The companion single-slot X9 SPIDER VPX-S is also a “single board system” that omits the dual 100Gbps Ethernet fiber ports, the MXM site, and has dual M.2 SSDs. The -HS version also includes two additional M.2 SSD sites and a high bandwidth NVIDIA GPGPU co-processor MXM site that doubles as a PCIe bus extender. Even though they’re SOSA aligned and interoperable, we also provide the industry’s highest-performance features and a path for system-level technology refresh with CPU and pinout upgrades that avoid backplane re-spins.”īased upon Intel’s Tiger Lake-H 8 core CPU, X9 SPIDER VPX-HS is a two-slot “single board system” equipped with sealed, quad 40Gbps USB4 Type-C ports and dual 100Gbps Ethernet ports, which collectively provide 360Gbps of data pipelines to other boards, systems and sensors. “Our X9 SPIDER VPX-HS and VPX-S modules provide 455Gbps of beyond-the-backplane I/O, patented cooling, sealed USB4/Thunderbolt4™ and scalability. “The upside of OpenVPX and SOSA is interoperability and the spirit of the DoD’s push towards a modular open standards approach (MOSA), but the backplane can also be restrictive for I/O, bandwidth and upgradeability,” says Ben Sharfi, GMS founder and chief architect. One GMS module set literally replaces an entire chassis worth of OpenVPX modules.
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Also available are up to four on-board SSDs for embedded RAID data storage, two PCIe-Mini sites, plus an add-in NVIDIA ® RTX5000GPGPU artificial intelligence (AI) co-processor and a 12VDC-only scalable architecture that transcends the restrictive OpenVPX bus. Unique to these modules is a massive I/O bandwidth via multiple sealed USB4 and 100Gbit Ethernet ports-up to 455Gbps-that frees designers from the bottlenecks of the OpenVPX backplane, yet they remain interoperable with other industry vendors’ boards and systems. Both products are intended for deployed military and aerospace or rugged applications and were designed in alignment with The Open Group Sensor Open Systems Architecture (SOSA™) technical standard. Based on an Intel ® 11 th gen Tiger Lake-H 8 core Core i7 CPU with 64GB of memory, X9 SPIDER VPX boards are available in conduction- and air-cooled versions. If the image was placed in the programs Textures folder as recommended in Step 1, browse to this folder and select the image.Washington D.C., October 11, 2021–General Micro Systems today launched two MOSA-inspired 3U OpenVPX “single board systems” with more processing, storage and I/O than is available in 6U-sized boards twice the size. Select the Texture radio button or the Texture dialog panel, depending on which product you're using, and then click either Select or Browse to browse for the image you'd like to use for your custom material.Give the new material a short, descriptive Name.Right-click on the User Catalog folder and select New> Material from the contextual menu.Once the image is in a location where it will not be moved or deleted, select View> Library Browser to open the Library Browser.If the programs data folder was moved, or installed to a different file location, then navigate into the programs Preferences, select the Folders dialog panel, and use the file path under the My Data Folder heading to locate the programs data folder, along with the Textures sub-folder. Mac: /Users/ /Documents/Home Designer Data/Textures Windows: C:\Users\ \Documents\Home Designer Data\Textures The default file location of the Textures folder is listed below for each platform. Note: We highly recommend placing the image file in the programs Textures folder.
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