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Mercury Defense Systems produces the most powerful onboard UAV processor systems for real-time Wide Area

Motion Imagery (WAMI) and Electro-Optical (EO)/Infrared (IR) data processing. These systems digest multiple

simultaneous image sources to produce imagery for storage and exploitation. Mercury Defense Systems’ (MDS’s)

advanced EO/IR solutions process large numbers of gigapixels of data every second. The algorithms needed to

extract vital information, such as chip-outs, are equally capable. MDS leverages

decades of software experience in the field of embedded processing to meet

these EO/IR processing requirements. By exploiting the strengths of a

heterogeneous mix of the most capable processing elements, whether

they be FPGAs, CPUs (uniquely including ruggedly packaged Intel®

Xeon® server-class devices) and GPGPUs, Mercury solutions are able

of ingesting this unrelenting flood of data, and perform advanced

processing and exploitation for the warfighter — in real-time.

MDS’s SWaP optimized EO/IR processing subsystems feature rugged

Open System Architecture (OSA), heterogeneous compute resources that

incorporate Intel, Freescale and GPGPU ecosystem resources. These

subsystems feature advanced cooling technology and exportability options

making them ideally suited for EO/IR platform modernization and new high altitude, long endurance missions.

EO/IR

Ideally suited to cross-cueing imaging sensors, Mercury Defense Systems’ high performance SIGINT payloads

for small Unmanned Arial System (UAS) combine robust Direction Finding (DF) capability and efficient Size,

Weight and Power – Cost (SWaP-C) packaging. Mercury Defense Systems (MDS) has a long and accomplished

heritage developing and integrating complex SIGINT-ELINT and SIGINT-COMINT solutions, producing some of

the most advanced High Probability of Intercept (HPOI) systems ever deployed. Our technology underwrites very

wide, instantaneous bandwidth and exceptionally fast tuning speeds, which are an order-of-magnitude faster than

alternative techniques, while preserving low-phase noise, which is critical for demodulation of information content.

Mercury develops systems that rely on low-phase noise to implement sophisticated DF capabilities, including

multi-channel interferometry and Time Difference Of Arrival (TDOA). MDS leverages the broadest and most

sophisticated Open Systems Architecture sensor processing building blocks from Mercury Commercial Electronics

(MCE). These building blocks include PowerPC, GPGPU, FGPA and Intel compute solutions. Uniquely, Mercury

building blocks have a rugged Intel® Xeon® server-class ecosystem for the most compute intense applications

with massive I/O handling abilities.

Signals Intelligence

Electronic Warfare

Mercury Defense Systems’ (MDS’s) Electronic Counter Measure (ECM) technology is the result of our sustained

IRAD commitment and collaborative co-engineering ventures with prime contractors has

produced the broadest portfolio of advanced Digital RadioFrequency Memory (DRFM)

based ECM solutions available. These flight qualified subsystems represent the industry

standard for capability and reliability. MDS leverages its extensive experience in the

radar and Electronic Warfare (EW) domains to offer solutions that address current

and future warfighter requirements. Our solutions address modern self-protection

and Electronic Attack (EA) challenges, vulnerability assessment and operator training

across the whole RF spectrum. From baseband to millimeter, MDS ECM solutions

perform all the processing, from antenna signal capture, to analog/digital signal

processing/manipulation prior to returning it back to the antenna for retransmitting.

MDS has maintained its position as the industry leader of coherent, fast tuning, low-latency DRFM-based

subsystems by delivering complex and highly integrated system-level solutions on time and affordably. MDS

solutions result in mission fulfillment through the integration of MCE’s proven commercial-item, sensor chain

building blocks and the vast experience of MDS’s engineers, who have the broadest experience in the industry.

3U OpenVPX Products

SBC3512 HCD3210

Single Board Computer - Ensemble 3000 Series

3U OpenVPX™-compliant VITA 65/46/48 (VPX-REDI) moduleIntel® 3rd Generation Core™ i7 2.1GHz (Ivy Bridge mobile-class) quad-core processorPMC/XMC Mezzanine Site for ExpansionBuilt-in SBC-class I/O subsystemsRugged versions for harsh environmentsPCI-e I/OCommercial/ Rugged

LX330T, LX220T, or LX110T Xilinx® Virtex™-5 FPGA512 Mb of NOR flash memory with 16-bit wide data bus over a BPI interfaceVariety of I/O choices, including 24-port PCIe switch with x8 2.5 Gbps links, x4 3.125 Gbps XAUI links to backplane,and XMC siteRenesas micro-controller for system managementMultiple I/O OptionCommercial/ Rugged

Control plane communications supported by a Broadcom Gigabit Ethernet switch with integrated MIPS processor core Data plane communications supported by a Tundra Serial RapidIO switch with six 4x links to the backplane and two 4xlinks to the J15 XMC connector XMC site supported by Serial RapidIO per VITA 42.2 IPMI controller for system management functionsCommercial/ Rugged

Processor - Ensemble 3000 Series

General-purpose processing via dual-core MPC8640D processor running at 1.06 GHz, supported 1 GB of DDR2SDRAM Xilinx ® Virtex ™-6 FPGA supported by two 9-MB banksof QDRII SRAM and 128 MB of DDR3-900M SDRAM High-bandwidth communications, including native supportfor RapidIO and PCI Express® (PCIe) XMC site supported by PCI Express (PCIe) per VITA 42.3 IPMI controller for system management functions MultiCore Plus® software environment with MC SALMultiple I/O OptionCommercial/ Rugged

