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Network Time Protocol
synchronizes clocks between computers via a packet switched net.
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Network Protocol Analyzer
Wireshark
Wireshark is the world''s foremost network protocol analyzer. It lets you see what''s happening on your network at a microscopic level. It is the de facto (and often de jure) standard across many industries and educational institutions. Deep inspection of hundreds of protocols, with more being added all the time. Live capture and offline analysis. Standard three-pane packet browser. Multi-platform: Runs on Windows, Linux, macOS, Solaris, FreeBSD, NetBSD, and many others. Captured network data can be browsed via a GUI, or via the TTY-mode TShark utility.
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The Industry Standard for Automated Network Protocol Validation
IxANVL
Keysight Network Applications and Security
With Ixia’s IxANVL (automated network validation library), you can quickly and effortlessly access a vast array of protocol libraries and utilities to validate protocol compliance and interoperability. Easy to use thanks to an enhanced GUI and flexible test-automation capabilities, IxANVL delivers a number of key advantages. By emulating large, multinode networks, it not only reduces costs—it also leads to more efficient testing and faster product-release times. And extensive and thorough automated testing increases your confidence in product quality.
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DOCSIS Protocol Analyzer
XRA-31
Fast DOCSIS® 3.1 testing and communication troubleshooting is a must to ensure your network is performing the way it should. The key to easy, lighting-fast analysis? Our XRA-31 real-time DOCSIS protocol analyzer. Featuring an exceptionally intuitive GUI, the XRA-31 makes packet capture and analysis a smooth, quick, and pleasant experience – to help you pinpoint issues in no time.
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Protocol Test Family
The VIAVI Protocol Test product family provides scalable end to end protocol analysis of multiple mobile technologies for issues that occur at any time (including in the past) for multiple users in a fraction of the time. The product family also supports Virtual Ethernet lifecycle management solution for test, service activation, performance monitoring and troubleshooting on all network layers.
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GPS NTP Time Server - SYNTIME
Signals & Systems India Private Limited
Your product description goes hGPS NTP Time Server (SYNTIME) for Network Time Synchronization is a highly accurate time server. It generates time protocols to synchronize NTP/SNTP clients (Simple Network Time Protocol)/PTP clients (Precision time protocol IEEE 1588) over the network and operates at a speed of 10/100/1000Mbps. The NTP server accepts the time and frequency signals from sources like GPS or GLONASS. It achieves nanosecond accuracy and the system clock operates at stratum 1 when synchronized with time sources. It is a sleek, rack-mountable unit that synchronizes and maintains equipment/device time and avoiding any time drifts due to local RTCs. NTP output from time server supports unicast, broadcast, and multicast methods based on selection and behaves like a reference clock for the network. Apart from time synchronization protocols, it supports MD5 (Security key), SNMP, SSH, HTTP (Configuration), TELNET, FTP, and SYSLOG. IP address of the LAN ports can be field configurable.
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Fibre Channel, Ethernet, & MIL-Firewire Protocol Analyzer
Cipher
Avionics Interface Technologies
Supports Multiple Network Protocols including Ethernet, FibreChannel, & MIL-Firewire (AS5643) - High Performance Filtering & Search - Built-in protocol decoders for: FC-AE-ASM, FC-AE-RDMA, FCAE-1553, AS5643, Ethernet, IPv4, IPv6, UDP - User defined “protocol decoders” for custom & proprietary protocols - Database architecture for handling very large data sets - Multiple, Simultaneous views of data sets with time correlation of data across multiple views. - Compatible with common network analysis tools such as - Wireshark (e.g. Imports/Exports to PCAPNG) - Compatible with AIT’s Fibre Channel Test - Instruments for live capture, triggering, and filtering.
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LANTIME Stratum 1 Server for all networks
Meinberg Funkuhren GmbH & Co. KG
Our Network Time Protocol (NTP) is the only way to get the most out of your network, to-use time server appliances.
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IO-Link Transceivers
IO-Link is a Factory Automation fieldbus-independent communication standard dedicated to connecting sensors and actuators as described in the IEC 61131-9 standard. Easily integrated with any of the most commonly used communication protocols found in factory automation systems through dedicated interfaces or bridges, it is a simple solution for extending existing networks to connect remote sensors and actuators. Developers will take full advantage of the Industry 4.0 or Industrial Internet of Things (IIoT) concept where every sensor and associated data point is used to control and optimize even the most complex industrial processes in real time.
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Multi-Layer Analyzers
LTE-Advanced Xpert™
The LTE-Advanced Xpert multi-layer analyzer is a unique, real-time continuous protocol analyzer for LTE and LTE-Advanced networks. Installed between a base station and its served mobile devices, the LTE-Advanced Xpert captures the LTE-Uu uplink and downlink transmission and performs deciphering and analysis of data and control channels in real time.
