AMC
Advanced Mezzanine Card
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Product
Advanced Mezzanine Card (AMC) Module
AMC SyncClock32
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The AMC-SyncClock32 from Brandywine Communications is an Advanced Mezzanine Card (AMC) module. Precision time is provided to the host computer with zero latency. The onboard microprocessor automatically synchronizes the clock to reference signal inputs. The reference signal inputs handled by the AMC in its standard configuration are IRIG’s A, B/IEEE1344, and NASA 36. Alternatively, the clock in the AMC can be set using commands from host computer and free run using its on-board oscillator as the time base.
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Product
Intel Xeon E3 Processor AMC, PCIe Gen3
AMC758
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The AMC758 is a Processor AMC (PrAMC) in a double 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
Processor AMC Based On QorIQ T4240
AMC702
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The AMC702 is a Processor AMC (PrAMC) based on the Freescale QorIQ T4240 in a single module, mid-size AdvancedMC (AMC) form factor based on the AMC.2 and the AMC.4 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
LS1046A Processor AMC, PCIe
AMC708
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The AMC708 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMC (AMC) form factor based on the NXP LS1046A (quad core) processor. The unit provides PCIe Gen3 on Ports 4-7 or 8-11 per AMC.1.
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Product
Cavium CN66xx Packet Processor AMC
AMC732
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The AMC732 is a 10-Gigabit Ethernet (10GbE) AdvancedMC™ (AMC) module which includes an on-board multi-core packet processor based on Cavium CN66XX CPU. VadaTech offers this product in a mid size (full size optional) form factor with the AMC.1, AMC.2 and AMC.4 specification. The AMC732 is based around the Cavium OCTEON CN66xx processor which has been specifically designed to intelligently process Ethernet packets at line rate. The processor can be loaded via the PCIe/SRIO interface or via an optional flash memory. The number of processor cores, speed grade, and amount of DDR3 memory is customizable based on customer needs.The module has an RTC on board and 2GB of HFA for pattern matching for deep packet inspection, etc. The SDK for the processor as well as additional software stacks are available from Cavium or third party. The AMC732 has Serial Over LAN (SOL) with a true hardware Random Number Generator.
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Product
1 Channel, MIL-STD-1553, Dual Redundant, Transformer Coupled, Assisted Mode Capable (AMC)
FTA
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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
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
Processor AMC, Intel® Xeon E5-2648L V4, PCIe Gen3 With PinoutPlus™
AMC750
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The AMC750 is a Processor AMC (PrAMC) in a double module, full-size AdvancedMC (AMC) form factor based on the Intel® Xeon E5-2648L v4 which has 14 Cores @ 1.8 GHz. The module follows the AMC.1 and AMC.3 specifications.
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Product
QorIQ P204x Processor AMC
AMC711
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The AMC711 is a Processor AMC (PrAMC) in a single module, mid size AdvancedMC™ (AMC) form factor based on the Freescale P2040 or P2041. The module follows the AMC.1 and AMC.2 specifications. The PCIe interface is configurable as Host or Agent mode and it interfaces as dual x4 (ports 4-7 and 8-11). The P2041 has option to have ports 8-11 as XAUI (10GbE). The AMC711 has up to 8GBytes of DDR-III memory with ECC.
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Product
Intel® Xeon® Processor E-2176M AMC, PCIe Gen3
AMC760
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The AMC760 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMC (AMC) form factor based on the Intel® Xeon® Processor E-2176M (Coffee Lake) with CM246 PCH. The processor base frequency is 2.7 GHz with max turbo frequency of 4.4 GHz. The module follows AMC.1, AMC.2 and AMC.3 specifications.