Control plane communications supported by a Broadcom Gigabit Ethernet switch with integrated MIPS processor coreEight SGMII ports interface to the eight VITA 46 slots,with ninth port capable of being wired to another SCH3000 in the system for redundancyDedicated management plane based on the IntelligentPlatform ManagementInterface (IPMI) standard is enabled by Renesas IPMI ControllerCommercial/ Rugged

PMC/XMCOpenVPX carrier module designed to use the Data PlanePCI/PCI-X interface at up tof 133 MHz on each sitex8, x4 and x1 PCIe interfacesAdvanced OpenVPX system management functionality enables remote monitoring, alarm management, and hardware revision and health managementConduction-cooled and air-cooled variants availableCommercial/ Rugged

General-purpose processing via dual-core MPC8640D processorrunning at 1.067 GHz, supported by 128 MB of NOR flash memory and 1 GB of DDR2 SDRAM (with ECC)MPC8640D incorporates two Power Architecture™ e600 cores. Each e600 core includes 32-KB separate L1 (level-one) * instruction and data caches, and a 1-MB L2 cacheHigh-bandwidth communications, including native support for RapidIO and PCI Express® (PCIe)Virtex™-5 LX330T or LX110T FPGA with 72 Mb of QDRII memoryRenesas micro-controller for system management functionsMultiCore Plus® software environment with MC SAMultiple I/O OptionCommercial/ Rugged

10-Gbps full-duplex serial RapidIO (4 x 3.125 Gbps, with 8/10 encoding)Two Tundra™ serial RapidIO switches that support the RapidIO rev 1.3 functionalityOnboard Module Management Controller (MMC)Commercial/ Rugged

HCD3200

FCN3110

Processor - Ensemble 3000 Series

SCH3000 SFM3000

Switch Fabric - Ensemble 3000 Series

SFM3010

Switch Fabric - Ensemble 3000 Series

CCM3011

Carrier Module - Ensemble 3000 Series

6U OpenVPX Products

GSC6201 - AMD

Industry’s highest performance GPGPU solution using latest generation AMD Radeon™ HD 6970M and HD 7970M GPGPUNew StreamDirect™ for GPGPUs increases overall system efficiency and intelligence gathering C/C++ application development with open standards OpenCL™ and Mercury’s Scientific Algorithm Library (SAL™) Over 4 TeraFLOPS of processing powerPCI-e I/OCommercial/ Rugged

OpenVPX 6U PowerPC processing moduleTwo Freescale12-core T4240 processors at 1.5 GHzGen2 Serial RapidIO Data Plane, PCI Express Expansion PlaneQuad 10 Gigabit Ethernet Interfaces for Direct Sensor I/OFlexible I/O supported on local PMC/XMC siteAir-cooled and conduction-cooled models availableIdentical software infrastructure as previous Mercury productsSRIO/ Gigabit EthernetCommercial/ Rugged

6U OpenVPX™-compliant VITA 65/46/48 (VPX-REDI) moduleHigh-performance Intel® 2nd Generation Core™ i7 (Sandy Bridge mobile-class) quad-core processorUp to 2.1 GHz with 134 GFLOPS peak performanceSerial RapidIO® and/or 10 Gigabit Ethernet fabric enabledIntegrated 80-lane PCIe® switching infrastructureOn-board and off-board co-processing expansion plane communicationsMercury MultiCore Plus® software infrastructure supportRugged

Dual NVIDIA Fermi™ Architecture-ready high-performance stream processing in a single 6U slotNew StreamDirect™ for GPGPUs increases overall system efficiency and intelligence gathering Mercury-engineered, rugged MXM connectors exceed VITA 47C/C++ application development with open standards OpenCL™, NVIDIA CUDA™ and Mercury’s Scientific Algorithm Library (SAL™)864 GFLOPS and higherPCI-e I/OCommercial/ Rugged

Two Freescale™ MPC8640D or MPC8641D 1.33GHz dual-core processors, each with two standard e600 processor cores, two DDR2 memory controllers, 1 MB of L2 cache, and flexible system-on-chip I/O subsystem1 GB or 2 GB of DDR2 SDRAM per MPC864xD deviceFour 4x lanes of serial RapidIO with data rates at up to 3.125 GbaudTwo 1000BASE-BX Gigabit Ethernet links (one for each MPC864xD device) to backplanePCI/PCI-X interface at up to 133 MHz on each site, withPMC user-defined I/O mapped to backplaneMultiple IO OptionCommercial/ Rugged

6U OpenVPX™-compliant VITA 65/46/48 (VPX-REDI)moduleIntel® 3rd Generation Core™ i7 (Ivy Bridge mobile-class) quad-core processor at up to 2.3 GHz with 147 GFLOPS peak performanceMellanox ConnectX-3 fabric support InfiniBand or 40Gigabit EthernetIntegrated Gen3 PCIe® switching infrastructure for on-board and off-board co-processing expansion-planecommunications Commercial

Dual MxM sites support 1 NVIDIA GeForce GTX 460M Fermi Architecture GPU, each with two single-link DVI interfaces 48-lane, 12-port PCI Express Gen2 switch to backplane Software-controlled management features CUDA sofwareenviroment for NVIDIA-based GPUs 562 GFLOPS, 880 GFLOPSPCI-e I/OCommercial/ Rugged

