Acromag

Products

Acromag PMC-SLX - User-Configurable Spartan-6 FPGA Modules with Plug-In I/O

  • PMC-SLX150: 147,433 logic cells (XC6SLX150)
Acromag’s cost-effective PMC-SLX modules feature a user-configurable Xilinx® Spartan®-6 FPGA enhanced with high-speed memory and a high-throughput PCI-X interface. Field I/O interfaces to the PMC FPGA via the rear J4/P4 connector and/or with optional front mezzanine AXM plug-in I/O modules. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.
The logic-optimized PMC FPGA is well-suited for a broad range of applications. Typical uses include hardware simulation, communications, in-circuit diagnostics, military servers, signal intelligence, and image processing.

Acromag XMC-7A200 - User-Configurable Artix-7 FPGA Modules with Plug-In I/O

  • Artix-7 FPGA with 200k logic cells.
  • 128M x 64-bit DDR3 SDRAM
  • 32M x 16-bit parallel flash memory for MicroBlaze FPGA program code storage.
Acromag’s XMC-7A modules feature a high-performance user-configurable Xilinx® Artix®-7 FPGA enhanced with high-speed memory and a high-throughput serial bus interface. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.
The logic-optimized FPGA is well-suited for a broad range of applications. Typical uses include hardware simulation, communications, in-circuit diagnostics, military servers, signal intelligence, and image processing.
Both front and rear I/O is supported. Front I/O processing is supported with plug-in AXM mezzanine cards. A variety of AXM I/O cards are available to add the flexibility of a wide range of analog and digital I/O to your design.

Acromag XMC-SLX - User-Configurable Spartan-6 FPGA Modules with Plug-In I/O

  • XMC-SLX150: 147,433 logic cells (XC6SLX150)
Acromag’s cost-effective XMC-SLX modules feature a user-configurable Xilinx® Spartan®-6 FPGA enhanced with high-speed memory and a high-throughput PCIe interface. Field I/O interfaces to the FPGA via the rear J4/P4 connector and/or with optional front mezzanine AXM plug-in I/O modules. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.
The logic-optimized FPGA is well-suited for a broad range of applications. Typical uses include hardware simulation, communications, in-circuit diagnostics, military servers, signal intelligence, and image processing.
Large, high-speed memory banks enable efficient data handling. The dual-port SRAM facilitates high-speed DMA transfers to the bus or CPU. A high-bandwidth PCIe interface ensures fast data throughput.
64 I/O lines are accessible through the rear (J4) connector. Additional I/O processing is supported on a separate mezzanine card that plugs into the FPGA base board. A variety of these external AXM I/O cards are available to interface your analog and digital I/O signals.
Take advantage of the conduction-cooled design for use in hostile environments. Conduction efficiently dissipates heat if there is inadequate cooling air flow. Optional extended temperature models operate reliably from -40 to 85°C.

Acromag XVME-6510 Air-Cooled - 6U VME processor board with 4th Generation Intel® Core™ i7 CPU

  • FPGA-based VME to PCIe bridge
  • Intel® i7 CPU, up to 2.4GHz
  • Up to 16GB DDR3L ECC RAM
  • 1 - 32GB Flash
  • Dual PMC/XMC Sites
The XVME-6510 will add 7 to 10 years of life to your system with modern technology. This high-performance SBC features a FPGA-based VME to PCIe-bridge that solved the end of life issue with the TSI148 VME interface chip.
The XVME-6510 is a high performance 6U VME single board computer based on the 4th Generation Intel® Core™ i7 processor and utilizes the Intel 8-Series QM87 PCH chipset for extensive I/O support. Two ruggedized SODIMM offer up to 16GB of high-speed DDR3L removable memory with 32GB flash memory. The air-cooled XVME-6510 features dual PMC/XMC sites, DVI-D display, and programmable CPU power limits for heat sensitive applications. Expansion capabilities for further customization is available. VxWorks® and Linux® software support, ROHS compliance and extended temperature options are available.