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Product
1 Channel, MIL-STD-1553, Dual Redundant, Direct Coupled, Assisted Mode Capable (AMC)
FTD
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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
PPC8315 Processor AMC W/ 2.5” SATA Drive
AMC715
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The AMC715 is a Processor AMC (PrAMC) with an on board 2.5" SATA hard disk drive in a single-module, mid-size AdvancedMCTM (AMC) form factor based on the AMC.1, AMC.2 and the AMC.3 specifications. The module is ideal to be used for data flow management within a chassis. The AMC715 provides a low cost solution with an integrated high capacity disk. With a storage capacity of over 320 GB and data transfer rates of 150 Mbyte/s the AMC715 is the ideal AdvancedMCTM smart storage. The PCIe interface is configurable as Host or Agent mode. The module has 512 MB of DDR2 memory on board.
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Product
Intel Xeon D-15xx Processor, AMC
AMC763
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The AMC763 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 P5010/5020 Processor AMC, PCIe
AMC713
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The AMC713 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMC (AMC) form factor based on the NXP P5010 (single core) or P5020 (dual core) processors. The unit provides dual x4 PCIe on Ports 4-7 and 8-11 per AMC.1 and the PCIe interface can be configured in Host or Agent mode.
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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
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
Cavium CN67xx Packet Processor
AMC734
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The AMC734 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 form factor with AMC.2 specification (option full size design, see ordering options).The AMC734 is based on 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.The module has an RTC on board.The SDK for the processor as well as additional software stacks are available from Cavium or third party.
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Product
Cavium CN6880 Processor AMC
AMC738
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The AMC738 utilizes the 32 Core Cavium Octeon II Processor that combines with a Xilinx V7 (XC7VX690T) FPGA to provide 100GbE via the CFP2 module. The CFP2 module could utilize 4 x 25 Gbps lanes or 10 x 10 Gbps lanes. The module follows the AMC.1, AMC.2 and AMC.4 specification. The FPGA has a single bank of 64-bit wide DDR3 memory.
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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
Intel® Xeon® Processor E-2176M AMC, 10/40GbE
AMC761
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The AMC761 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMC (AMC) form factor based on the Intel® Xeon® Processor E-2176M (Coffee Lake) with CM246 PCH. The processor base frequency is 2.7 GHz with max turbo frequency of 4.4 GHz. The module follows the AMC.2 and the AMC.3 specifications.
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Product
2 Channels, MIL-STD-1553, Dual Redundant, Transformer Coupled, Assisted Mode Capable (AMC)
FTB
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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
Tilera GX72 Processor, 72 Core, Mid-size, AMC
AMC741
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The AMC741 is ideal for packet filtering, intelligent networking, multimedia, video transcoding, cloud and other applications. The device includes 72 identical processor cores (tiles) interconnected with Tilera’s iMesh™ on-chip network.
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Product
Xeon E5 Processor AMC, 40 GbE, PinoutPlus™
AMC751
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The AMC751 is a Processor AMC (PrAMC) in a double module, full-size AdvancedMC (AMC) form factor based on the Intel® Xeon E5-2648L v4 which has 14 Cores @ 1.8 GHz. The module follows the AMC.2 and AMC.3 specifications.
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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
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
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
MicroTCA Systems
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Pixus Technologies offers customized MicroTCA® shelves and system solutions. With expertise in xTCA systems, along with backplane and cooling specialists, Pixus will help you create a winning µTCA design. MicroTCA is a modular, open standard for building high performance switched fabric computer systems in a small form factor. MicroTCA systems utilize standard Advanced Mezzanine Cards (AMCs) which provide processing and I/O functions. MicroTCA targets smaller telecom systems at the edge of the network, as well as mobile, military, telemetry, data acquisition, and avionics applications.
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Product
Core I7 Processor AMC, 10/40GbE
AMC727
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The AMC727 is a Processor AMC (PrAMC) in a single module, mid-size AdvancedMC (AMC) form factor based on the Intel® next generation CoreTM i7 Processor (Haswell) with QM87PCH.
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Product
4 Channels, MIL-STD-1553, Dual Redundant, Direct Coupled, Assisted Mode Capable (AMC)
FTF
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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).