Intel 2nd Generation Core i7 Quad-CoreOne 10/100/1000BASE-T Gigabit Ethernet connection can be routed to the front panel on air-cooled configurations or to the backplane on conduction-cooled configurations.One additional 10/100/1000BASE-T Gigabit Ethernet connection routed to the backplane.Two 1000BASE-BX SERDES Ethernet connections routed to the backplane.Two DVI graphics interfaces: one routed to the front panel on air-cooled configurations only via an optional I/O adaptor; the other routed to the backplane.One TIA-232 serial port routed to the front panel on air-cooled configurations, or to the backplane on conduction-cooled configurations. When routed to the backplane, the serial interface can be configured for either TIA-232 or TIA-422/TIA-485 signaling.Two backplane USB 2.0 interfaces available with both air-cooled and conduction-cooled configurations. One front-panel eSATA interface provided on air-cooled configurations via an optional I/O Multiple IO Option

6U OpenVPX™ single slot moduleDual Intel® 1.9GHz 10-core Xeon® (Ivy Bridge server-class) processors608 GFLOPS peak processing powerGigabit InfiniBand/Ethernet switched fabricUp to 128 GB DDR3-1866 SDRAMGen3 PCIe co-processing and I/O expansion plane communicationsAir-cooled, Conduction-cooled and Air Flow-By packaging/cooling optionsOpen software infrastructure supportCommercial/ Rugged

GPGPU - Ensemble 6000 Series

LDS6522 LDS6523 HDS6602

Processor - Ensemble 6000 Series

Processor - Ensemble 6000 Series

HCD6210 HCD6220 LDS6521

GSC6201 - NVIDIA GSC6200

6U OpenVPX Products

HDS6502

Rugged, open architecture data/graphic processing module with Mercury POET/FPGA implementedGen 2 Serial RapidIO and 10Gigabit Ethernet data-plane optionsDual 4th Generation Intel® Quad-core i7 processors (Haswell mobile class) with on-die GT2 GPUsand cache-coherent shared memoryOpen architecture, powerful and versatile:OpenVPXTM compatible (VITA-65)AVX2, 256 bit vector engine incorporating Fused Multiple-Add (FMA)Gen 3 PCIe® supportOpenCLTM programming compatibilityComprehensive I/O: Up to six display ports, multiple USB3.0/2.0, SATA/eSATAp, Ethernet, Gen 3 PCIeports and system managementAir-cooled, conduction-cooled, Air Flow-ByTM packaging optionsMultiple IO OptionCommercial/ Rugged

Two 64-bit Xeon Nehalem-class quad-core Jasper Forest LC5518 processors Utilizes unique packaging technologies to support two instances of a Land Grid Array (LGA) processor in a rugged embedded platform Dual quad-core processors ae linked via the high-speed low-latency QPIinterface with 19.26 GB/s transfer rate Each processor can deliver approximately 55 GFLOPS (peak) with three high-speed DDR3-1066 memory channels capable of 17 GB/s raw bandwidth each, for a totalpeak of 110 GFLOPS and 51 GB/s of raw memory bandwidth Supports configurations with 12 to 24 GB of DDR3 SDRAM on-board High-end 80-lane PCI Express switch for on-board switching and off-board expansionThermal and voltage sensors integrated on-board Real-time clock with granularity to 1 ms and time measurement of up to 30 years Multiple boot paths, include netboot, USB boot, and boot from SATA or the on-board2-GB fl ash deviceultiple IO Option

Next-generation architecture for high-end defense and commercial applications such as SIGINT, EW, Comms, RADAR, Commercial Wireless, and Deep Packet InspectionUltimate processing power with three Xilinx® Virtex™-6LX240Ts or SX315TsVITA 57 FMC sites for flexible I/O enhancements, includingEchotek® Series multi-channel digitizer FMCsHigh-speed OpenVPXTM interface fully compatible withEnsembleTM OpenVPX modulesMultiple IO Option

Intel 64-bit Core i7 610E Arrandale dual-core processor running at up to 2.53 GHz with 46 peak GFLOPSFirst embedded computing product to combine processing power of Ineld Core i7 family with high-speed serial RapidIO fabric interfaceOn-board Altera Stratix IV FPGA provides streaming bridgefor high-bandwidth, low-latency data80-80-lane Gen2 PCI Express switch for onboard switchingand off-board expansionAdvanced system management functionality architected inOpen VPX secification enables remote system monitoring,alarm management, and hardware revision and health statusMultiple IO OptionCommercial/ Rugged

Four Freescale™ MPC8640D 1.06GHz dual-core processor, each with two standard e600 processor cores, two DDR2memory controllers, 1 MB of L2 cache, and flexible system-on-chip I/O subsystem1 GB or 2 GB of DDR2 SDRAM per MPC8640D deviceFour 4x lanes of serial RapidIO with data rates at up to 3.125 GbaudSupports XMCs configured for x8, x4, x2, and x1 PCIExpress®Multiple IO Option

PMC XMC Carrier ModuleFirst OpenVPX carrier module designed specifically to use the Expansion PlanePCI/PCI-X interface at up tof 133 MHz on each sitex8, x4 and x1 PCIe interfacesAdvanced OpenVPX system management functionality enables remote monitoring, alarm management, and hardware revision and health managementConduction-cooled and air-cooled variants available

