GTC Europe Live Blog: What is Level 5 Autonomous Motorsport?
One of the talks at GTC EU today is titled ‘What is Level 5 Autonomous Motorsport?’. Live blogging time!
Vik
MSI Announces the X399 SLI Plus: Budget Threadripper
This week MSI has announced the availability of a new motherboard built for Threadripper: the X399 SLI Plus. MSI says the SLI Plus is an optimized workstation motherboard built for designers. Like the X399 Gaming Pro Carbon, it uses heavy plated heatsinks and ‘Military Class VI’ components. Although MSI is aiming at the professional market, they have still added plenty of features for gamers and enthusiasts as well, given the overlap in requirements.
The MSI X399 SLI Plus
As with other X399 boards, the MSI X399 SLI Plus uses eight total memory slots, although these are not reinforced. This configuration allows for up to 128GB of RAM in a quad channel setup. MSI uses their DDR4 Boost technology on the SLI Plus and lists memory speed support up to DDR4-3600+.
Power delivery is handled by a fully digital 13 phase VRM which looks quite similar to the Gaming Pro Carbon AC. Per the Military Class VI specs, it uses Titanium chokes and ‘dark’ capacitors. We cannot confirm by the pictures, however, it is likely using the same DrMOS ICs found on the Pro Carbon. Power is fed to the VRMs by two 12V CPU leads (one is optional) located in the upper left-hand corner of the board. The SLI Plus has a full two character debug LED as well as a simplified four LED debug system with LED’s for Boot, VGA, DRAM, and CPU.
The SLI Plus has a total of six PCIe slots: two PCIe 2.0 x1 slots and four full-length PCIe 3.0 slots. The two main GPU slots, capable of running x16/x16 if they are the only ones populated, are reinforced with MSI’s Steel Armor to support heavy video cards and prevent potential damage to the slot. The motherboard supports 4-Way NVIDIA SLI and 4-Way AMD Crossfire technologies.
Gallery: MSI X399 SLI Plus Gallery
For storage, the SLI Plus has a total of eight SATA ports fed from the chipset, and has the same physical location and orientation of the Pro Carbon; six horizontal and two vertical. There are a total of three PCIe 3.0 x4 M.2 slots which get their lanes from the CPU. Two of the M.2 slots support up to 80mm drives, while the middle slot can handle up to 110mm modules. Only the top M.2 slot has a heatsink for cooling down the installed M.2 module. U.2 support does not make it to the SLI Plus.
The audio side of the house is managed by a Realtek ACL1220 codec working in conjunction with MSI’s Audio Boost 4 suite. While the Nahimic software package normally found on the gaming products does not make its way here, the SLI Plus uses separate audio layers for left and right channels, de-pop protection, Chemi-Con audio capacitors, EMI shielding and board separation, and a dedicated headphone amplifier which auto-detects impedance (use up to 600Ω).
As far as the overall aesthetic, MSI uses a black PCB and color scheme and lets the integrated RGB LEDs fit whatever theme a builder has in mind. LEDs make it on the back panel IO shroud, chipset heatsink, and a strip found on the back of the board under the SATA ports. Additional RGB LED strips can be added via the two onboard RGB headers. One is for a rainbow strip, while the other for general RGB; both are controlled by MSI’s Mystic Light software.
Pricing was not listed, but we do expect the SLI Plus to come in under the Gaming Pro Carbon. Previous HEDT SLI Plus motherboards have often been the cheapest available, and it would be abnormal if this board was different. We should see these available for purchase soon.
