AMC
Advanced Mezzanine Card
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Product
Storage
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VadaTech has a wide range of storage modules for MicroTCA systems and other systems than can accommodate the AdvancedMC (AMC) form factor with options up to SAS-3 and SATA III, RAID controllers and JBOD AMCs with up to 8 mSATA SSDs on a single module.
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Product
Xeon D-15xx SoC Processor AMC
AMC754
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The AMC754 is a Processor AMC in a single module, mid-size, based on the Intel® 5th generation Xeon 4-core, 8-core or 16-core Processors (Broadwell). The efficient SoC design has low power consumption and integrated PCH technology. The module follows the AMC.1, AMC.2 and the AMC.3 specifications.
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Product
QorIQ P40x0 Processor AMC, SRIO
AMC719
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The AMC719 is a Processor AMC (PrAMC) in a single module, mid size AdvancedMC™ (AMC) form factor based on the Freescale P4040 and P4080. The module follows the AMC.4 and AMC.2 specifications and the SRIO runs as dual x4. The module has options for up to 16GBytes of DDR3 memory with ECC.
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Product
Development
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Our JTAG Switch Modules (JSMs) are flexible testing and diagnostic cards to accelerate the design, prototyping and operation of your embedded computing system. We have a range of AMC modules for IPMI software development, power load testing and monitoring or to provide a telco/fabric clock. Also, our single slot backplane for AMC modules is ideal for low-cost development and testing.
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Product
Intel Xeon E3 Processor AMC, SRIO Gen2
AMC759
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The AMC759 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMC (AMC) form factor based on the Intel® Xeon® Processor E3-1505M v6 (Kaby Lake) with CM238 PCH. The processor base frequency is 3.0 GHz with max turbo frequency of 4.0 GHz. The module follows the AMC.2, AMC.3 and AMC.4 specifications.
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Product
Network Interface
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VadaTech offers AMC Network Interface Cards (NICs), FMC networking modules and ATCA rear transition modules (RTMs) with a wide range of connector interfaces to make it easier for you to integrate an embedded computing system into your solution.
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Product
Graphics
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Designed to meet the high performance and real-world graphics needs of military, industrial and telecom equipment manufacturers, VadaTech’s AdvancedMC (AMC) graphics modules feature specialized processors from ATI or Silicon Motion and offer DVI, VGA and HDMI options. Our portfolio ranges from very simple and cost-effective graphic interface modules to one of the fastest and most advanced, high-performance 2D and 3D graphics processors available for the AMC embedded market, as well as video driver modules.
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Product
PrAMC Based On QorIQ P5010/5020, SRIO
AMC714
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The AMC714 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMCTM (AMC) form factor based on the Freescale P5010 (single core) and P5020 (dual core) processors. The module follows the AMC.2, AMC.3 and AMC.4 specifications.
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Product
CN67XX Packet Processor, PrAMC Based
AMC735
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The AMC735 is a 10-Gigabit Ethernet (10GbE) AdvancedMCTM (AMC) module which includes an on-board line rate multi-core packet processor based on Cavium CN67XX CPU. VadaTech offers this product in a mid size (full size optional) form factor compliant to the AMC.1 and AMC.2 specification, the AMC735 is based around the Cavium OCTEON CN67xx processor which has been specifically designed to intelligently process Ethernet packets at line-rate. The number of processor cores, speed grade, and amount of DDR3 memory is customizable based on customer needs.
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Product
2 Channels, MIL-STD-1553, Dual Redundant, Direct Coupled, Assisted Mode Capable (AMC)
FTE
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MIL-STD-1553 is a military standard published by the United States Department of Defense that defines the mechanical, electrical, and functional characteristics of a serial data bus. It was originally designed for use with military avionics, but has also become commonly used in spacecraft On-Board-Data-Handling (OBDH) subsystems, both military and civil. It features a dual, redundant, balanced-line, physical layer; a (differential) network interface; time division multiplexing; half-duplex command/response protocol; and up to 31 remote terminals (devices).
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Product
Intel Xeon E3 Processor AMC, PCIe Gen3
AMC756
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The AMC756 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMC (AMC) form factor based on the Intel® Xeon® Processor E3-1505M v6 (Kaby Lake) with CM238 PCH. The processor base frequency is 3.0 GHz with max turbo frequency of 4.0 GHz. The module follows the AMC.1, AMC.2 and the AMC.3 specifications.