6U OpenVPX compliantTwo octal-core Sandy Bridge server-class Intel® Xeon processors provide 16 cores at 1.8 GHzTotal of 460 GFLOPS peak in a single slotSerial RapidIO® and/or 10 Gigabit Ethernet fabric enabled32 GB of DDR3-1600 SDRAM with 102 GB/sec peak performanceIntegrated PCI Express® infrastructure for co-processingand I/O expansion plane communicationsMultiple I/O options, including Gigabit Ethernet, RS-232, RS-242, GPIO, and SATAAdvanced system management subsystemMercury MultiCore Plus® software infrastructure supportMultiple IO OptionCommercial/ Rugged

Four QSFP cages and connectors per OpenVPX™ slotvia two IOM-QSFP-FMC Optical Interface FMCsFull duplex data rate of 3.125 to 5 GbpsSFPDP protocol support, subset components provided for VITA-49 Digital IF developmentModular approach allows for the exchange of fiber media without baseboard removalFMC HPC connection to Virtex®-6 FPGAs (SX315/SX475/LX240T) on Serial RapidIO®-enabled SCFE-V6-OVPX baseboard16 CH (4 X QSFP) Fiber

High-density connector and breakout cable to accessto RS-232/RS-422 serial and 10/100/1000BASE-T Ethernet interfacesFour 9-pin serial interfaces and four RJ45 Ethernetinterfaces via the breakout cableStandard VITA 57 FMC connectors that map to the PMC and XMC user I/O connections from the HCD6220 or HCD6410Multiple IO Option

Processor - Ensemble 6000 Series

SCFE-V6-OVPX CCM6020 RTM-60P

HDS6600 HCD6410 SCFE-V6-4QSFP-OVPX

LDS6520 HDS6601

Processor - Ensemble 6000 Series I/O Device - Echotek Series

Digital Receiver - Echotek Series Carrier Module - Ensemble 6000 Series Rear Transition Module - Ensemble 6000 Series

6U OpenVPX Products

RTM-60S

DualRS-232 interfaces and dual 10/100/1000BASE-T Ethernet interfacesAdditional 10/100BASE-T Ethernet interface to support the remote system management capabilities of the SFM6100 and SMM6100 modulesBrings user I/O from the backplane connectors toindustry-standard interfaces, when integrated with the SFM6100, SMM6100, or SWM6100 modulesCommercial

High-bandwidth standard 10 Gigabit Ethernet data planeswitching with front-panel accessGigabit Ethernet control plane switching and front-panelGigabit Ethernet portsIntelligent OpenVPX™ system management capabilities from a single pointBuilt-in accordance with OpenVPX design principlesAir-cooled and conduction-cooled variants availableIdentical software infrastructure across Mercury products

6U OpenVPX™ single 1-inch slot module40 Gigabit Ethernet or InfiniBand™ high bandwidth switching:Ethernet ecosystem; 40GBASE-KR4 and 10GBASE-KX4Or InfiniBand ecosystem; FDR-10, QDR, DDR and SDRSwitching for up to 18 payloadsSingle point OpenVPX chassis managementAir-cooled, rugged conduction-cooled and Air Flow-By™ OpenVPX packaging optionsCommercial/ Rugged

Seven Tundra Tsi578™ serial RapidIO crossbars used tocreate dual-star switching hierarchy among payload modulesAll crossbars with full-duplex 4x link on each of eight portsCrossbars configurable to operate at 3.125 or 2.5 GbaudFull connectivity for up to 18 payload modules in a VPX chassisFirst VPX switch module to provide Gigabit Ethernetswitching in addition to RapidIO switching

High-bandwidth, next-generation, serial RapidIO® switching with up to 5.0 Gbaud serial RapidIO data ratesOn-board Layer 2–managed Ethernet switching and front panelGigabit Ethernet portsIntelligent OpenVPX™ system management capabilitiesfrom a single pointBuilt-in accordance with OpenVPX design principlesAir-cooled and conduction-cooled variants availableIdentical software infrastructure across Mercury productsCommercial/ Rugged

Rear Transition Module - Ensemble 6000 Series

SFM6102 SFM6100

SFM6104 SFM6101

Switch Fabric - Ensemble 6000 Series

Switch Fabric - Ensemble 6000 Series

6U VXS Products

DCM-V5-VXS Virtex-5 Based FPGA Digital Receiver

Three Xilinx Virtex-5 SX240T or LX330T FPGAs forprocessing and I/O interfacingHigh-speed VXS or RACE++ interface on backplaneTwo QSFP fiber interfacesDDR2 SDRAM and QDR2 SRAM memorySecureConfig with options to load FPGA images to either non-volatile flash or DDR2 SDRAM (volatile)Multiple IO Option

Seven Tundra® Tsi578™ serial RapidIO crossbarsDual-star switching hierarchy between VXS payload slots per VITA 41.2Crossbars can be configured to operate at either 3.125Gbaud for enhanced serial RapidIO bandwidth, or 2.5 Gbaud for backward-compatibilityBroadcom BCM56312 switch provides Gigabit Ethernetconnectivity over the VXS backplane to each payloadmoduleCan be configured as a Level 2 managed switch, enablingsuch features as link aggregation, multicast support viaIGMP, Rapid SpanningmTree Protocol (RSTP) support,and support for Jumbo packetsSRIO & Gigabit Ethernet

