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"Crossfield® Technology LLC provides open architecture solutions for chassis management, real-time sensor data acquisition, digital signal processing, artificial intelligence (AI) and machine learning (ML), instrumentation control, and physics-based simulation. Our Instrumentation Gateways™ connect a wide range of devices to Intel FPGAs, can be closely-coupled to massive amounts of ultra-high-speed non-volatile storage, and use electrical and fiber optic Ethernet links to provide connectivity to high-performance enterprise and embedded computing systems. Our OpenVPX (VITA 65) Instrumentation Gateway (IG) and Solid-state Storage Module (SSM) plug-in cards (PICs) are aligned with the new Sensor Open Systems Architecture (SOSA) standard and apply the latest ultra-high-performance storage, networking and processing technologies to reduce size, weight and power (SWaP) in embedded systems. Crossfield develops Intellectual Property (IP) cores using High Level Synthesis, VHDL, and Verilog for Platform Designer that enable Direct Memory Access between Linux applications in the Hard Processing System and other IP cores in the FPGA fabric.  These cores work with a wide range of applications from networking to data acquisition to remote update of ML algorithms. We also develop the embedded Linux device drivers and device tree bindings to communicate with IP cores in the fabric. Crossfield supplies U.S.-sourced VITA 46.11 chassis management solutions conformant to the SOSA and Hardware Open System Technologies (HOST) standards that are portable across multiple implementation architectures. Our chassis management products include an Intelligent Platform Management Controller (IPMC), Chassis Management Controller (ChMC), and Chassis Manager (ChM). All Crossfield’s VPX PICs support the SOSA-aligned IPMC. Instrumentation GatewaysCrossfield's 3U and 6U OpenVPX Instrumentation Gateways are designed for SOSA and HOST conformance. The feature-rich platforms support 10/40/100G Ethernet on the Data Plane, as well as Ethernet and PCIe Gen 3/4 on the electrical and optical Expansion Planes. Implemented in a ruggedized form factor with single (3U) or dual (6U) FPGA Mezzanine Card (FMC+) slots, the modules support a broad range of data acquisition, signal processing, RF payload, software-defined radio (SDR), and processor acceleration applications. Defense, scientific and commercial applications can be quickly developed, optimized, deployed and updated using state-of-the-art methodologies and tools, including Intel's Quartus Prime Pro and Deep Learning tools, and DSP Builder with MATLAB/Simulink. Crossfield’s 3U OpenVPX Instrumentation Gateway currently features a Stratix 10 MX FPGA providing multiple teraflops (6.3 TFLOPS theoretical limit) of signal processing performance and up to 16 GB of high-bandwidth memory. Our 6U OpenVPX Instrumentation Gateway features a Stratix 10 SX FPGA with a complete real-time embedded Linux board support package. This platform has been used to demonstrate RDMA over Converged Ethernet (RoCE) between the Intel FPGA and a Mellanox 100GE R-NIC. Solid-state Storage Modules Our 3U and 6U OpenVPX Solid-state Storage Modules carry two to eight NVMe M.2 SSDs (size 2280 or 22100) and are designed for SOSA and HOST conformance. Each M.2 slot is a 4-lane PCIe Gen 3 end-point connected to an onboard PCI Express switch. The switch supports host port connections to the VPX backplane or front panel, through electrical and optical links. The SSMs support NVM Express solid-state disks from multiple sources, currently providing up to 32 TB of total storage in a 6U form factor. Optional Samtec FireFly optical engines provide fiber optic links through front panel or backplane connectors. A companion product, Crossfield’s optical PCI Express card, is available to provide connectivity between an OpenVPX module and a host computer. Crossfield® is a registered trademark of Crossfield Technology LLC."info@crossfieldtech.com

"Crossfield® Technology LLC provides open architecture solutions for chassis management, real-time sensor data acquisition, digital signal processing, artificial intelligence (AI) and machine learning (ML), instrumentation control, and physics-based simulation. Our Instrumentation Gateways™ connect a wide range of devices to Intel FPGAs, can be closely-coupled to massive amounts of ultra-high-speed non-volatile storage, and use electrical and fiber optic Ethernet links to provide connectivity to high-performance enterprise and embedded computing systems. Our OpenVPX (VITA 65) Instrumentation Gateway (IG) and Solid-state Storage Module (SSM) plug-in cards (PICs) are aligned with the new Sensor Open Systems Architecture (SOSA) standard and apply the latest ultra-high-performance storage, networking and processing technologies to reduce size, weight and power (SWaP) in embedded systems. Crossfield develops Intellectual Property (IP) cores using High Level Synthesis, VHDL, and Verilog for Platform Designer that enable Direct Memory Access between Linux applications in the Hard Processing System and other IP cores in the FPGA fabric.  These cores work with a wide range of applications from networking to data acquisition to remote update of ML algorithms. We also develop the embedded Linux device drivers and device tree bindings to communicate with IP cores in the fabric. Crossfield supplies U.S.-sourced VITA 46.11 chassis management solutions conformant to the SOSA and Hardware Open System Technologies (HOST) standards that are portable across multiple implementation architectures. Our chassis management products include an Intelligent Platform Management Controller (IPMC), Chassis Management Controller (ChMC), and Chassis Manager (ChM). All Crossfield’s VPX PICs support the SOSA-aligned IPMC. Instrumentation GatewaysCrossfield's 3U and 6U OpenVPX Instrumentation Gateways are designed for SOSA and HOST conformance. The feature-rich platforms support 10/40/100G Ethernet on the Data Plane, as well as Ethernet and PCIe Gen 3/4 on the electrical and optical Expansion Planes. Implemented in a ruggedized form factor with single (3U) or dual (6U) FPGA Mezzanine Card (FMC+) slots, the modules support a broad range of data acquisition, signal processing, RF payload, software-defined radio (SDR), and processor acceleration applications. Defense, scientific and commercial applications can be quickly developed, optimized, deployed and updated using state-of-the-art methodologies and tools, including Intel's Quartus Prime Pro and Deep Learning tools, and DSP Builder with MATLAB/Simulink. Crossfield’s 3U OpenVPX Instrumentation Gateway currently features a Stratix 10 MX FPGA providing multiple teraflops (6.3 TFLOPS theoretical limit) of signal processing performance and up to 16 GB of high-bandwidth memory. Our 6U OpenVPX Instrumentation Gateway features a Stratix 10 SX FPGA with a complete real-time embedded Linux board support package. This platform has been used to demonstrate RDMA over Converged Ethernet (RoCE) between the Intel FPGA and a Mellanox 100GE R-NIC. Solid-state Storage Modules Our 3U and 6U OpenVPX Solid-state Storage Modules carry two to eight NVMe M.2 SSDs (size 2280 or 22100) and are designed for SOSA and HOST conformance. Each M.2 slot is a 4-lane PCIe Gen 3 end-point connected to an onboard PCI Express switch. The switch supports host port connections to the VPX backplane or front panel, through electrical and optical links. The SSMs support NVM Express solid-state disks from multiple sources, currently providing up to 32 TB of total storage in a 6U form factor. Optional Samtec FireFly optical engines provide fiber optic links through front panel or backplane connectors. A companion product, Crossfield’s optical PCI Express card, is available to provide connectivity between an OpenVPX module and a host computer. Crossfield® is a registered trademark of Crossfield Technology LLC."info@crossfieldtech.com

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3445 Executive Center Dr
Austin, Texas, 78731-1657
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