| MSI X399 SLI PLUS | |
| Warranty Period | 3 Years |
| Product Page | Link |
| Price | N/A |
| Size | ATX |
| CPU Interface | TR4 |
| Chipset | AMD X399 |
| Memory Slots (DDR4) | Eight DDR4 Supporting 128GB Quad Channel Up to 3600 MHz (OC) Supports ECC UDIMM (in non-ECC mode) |
| Network Connectivity | 1 x Intel Gigabit LAN controller |
| Onboard Audio | Realtek ALC1220 |
| PCIe Slots for Graphics (from CPU) | 4 x PCIe 3.0 x16 |
| PCIe Slots for Other (from Chipset) | 2 x PCIe 2.0 x1 |
| Onboard SATA | 8 x Supporting RAID 0/1/10 |
| Onboard SATA Express | None |
| Onboard M.2 | 3 x PCIe 3.0 x4 – NVMe or SATA |
| Onboard U.2 | None |
| USB 3.1 | 1 x Type-C (ASMedia) 1 x Type-A (ASMedia) 1 x Internal Header |
| USB 3.0 | 4 x USB 3.0 |
| USB 2.0 | 2 x Back Panel 2 x Headers |
| Power Connectors | 1 x 24-pin ATX 2 x 8-pin CPU |
| Fan Headers | 1 x CPU (4-pin) 1 x Water Pump (4-pin) 4 x System Fan (4-pin) |
| IO Panel | 1 x Clear CMOS button 1 x BIOS FLASHBACK+ button 1 x PS/2 keyboard/mouse combo port 2 x USB 2.0 Type-A ports 8 x USB 3.0 Type-A ports 1 x LAN (RJ-45) 1 x USB 3.1 Type-A port 1 x USB 3.1 Type-C port 5 x Audio Jacks 1 x Optical S/PDIF OUT connector |
Related Reading:
- AMD Threadripper X399 Motherboard Overview: A Quick Look at Seven Products
- The AMD Ryzen Threadripper 1950X and 1920X Review: CPUs on Steroids
- AMD Launches NVMe RAID Support for Ryzen Threadripper Platform
- Retesting AMD Ryzen Threadripper’s Game Mode: Halving Cores for More Performance
NVIDIA Announces Drive PX Pegasus at GTC Europe 2017: Level 5 Self-Driving Hardware, Feat. Post-Volta GPUs
At GTC Europe 2017 in Germany, NVIDIA today has announced the Drive PX Pegasus, a new entry to the Drive PX family of computing modules for self-driving cars. Building off of the previous Drive PX family members, the Driver PX Pegasus is intended to be the next step in self-driving hardware by being the company’s first Level 5 system, meaning it’s capable of supporting fully automated driving for fully autonomous vehicles. Put succinctly, this is the holy grail of what NVIDIA has been building towards over the last few years.
The Drive PX Pegasus is very much a forward-looking product. While NVIDIA is announcing it today, they won’t even have dev kits available until later next year, and any kind of commercial release is farther off still. Consequently, the specifications for Drive PX Pegasus are equally forward looking: the board features two unannounced post-Volta next-generation discrete GPUs, which will be doing most of the heavy lifting. To put this in context, NVIDIA has only just started shipping Big Volta (GV100) for compute products, and smaller scale Volta GPUs are not expected until 2018, so we’re looking at something quite far into the future. Meanwhile, rounding out the package and serving as the hearts of the Pegasus will be a pair of NVIDIA’s upcoming Xavier SoCs, which combine an integrated Volta GPU (complete with tensor cores) with an unnamed octa-core ARM CPU design.
With the Drive PX Pegasus, NVIDIA is targeting commercial applications in robo-taxis and driverless long-haul. It will, in turn, coexist with the to-be-launched Drive PX Xavier, NVIDIA’s previously-announced small-scale self-driving hardware that essentially packs Drive PX 2’s capabilities into a small 30W board and features a single Xavier SoC. Drive PX Pegasus, by contrast, is essentially a next-generation Drive PX 2, utilizing much more powerful SoCs and GPUs than before.
NVIDIA has stated that Drive PX Pegasus will be air-cooled, although it’s likely to be right at the edge of what’s reasonable. WIth a 500W TDP, NVIDIA is pushing the envelope on performance in part by packing so much hardware into a single board. Not that a car will have any kind of trouble delivering that kind of power, of course, but it’s quite the interesting change in car design when we’re talking about significant amounts of power being dedicated to a non-mechanical operation.