Freescale™ MPC8640D or MPC8641D dual-core processorwith two standard e600 processor cores, two DDR2 memory controllers, 1 MB of L2 cache, and a flexible system-on-chip I/O subsystem1 GB or 2 GB of DDR2 SDRAM per processorOff-the-shelf mezzanine cards using either PCI-X or PCI Express® protocols128 MB of write-protectable boot/application flash perprocessorDual 10/100/1000BASE-T front panel Ethernet portsRS-232 serial interface port to the front panel with anadditional interface optionally routed to the backplaneReal-time clock with granularity to 1 ms and time measurement of up to 30 yearsSRIO

Dual dual-core Intel® Xeon® processors in a conduction-cooled formatArchitecture supports 4-way symmetric multiprocessing (SMP)I/O interfaces include quad Gigabit Ethernet, RS-232 serial I/O,high-speed serial ATA-150 (SATA), and USB 2.0Three PCI Express® x8 links with bandwidths of up to 2 GB/s667-MHz front side busDual DDR2-400 ECC memory interfaces that can access up to 4 GB of memoryGigabit Ethernet

128 MB of write-protectable boot/application flash per processor withprotected boot vector to avoid accidental erasureThermal and voltage sensors integrated onboardSystem management block capable of managing firmware updates, reading and writing sensor thresholds, reading sensor values, andresetting the moduleRS-232 serial interface ports per processor to the front panel with an additional interface optionally routed to the backplaneReal-time clock with granularity to 1 ms and time measurement of upto 30 yearsGeneral-purpose timers for synchronizationWatchdog timer able to interrupt each processor upon expirationOpen board architecture that supports network booting, as well as booting from the onboard flash memoryMultiple IO Option

Digital Receiver- Echotek Series

VXS SFM5100 Switch Module VX6-200CC Dual Dual-Core Xeon® VXS Conduction-Cooled SBC

VXS SBC5120 Module VXS HCD5220 Module

Mezzanine Carrier- SBC- Ensemble 5000

Switch Fabric- Ensemble 5000 Series

Mezzaine Carrier Processor - Ensemble 5000 Series

Mezzanine Carrier - SBC Mezzanine Carrier- SBC

VX6-200R Dual Dual-Core Xeon® VXS Air-Cooled SBC

Dual dual-core Intel® Xeon® processors in an air-cooled formatArchitecture supports 4-way symmetric multiprocessing (SMP)I/O interfaces include quad Gigabit Ethernet, RS-232 serial I/O,high-speed serial ATA-150 (SATA), USB 2.0, and SVGAThree PCI Express® x8 links with bandwidths of up to 2 GB/s667-MHz front side busDual DDR2-400 ECC memory interfaces that can access up to4 GB of memoryGigabit Ethernet

Dual Freescale MPC7448 processors, each running at 1.4 Gz1 GB of DDR2 SDRAM memory per processorSerial RapidIO interconnectTwo standard PMC-X sitesTundra Tsi148 VME bridge chip provides high-bandwidth VME 2eSST supportFront-panel Gigabit Ethernet interfaceNetwork-enabled MultiCore Plus software environmentMercury Ethernet over RapidIO (EoRIO) technology to deploy IP-based services throughout the systemSRIO/ Gigabit Ethernet

VXS-200 Dual 7448 SBC

Mezzanine Carrier - SBC

AD/DA Products

DCM-V5-6416-PCIe Digital Receiver

Single-slot PCIe long format board FPGA-based channelizationNarrowband down conversion and filtering Synchronization of all receiver channels on one or multiple boards Simultaneous operation of up to 4 wideband channelsPCI-e

Four analog IF inputs and, optionally, one analog IF output via MMCX connectors on front panel.Two dual-channel National Semiconductor ADC16DV160CILQ A/D converters at rates of up to 160 MSPSwith 16-bit resolution.Optional single-channel Texas Instruments DAC5682Z D/A converter supports 16-bit signals at up to 1 GHz.Virtex-6 LX240T has 241,152 logic cells, 37,680 slices,and 768 DSP blocks in an 1156 pin-package FPGA.512 MB of DDR3 SDRAM and 9 MB of QDR2 SRAMEchoCore™ firmware availableAnalog IF

Three Xilinx Virtex-5 SX240T or LX330T FPGAs forprocessing and I/O interfacingHigh-speed VXS or RACE++ interface on backplaneTwo QSFP fiber interfacesDDR2 SDRAM and QDR2 SRAM memorySecureConfig with options to load FPGA images to eithernon-volatile flash or DDR2 SDRAM (volatile)Multiple IO Option

● Two Virtex-4 FPGAs for data processing and PCI/PCI-X interfacing● PMC/PCI form factor● Pre-loaded FPGA development IP● Air- or conduction-cooled● Software support for Linux® and VxWorks® operating systems● 256 MB DDR SDRAM● Multiple IO Option

User-programmable Virtex-5 FPGA functions as the primarydata processorSupported by Mercury’s EchoCore™ firmware libraryTwo, single IF channel, Texas Instruments ADS6149 analog-to-digital converters128 MB of DDR-II SDRAM, accessible by user-programmable applicationsTwo high-speed serial XMC connectorsOne single-channel Maxim MAX 19692 digital-to-analogconverterPCI-e