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Product
PCI-X Carrier For AMC Modules
PCI102
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The PCI102 allows testing of AMC.1, AMC.2 and AMC.3 modules in a PC environment during development and manufacturing; reducing the costs associated with maintaining different platforms. The PCI101 is a PCI-X edge style carrier with PCIe x4 lanes going to the AMC module. The AMC.1 module connects to the host PC’s PCI-X bus via a PCI-X to PCI ebridge. The AMC.2 module’s GbE ports are routed to RJ-45s. The AMC.3 differential pairs are routed to two SATA connectors. ThePCI102 is available with an optional VT001 IPMI controller which can test the AMC IPMI management functionality. The dual I2C bus connectors allow for connecting any I2C bus to any other I2C bus as well as being able to debug and monitor the I2C bus traffic. Provides two current sense resistors to measure the payload power as well as the management power of the AMC. The PCI102 can be powered on the bench without the host PC.
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Product
Software
LV-1553
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The LV-1553 software is the interface to operate Abaco Systems' MIL-STD-1553 USB, XMC, PCIe, PCI, cPCI, ExpressCard, PCMCIA, Q104-Plus, AMC and VME boards with National Instruments’ LabVIEW graphical programming environment.
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Product
Digital and Serial I/O
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VadaTech’s wide range of ATCA Rear Transition Modules (RTMs) and MicroTCA I/O AMCs make it easier to integrate these standards-based building block systems into your network or application.
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Product
5 Port PCI Express
PEX 8508
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The ExpressLane™ PEX 8508 8-lane, 5-port switch product offers PCI Express switching capability conforming to the PCI Express Specification r1.1. This device enables users to add low cost, scalable high bandwidth switching, both fan-in/out and peer-to-peer, to a wide variety of applications including office automation, network interface adapters, docking stations, AMC cards, and processor isolation for servers, storage, and communications.
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Product
QorIQ P40x0 Processor AMC, PCIe Gen 2
AMC718
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The AMC718 is a Processor AMC (PrAMC) in a single module, mid size AdvancedMC™ (AMC) form factor based on the Freescale P4040 and P4080. The module follows the AMC.1 and AMC.2 specifications. The PCIe interface is configurable as Host or Agent mode and it interfaces as x8 or dual x4. The module has option for up to 16GBytes of DDR3 memory with ECC.
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Product
Pkt2-PCIe and Pkt2-AMC Boards
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Provide front-end intelligent processing for DPI, IPsec and GTP acceleration, delivering a high-performance, secure, carrier-grade, packet processing for LTE, 3G and IMS networks.
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Product
Core I7 Processor AMC With PinoutPlus, PCIe
AMC728C
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The AMC728C is a Processor AMC (PrAMC) in a double module, mid-size AdvancedMC (AMC) form factor based on the Intel next generation Core i7 Processor (Haswell) with QM87 PCH. The module follows AMC.1 (PCIe), AMC.2 (GbE) and AMC.3 (storage) specifications.
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Product
FMC Mezzanine Module, 4 or 8 Channel
NES-FMCSER
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Sundance Multiprocessor Technology Ltd.
The FMC specification was developed to enable FMCs to be supported on a wide range of existing form factors including but not limited to, PCIe, VME, CompactPCI, VXS, VPX, VPX-REDI, AdvanceTCA and AMC. Up to three FMCs can be fitted on a 6U VPX carrier.
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Product
4 Channels, MIL-STD-1553, Dual Redundant, Transformer Coupled, Assisted Mode Capable (AMC)
FTC
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MIL-STD-1553 is a military standard published by the United States Department of Defense that defines the mechanical, electrical, and functional characteristics of a serial data bus. It was originally designed for use with military avionics, but has also become commonly used in spacecraft On-Board-Data-Handling (OBDH) subsystems, both military and civil. It features a dual, redundant, balanced-line, physical layer; a (differential) network interface; time division multiplexing; half-duplex command/response protocol; and up to 31 remote terminals (devices).
