focusing on machine learning and autonomous machines. The company believes that machine learning is the next great frontier for GPUs – both discrete and integrated – and is capitalizing on neural net research that has shown GPUs to be capable of both quickly training and quickly executing neural nets. This is an important differentiator for NVIDIA given their strengths in GPU development (both from a tech perspective and overall SoC GPU performance), and because it is a market that they feel no one else is truly aiming for (or at least competitive in) at this time. The Drive PX system already uses TX1 on this basis, and now with Jetson TX1 NVIDIA is looking to extend that relationship to a much wider group of developers.

Similar to Jetson TK1 then, Jetson TX1 comes with a suite of software and SDKs in order to simplify the development process and to give developers a good starting point for implementing machine learning. Along with the Linux for Tegra environment, NVIDIA is including their cuDNN neural network library and VisionWorks computer vision toolkit. Coupled with other APIs and software packages such as OpenVX and various neural network systems, NVIDIA is aiming to make the Jetson SDK an ecosystem in and of itself.

Finally, along with today’s announcement NVIDIA also unveiled the pricing and availability of the Jetson TX1 module and the full development kit. NVIDIA will begin taking pre-orders for the dev kit on the 12th with kits to start shipping as soon as the 16th, and will sell for $599 retail/$299 education. The dev kits will contain the module, carrier board, camera board, a heatsink-fan for cooling (which we’re told is grossly overpowered for TX1), and all of the necessary cables. Meanwhile the stand-alone Jetson TX1 module for use in commercial products will go on sale in Q1 of 2016, priced at $299 in 1K quantities.

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  • Yojimbo - Tuesday, November 10, 2015 - link

    Maybe they should link to I Effing Love Science for diversity's sake.
  • ToTTenTranz - Wednesday, November 11, 2015 - link

    No OpenCL?
  • HighTech4US - Wednesday, November 11, 2015 - link

    Only AMDroids care about OpenCL. No one else does.
  • Anato - Wednesday, November 11, 2015 - link

    Last picture tells it a lot. Big heatsink and Fan. Ok for dev board but not so practical in small custom battery powered device.
  • HighTech4US - Wednesday, November 11, 2015 - link

    Quote: heatsink-fan for cooling (which we’re told is grossly overpowered for TX1)

    I'm sure charlie will take the picture and calculate that the X1 SOC uses 50-60 watts like he did with the original Jetson power brick.
  • Ryan Smith - Wednesday, November 11, 2015 - link

    And just to add to that, NVIDIA tells us that the fan shouldn't even kick on under load in a normal room temperature environment. The giant HSF is more for dealing with heat in tight spaces if someone uses the dev kit in a stand-alone device.
  • Shadowmaster625 - Wednesday, November 11, 2015 - link

    How does $25 worth of silicon balloon into $600?
  • HighTech4US - Wednesday, November 11, 2015 - link

    Ask Apple
  • Morawka - Saturday, November 14, 2015 - link

    R&D dude. Think of all those people who worked on this product. Had to be at least 25 people. Engineers, Technical Writers, Logistics, Managers, etc...

    Each of those people have a salary, lets say $50,000 a year ( and thats low for this field). Additionally, money is needed to pay for their benifits such as health insurance, Dental, 401K)

    Besides the employee's, Huge amounts of money is needed to tool the manufacturer for the designs, and find a distributer and pay for shipping to end user.

    Add all this stuff up and the product launch cost millions. I didnt even mention the office space and utility bills these people use to make it.

    Any product launch is like this.. When you quote some simple Bill of Materials vs Cost, you don't even come close figuring the profit margin.
  • kgardas - Wednesday, November 11, 2015 - link

    ~$300 is not bad for A57 together with 4GB RAM. IMHO the cheapest board in A57/A72 performance range. Commercial price is a little bit off probably...

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