DCM-V6-4R160-1T1000-XMC Module ECV4-2 Two- or Four-Channel Virtex-4-Based PMC/XMC Digital Receivers

DCM-V5-VXS Virtex-5 Based FPGA Digital Receiver DCM-V5-XMC Digital Receiver

ECV4-4 Four-Channel, Wideband, Virtex-4-Based Digital Receivers

● Seven user-programmable VirtexTM-4 FPGAs plus one Stratix® FPGA● Multiple backplane interfaces for VXS, RACE++®, and VME64x● Unique analog mezzanine cards coupled with FPGA-based digital baseboard● Multiple high-speed data links run up to 400 MB/s for 4-bit connections and 800 MB/s for 8-bit connections● RACE++

● Direct digitization of L-Band signals● Ultra high-speed XMC transceiver● Advanced mixed-signal capability for EW, SIGINT, ELINT, SDR, radar and wireless test and measurement● Powered by Xilinx Virtex-6 technology● Single channel 12-bit ADC at up to 3.6 GSPS or dual channel 12-bit ADC at up to 1.6 GSPS● Single channel 14-bit DAC at up to 2.5 GHZ● Analog IF

Wideband DCM-V6-XMC Module

Echotek Series

Echotek Series

Echotek Series

● Rugged FMC mezzanine (VITA 57.1) for OpenVPX carrier card mounting● Synchronized and coherent ultra wideband: 2.3GSPS● 2 Inputs/2 Outputs● Ultra high resolution: 12-bit on ADCs, 14-bit on DACs● Ultra high bandwidth: 1GHz instantaneous over 2.5GHz range● Two TI ADC12D1600RF, 12bit ADCs, dual-edge sampling to 2.3GSPS● Two Maxim integrated MAX5879, 14bit DACs, output conversion to 2.3GSPS● Coherent multi-channel, multi-board synchronization● V7 device forward-compatibility

AD DA

DCM-2R2300-2T2300-FMC Transceiver

Four QSFP cages and connectors per OpenVPX™ slotvia two IOM-QSFP-FMC Optical Interface FMCsFull duplex data rate of 3.125 to 5 GbpsSFPDP protocol support, subset components provided for VITA-49 Digital IF developmentModular approach allows for the exchange of fibermedia without baseboard removalFMC HPC connection to Virtex®-6 FPGAs (SX315/SX475/LX240T) on Serial RapidIO®-enabled SCFE-V6-OVPX baseboardFiber Channel

2.5 Gbaud of full-duplex bandwidth per channel withtwo or four channels per cardFiber connection distances of up to 150 mLatency as low as 4 μsEach channel programmable for data distribution withoutprocessor interventionLinked-list DMA controller for intelligent control of datadistributionData transfer facility layered on top of standard MercuryInterprocessor Communication System (ICS) PCI-e

2.5 Gbaud of full-duplex bandwidth per channel with twoor four channels per cardFiber connection distances of up to 150 mLatency as low as 4 μsEach channel programmable for data distribution withoutprocessor interventionLinked-list DMA controller for intelligent control of datadistributionData transfer facility layered on top of standard MercuryInterprocessor Communication System (ICS)SFPDP

Up to eight 10GbE channels per 6U OpenVPX slot Rear Transition Module available supports two IOM-200 XMCs Includes high-performance user programmable FPGA Mercury-provided Intel-based drivers supported under LinuxSRIO

Ensemble IOM-141 Streaming I/O XMC

SCFE-V6-4QSFP-OVPX 16 CH (4 X QSFP) Fiber OpenVPX FPGA Module

Ensemble SeriesEchotek Series

Ensemble IO Mezzanine Series IOM-120 and IOM-140 sFPDP XMC

Digital IO Products

Storage Solutions

Product

Ultra-High Density Data Storage Tech Brief Data Storage Unit Solution Brief Ensemble Storage SubsystemsEnsemble Storage SubsystemsSTO-6001 Subsystem

Ensemble IO Mezzanine IOM-200 XMC and IOR-280 RTM Module

Ensemble Series

Ensemble Series

7-million gate Xilinx Virtex-5 FPGA with its own memory,I/O, and RapidIO connectionFour QDRII SRAM memory controllers, each with 9 MB of SRAM18-bit-wide datapaths at 400 Mb/s per wire for a total of900 MB/s of read bandwidth and 900 MB/s of write bandwidthCombined SRAM on the four controllers for a total of 36MB/s of memory with a peak bandwidth of 7.2 GB/sdSRIO

Ships as a fully integrated system, based on the Ensemble™ 1000 system architecture and modules with all suppliedhardware pre-configuredMultiple plugin modulesPCI Express® backplane with four lanes of PCI Express bandwidthRugged features, including o-ring sealing, and EMI isolation, high-reliability connectors, extended temperature ranges, and locking modules

One MPC8640D dual-core microprocessor, 2-GB DDR2 SDRAM, and 128-MB flash EEPROM on each computenodee600 core (with per core Altivec™ 128-bit vector processingengine), 32-KB instruction, 32-KB data L1 cache, and on-chip 1-MB L2 cache on each MPC8640D coreDouble data-rate SDRAM128-MB flash EEPROM on each node0SRIO