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Product
QorIQ P2020 Processor AMC
AMC717
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The AMC717 is a Processor AMC (PrAMC) in a single module, mid size AdvancedMC™ (AMC) form factor based on the Freescale P2020. The module follows the AMC.1, AMC.2 and the AMC.4 specifications. The module is ideal for data flow management within a chassis. The PCIe/SRIO interface is configurable as Host or Agent mode. The PCIe option runs as x4 while the SRIO can run as x4 or dual x1. The module has option for up to 4GBytes of DDR3 memory with ECC. It provides Dual GbE to the rear per AMC.2 specification and a single GbE to the front.
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Product
Xeon E3 Processor AMC, 10/40GbE
AMC757
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The AMC757 is a Processor AMC (PrAMC) in a single module, mid-sizeAdvancedMC (AMC) form factor based on the Intel® Xeon® Processor E3-1505M v6 (Kaby Lake) with CM238 PCH. The processor base frequency is 3.0 GHz with max turbo frequency of 4.0 GHz. The module follows the AMC.2 and AMC.3 specifications.
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Product
For Conduction Cooled ΜTCA Chassis
UTC003
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The VadaTech UTC003 is the most feature-rich MCH (MicroTCA Carrier Hub) for the Conduction Cooled μTCA chassis in the market. It’s management software is based on VadaTech’s proven Carrier Manager and Shelf Manager. The MCMC manages the power modules, the two CU (Cooling Units) and up to 12 AMCs within the μTCA chassis. It also interfaces to and manages the on-board fabric interfaces. The module is available with PCIe, SRIO, 10GbE Layer 3 managed, and GbE Layer 2 managed. The UTC003 runs Linux 2.6 on it’s MCMC CPU and is hot-swappable and fully redundant when used in conjunction with a second instance of the module. The firmware is HPM.1 compliant which allows for ease of upgrade. The UTC003 provides Fabric (100 Mhz HCSL) clock to each AMC.
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Product
Processor AMC Based On QorIQ T4241, PCIe
AMC703
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The AMC703 is a Processor AMC (PrAMC) based on the Freescale QorIQ T4241 in a single-module, mid-size AdvancedMCTM (AMC) form factor based on AMC.1, AMC.2 and AMC.3 specifications.
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Product
Xeon E3-1125 Processor AMC, XAUI
AMC721
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The AMC721 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMCTM (AMC) form factor based on the Intel® Xeon™ Processor with an 8900 Series PCH.
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Product
FPGA/FMC Carriers
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Our AMC FPGA modules feature Altera Stratix IV, Altera Stratix V, Xilinx Virtex-5, Xilinx Virtex-6, Xilinx Zynq, Xilinx Artix, Xilinx Virtex-7 and Xilinx Kintex-7 FPGAs. We also offer a range of carriers that can accommodate standard FMCs featuring FPGAs from Altera and Xilinx, including the new Xilinx UltraScale family.
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Product
AMC GBit link card/VITA 57 FMC carrier
SIS8100
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The SIS8100 will be a single width mid height AdancedMC card. It will interface with a single PCI Express lane over a PLX Technology PEX811 PCI Express to local bus bridge chip and have an on board Virtex IV FPGA. The default stuffing option has a Small Form Factor (SFF) optical link medium that can be operated at 1, 2.5 and 4 GBit/s.
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Product
FMC Mezzanine Dual or Quad Canbus
NES-FMC-CAN
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Sundance Multiprocessor Technology Ltd.
This is a Dual or Quad CANbus with autotest capabilities that can be used on a wide range of carriers, Standalone, PCIExpress, CompactPCI, VPX, CompactPCI Express, AdvanceTCA and AMC.
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Product
PCIE Module For PCIe Bus Expansion
PCI113
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PCI113 is VadaTech second generation PCIe expansion module. The PCI113 is a high-speed 20Gbps bridge from the host PCIe bus to VadaTech’s carrier and Rear Transition Module (RTM) products such as the ATC104/114/118/117/119, ART114, μTCA chassis, etc. The different carriers host different I/O modules such as PMC/PrPMC, AMC, PCI-X and PCIe edge modules. This concept allows any of the available I/O modules in these standard form factors to be integrated quickly and easily into an AdvancedTCA or μTCA subsystem. The PCI113 allows expansion among multiple μTCA chassis or expansion into other chassis that are not ATCA or μTCA based.The PCI113 is a single module PCIE based on the PCISIG specification. The PCI113 provides a PCIe x4 link infiber/copper via front panel QSFP. The dual front I/O allows expansion into two separate systems independently. The upstream port must not have spread spectrum PCIe clock enabled.