Getting back to the tech specs, of the few details given, the Drive PX Pegasus possesses 320 TOPS of AI inferencing and combined memory bandwidth of over 1 TB/s. Designed for ASIL D certification, PX Pegasus automotive input/outputs include up to 16 cameras (6 of which are lidar). In addition, next-generation GPUs include NVLink and will come in the SXM2 mezzanine form factor also seen with Tesla V100 (as opposed to MXM like the PX 2). While TSMC remains the foundry of choice, the exact process node was not disclosed, although for the Xavier SoC NVIDIA previously announced that they were using 16 FF+. Particularly for the next-generation GPUs, no other information was given, despite being the first official and public reference to any architecture past Volta; on that note, NVIDIA has not yet revealed any detail of consumer Volta.
At 320 TOPS for a dual GPU plus dual Xavier system, this works out at 130 TOPS per GPU (the Xavier SoCs are already quoted as 30 TOPS at 30W). Meanwhile on power consumption, with Xavier already speced for 30W each, this means we’re looking at around 220W for each GPU. In other words, these are high-end Gx102/100-class GPU designs. Coincidentally, this happens to be very close to the TOPS performance of the current Volta V100, which is rated for 120 TOPS. However the V100 has a 300W TDP versus an estimated 220W TDP for the GPUs here, so you can see where NVIDIA wants to go with their next-generation design.
| NVIDIA DRIVE PX Specification Comparison | |||||
| DRIVE PX Pegasus | DRIVE PX Xavier | DRIVE PX 2 | |||
| SoCs | 2x Xavier | Xavier | 2x Tegra X2 “Parker” | ||
| Discrete GPUs | 2x Post-Volta | N/A | 2x Unknown Pascal | ||
| CPU Cores | 16x NVIDIA Custom ARM | 8x NVIDIA Custom ARM | 4x NVIDIA Denver & 8x ARM Cortex-A57 |
||
| GPU Cores | 2x Xavier Volta iGPU & 2x Post-Volta dGPUs |
Xavier Volta iGPU (512 CUDA Cores) |
2x Parker Pascal iGPU & 2x GP104? | ||
| DL TOPS | 320 TOPS | 30 TOPS | N/A | ||
| FP32 TFLOPS | N/A | N/A | 8 TFLOPS | ||
| TDP | 500W | 30W | 250W | ||
Rounding out the specifications, NVIDIA has told us that Pegasus units will be air cooled, not liquid cooled like the 250W Drive PX2 systems. Meanwhile as part of the Pegasus system, NVIDIA has stated that these also need to support failover, but how the failover occurs (either by NVIDIA hardware or other) is up to separate customers in their designs.
In terms of availability, PX Pegasus development kits will be available for select automotive partners in the second half of 2018. However it was not clear if this sampling involved full dev kits with prototype-grade silicon, or an emulation-style system with current-generation hardware to kickstart development. Otherwise, given the long testing and validation cycles in the automotive industry, Drive PX Pegasus may not show up in vehicles for several more years. Last year NVIDIA announced their Level 4 autonomous hardware, but we are only now seeing Level 3 vehicles being showcased in early development for deployment, emphasizing that embedded time scales are much longer than consumer hardware. NVIDIA has stated that their automotive platforms are designed for typical embedded-level longevity, in this case their ‘minimum’ is a decade of use.
Finally, it’s worth noting that this year’s conference is just the second annual GTC in Europe, and going forward NVIDIA has confirmed that GTC Europe will be NVIDIA’s primary automotive-related event. In that vein, NVIDIA has also announced a partnership with Deutsche Post DHL Group and ZF in testing autonomous delivery trucks, starting in 2018.
GTC Europe: NVIDIA Keynote Live Blog (10am CEST, 9am UTC)
Stay tuned for coverage of NVIDIA’s Keynote at GTC Europe. Heading up the presentation is NVIDIA CEO, Jensen Huang. GTC Europe is now NVIDIA’s key automotive event due to its location in Germany, so expect some automotive announcements and relationship disclosures with major car manufacturers.
NVIDIA Releases 387.92 WHQL Game Ready Driver: Fast Sync for SLI
Ahead of tomorrow’s launch of Middle-earth: Shadow of War, today NVIDIA has released driver version 387.92, featuring support for four Game Ready titles: Middle-earth: Shadow of War, The Evil Within 2, Forza Motorsport 7, and ARKTIKA.1 (VR). Thi…