Eight mezzanine card sitesFour mezzanine sites on front panel accept IEEE 1386.1 standard PMC or XMC cardsFour XMC mezzanine sites on backMPC8640D dual-core microprocessor running Linux® for I/O control and driver support for the PMC/XMC sites512 MB of flash memoryMultiple IO

Ultra-Compact Embedded Computer

PowerBlock 15

FCN7300 Module HCD7500 Module

Featured Sub-systemsEsemble 7100 Platform

SFM7180 Module

Ultra-Compact Embedded Computing Chassis

PowerBlock 50

OpenVPX System

Ensemble 3000 Series (3U)

Designed for rugged deployments with o-ring sealing, high-reliability connectors, extended temperature ranges, and module wedge locksSingle-board computing modules, coupled with dedicated I/O daughtercardsHigh-performance computing modules featuring the latest FPGAsGPU modulesSATA hard disk or solid state storage drivesFully loaded system provides up to 4,000 GFLOPS of compute performance4 lanes of PCI Express bandwidth via switched backplane to each of the up to six plug-in modulesGigabit Ethernet

Comprised of three module types: system controller hub(SCH), data-planeswitch (DPS), and payload modules,which can include processing modules, I/O, carriers, or combinations of bothFive types of independent planes: IPMI-based system management plane,Gigabit Ethernet control plane, high-bandwidth data plane for direct support of multi-stage processing, sensorplane with associated sensor control-plane interface, and daisy-chain expansion planeCompliance with VITA 46 and 48 standards (VPX-REDI), conduction-cooled versionsMultiCore Plus® software environment, which offers application portability among Mercury platforms and incorporates open standards such as Linux® and the Eclipse™ IDEMercury MathPack software package with algorithm suite, Scientific Algorithm Library (SAL), in single-core and multi-core (MC SAL) versions

Low-profile design takes up a minimum of spaceAluminum construction minimizes enclosure weightElectrostatic discharge (ESD) jacks provided on both the front and rear of chassisSpecially designed cable access holes support the routing of cables to both front panel and rear transition areaErgonomic space design for injector/ejector seating enables the high extraction force needed for OpenVPX modulesSwitches provided for SYS_RESET and NVMRO OpenVPXsignalsChassis ground stud provided at rear of enclosureTwo removable I/O panels provide access to customcabling or additional I/O configurations

OpenVPX Development Chassis -6 slot

Ensemble Subsystems (6U)

OpenVPX Development Chassis -16 slot

Ensemble Subsystems (6U)

STO-6001 Subsystem

Ensemble Storage Subsystems

Compact design takes up a minimum of spaceAluminum construction minimizes enclosure weightElectrostatic discharge (ESD) jacks provided on both thefront and rear of chassisSpecially designed cable access holes support the routingof cables to both front panel and rear transition areaErgonomic space design for injector/ejector seating enablesthe high extraction force needed for OpenVPX modulesSwitches provided for SYS_RESET and NVMRO OpenVPXsignalsChassis ground stud provided at rear of enclosure

Built from off-the-shelf technologiesFocused on data rate performance and deployment readinessProtocol-agnostic for system-specific customization

Fully integrated, pre-configured systems with a combination of Intel® x86 processors, field-programmable gate arrays(FPGAs), and graphics processing units (GPUs)Linux® BSP development environment with cross-compileand debug tools targeting Intel® EP80579 and Core i7 processorsModular architecture that allows flexible configurations of heterogeneous multiprocessor arrays, high-performance I/O,and local storageGigabit Ethernet

Six AMC bays with a wide range of fabric and clock optionsSupports six single-width, mid-height AMCs or a combination of mid/full-height and single/double-width AMCsGigabit Ethernet base interfaceChoice of RapidIO, 10 Gigab it Ethernet and PCIExpressfabric connectivityBuilt-n system manager with full MicroTCA Carrier Hub functionalitySupports point-to-point connectivity for SATA and SASinterfaces

Completely integrated 10 Gbps ATCA system solutionModular configurations based on AMC form factorScalable with 2-, 5- and 14- or 16-slot configurationsSupports hot-swappable AMC modules

RapidIO connections to 12 AMC slotsGigE connections for base interfaceSystem management via IPMI

Compact Fabric-Enabled MicroTCA Chassis

Ensemble 2000 Series

Advanced TCA Application Platform

Featured Sub-systemsEsemble 1000 Family of Systems

12-Slot MicroTCA Chassis

Ensemble 2-Slot MicroTCA Chassis

1U PicoTCA form factorTwo RapidIO-interfacing AMC baysSupports IPMI management and controlIntegrated air filter, fan, and front-replaceable fan tray

Ensemble Series Ensemble Series

Ensemble Series

Support for both ends of CXP-6 up to 6.25 Gbps

downlink, 20.83 Mbps uplink

32-bit AXI4 master/slave interfaces for

downlink/control

Glueless interface to CoaXPress tranceiver

Altera and Xilinx FPGAs supported

Industry-standard, high-performance, packet

-switching technologies

Independent of physical layer designs,

implementation tools, and target technology

Sophisticated queuing

Multiple DMA engines

Serial RapidIO mailboxes and interrupts

Address mapping

Support for both ASICs and FPGAs

Facilitates High-Bandwidth, Low-Latency

Communications

Enables Mixed Backplane Communications with

Open-Standard Architecture

Improves SWaP and Enables User

Customization

Product

Product

Product

Summary

Summary

Summary

Ipcore

Feature

Feature

Feature

Royalty free solution

Low latency, precise triggering, fixed delays and

long cable lengths provide support for

emerging imaging applications

Streamlines the integration of imaging

solutions with FPGA-based architectures

when combined withMercury’s CoaXPress

AXI IP Core

Industry-standard, high-performance,

packet-based interconnect technology

Provides both serial RapidIO and PCI

Express endpoints

Implements an advanced buffering scheme,

address remapping, and MSI/MSI-x interrupts

Includes a Multi-Channel DMA controller

Targets both FPGA and ASIC technologies

Provides intelligent bridge between industry

standard fabrics

Improves networking and I/O performance,

while providing easy upgrade path to future

technologies

Facilitates microprocessor-independent,

scalable design

Eliminates need for additional hardware,

improving SWaP and reducing costs

Allows user customization for value-add with

modular, highly configurable design

CoaXPress AXI IP Core

PCIe-to-Serial RapidIO

Intelligent Bridge IP Core

Protocol Offload Engine

Technology (POET)

Industry-standard, high-performance,

packet-based interconnect technology

Provides both RapidIO endpoint and switch

applications

Implements an advanced buffer management

scheme

Targets both FPGA and standard cell

technologies

Scales to 10 Gbps and beyond

2.1 5-GBaud RapidIO channelized streaming

endpoint

OCP user interface

RapidIO inerface on fabric side

OVM-based test bench with database

Please contact us for detail information

High-performance, high-function core

Ideal for use in a variety of high-end embedded

compute applications

Simplifies the construction of add-on

third-party bus interfaces

Industry-standard, high-performance,

packet-based interconnect technology

Provides RapidIO® 2.1 5-GBaud channelized

streaming endpoint

Industry-standard OCP® user interface

Ideal for guaranteed delivery chip-to-chip

communications

Small footprint

Targets both Xilinx® v5, v6 and Altera®

Stratix® IV

Serial RapidIO IP Core

Serial RapidIO Sensor IP Core

Signal Processing Cores

Signal Processing Control Cores

Sensor Interface Cores

Memory Interface Cores

Control Plane Cores

Data Plane Cores

Timing and Control Cores

BIT Cores

Product Summary Feature

Product Summary Feature

EchoCore IP Offerings

Ipcore

Mercury offers a wide array of operating systems support, especially for those customers requiring

Linux. For our Intel-based hardware, Mercury is leveraging what’s already been optimized in the open

source space by RedHat™. For PowerPC-based hardware, Mercury has applied real-time expertise

to finely tune the Linux offering to achieve very deterministic processing times with low jitter. These

deterministic processing times allow you to use the rich Linux environment and supported software

while achieving predictable high performance.

Many customer deployments require integration services, including operating system customization,

certification and development.

Operating Systems Support

Supported Operating Syslems

System Management

Mercury is leading the embedded industry in providing open standards–based system

management solutions. Our system management framework is based on SNMP (Simple

Network Management Protocol), a well-deployed standard telecommunications protocol

that allows seamless integration with third-party system management tools and libraries.

Our system management software lets you easily manage your embedded system —

from the lab all the way to deployment. It also provides top-flight configuration management

and generates automatic notifications of any faults that occur in the system, so you can

quickly identify and fix the failure.

Of course, Management Information Bases (MIBs) are shipped as part of our standard

software offering. MIBs allow you to manage Mercury’s hardware through a standard

interface: Simple Network Management Protocol (SNMP). These MIBs are part of the

normal product documentation.

Technologies

SNMP MIBs

RedHat Enterprise Linux with MRG™ Real Time support for Intel®

Linux for PowerPC™ (distributed through Timesys)

Wind River VxWorks™ for PowerPC™

Wind River VxWorks™ for Intel®

Wind River Linux for Intel®

Through the years, Mercury has helped shape the high-performance embedded computing

industry. How do we do it? By constantly creating, influencing and adopting emerging technologies.

We also serve as thought leaders across the industry, actively contributing to the efforts that lead to

open software standards.

Leading the way for Mercury are three industry-leading, distributed multi-computing solutions: our

Interprocessor Communication System (ICS/DX) software, performance-enhanced version of

OpenMPI/OFED libraries, and Protocol Offload Engine Technologies (POET). Each solution is

designed to meet the low-latency and high-throughput requirements of high-performance networking

applications in the embedded computer market.

Distributed Computing Software

Products

Mercury’s software complements our board and system offerings with a rich cross-section

of open standard, mainstream and proprietary libraries. Our processing libraries not only

maximize software performance and productivity, they also enable software portability

across a variety of hardware architectures such as Intel, PowerPC and GPUs.

When combined with powerful integrated tools, Mercury’s processing libraries make

application development easier and more cost-effective. What’s more, our scientific and

image processing math libraries lead the industry in performance. Mercury also offers

OpenSAL, an open source version of these libraries.

Processing Libraries

Products

MathPack

Imaging Toolkit

Services

To learn more aboul Mercury’s service offerings, click the link(s) below or contacl us.

Algorithm optimization

Performance Enhanced OpenMPI/OFED

Interprocessor Communication System (ICS/DX)

Protocol Offload Engine Technologies (POET)

Jayang B/D B1F, 47, Achasan-ro 58-gil, Gwangjin-gu, Seoul, Korea

www.iedel.com

Tel. 82-2-733-3677 Fax. 82-2-2179-9677