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PC-Based Software Program for Displaying Multple SPL-Displays from a Number of RT-Captures Over LAN in One Single Window
Remote-SPL
During big events, such as festivals, it’s required to make sound level logging in front of many stages and positions. To be able to supervise all these locations in real time, the SPL values can be communicated over Local Area Network (LAN) or Wireless LAN, WLAN. Sound Level Management and/or Production office or festival management will be able to watch levels in real time and prepare actions if limits are exceeded. Message can be sent to each SPL-display individually to Front of House for example.Remote-SPL is a PC-based software program for displaying multiple SPL-displays from a number of RT-Captures over LAN in one single window. Messages can be sent individually to each SPL-display in the RT-Capture. RT-Capture’s logging and Remaining Leq can be started remotely over LAN in the Remote-SPL control windows.Up to 256 RT-Capture can be remotely displayed, but the screen size will limit long before that number is reached.An unlimited number of Remote-SPL can watch the RT-Capture LAN. The network protocol we use will broadcast the data in a compact format and will not consume significant bandwidth, even if there is a large number of RT-Captures and Remote-SPLs on the LAN.
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AERINOS ProfiSens IOT
Infinite Industrial Informatics Lt
AERINOS® ProfiSens is a local area wireless IOT platform. It comprises wireless sensor nodes and a 3G Data Concentrator/ Gateway. Using ProfiSens, you can deploy anywhere your own IOT network. The battery powered, wireless End nodes, offer reliable communication and outdoor enclosures to satisfy a variety of measurement and monitoring applications. The acquired sensor data wirelessly transmits to the data concentrator with 3G, GSM/GPRS connectivity, which forwards data files to an FTP server and alarm SMS to predefined users.The coverage of the wireless network can reach a radius of 1-6 km (Line of sight). The platform is available for the 433 MHz license free band and optional for the 868 MHz and 915 MHz bands.The wireless network uses a proprietary protocol with bidirectional communications. The sensor nodes are frequently synchronized by the data concentrator in order to achieve real time data collection with a fixed update rate of 5 minutes. Data concentrator and sensor end nodes support autonomous battery powered operation and provide options for external power supply.
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ARINC818 Cards
> ARINC818 is a specification which has become an Industry standard for the transmission of uncompressed digital video. This commercial standard uses Fibre Channel as a point-to-point communication link for low latency with the ARINC818 defining the packetized protocol for transmission of the digital video information. It is highly flexible and can be used for a variety of onboard display systems in both commercial and military applications. AIM’s ARINC818 cards use our field proven Common Core hardware design giving the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core designs with one dual core RISC processor per port, massive DDR3 memory and IRIG-B time encoder/decoder functions are standard. The ARINC818 modules are available in PCIe formats.The new ultra high performance intelligent 4-lane PCIe 2.0 interface modules offer 2 ports with full function test, simulation, monitoring and analyzer functions for ARINC818 interfaces. The dual core processor provides onboard processing and data transfer capabilities for the most demanding applications including ARINC818 support done on board level. Large and high data throughput DDR3 RAM is accessible for the onboard processor as is a high performance FPGA implementing the customized ARINC818 Interfaces enabling the board to analyze incoming data in real time. Each module provides 2 ARINC818 compliant ports. SFP cages make it suitable for different media types as optical or electrical network technologies. Each module is delivered with a Board Support Package (BSP) containing the onboard driver software, a full Application Programming Interface (API) and detailed getting started and programming guides. Powerful PBA.pro databus test and analysis software is optionally available for all our ARINC818 cards.
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Clock Synchronization
Analog Devices Clock synchronizers are designed for wired networking applications, providing the clock redundancy functionality needed to maximize system uptime. Our technology supports clock synchronization with common standards, including 1 pulse per second (PPS) output signal from a GPS receiver. GPS signals are broadly available and utilize an extremely stable atomic clock as its time base, but they are often noisy. Systems rely on the IEEE1588 timing protocol to establish synchronous communications across the wired network, including synchronous Ethernet and synchronous digital hierarchy (SDH) to optical transport network (OTN) mapping/demapping. The IEEE1588 protocol has emerged as the preferred method for Clock synchronizing systems throughout both computer networks and local area networks (LAN).
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Combination Module: 2 Ch. MIL-STD-1553 & 12 Ch. Discrete I/O
CM8
The CM8 module is a combination of NAI's MIL-STD-1553B module, FTB, and Enhanced Discrete I/O module, DT4. The CM8 offers twelve channels of discrete I/O and two channels of MIL-STD-1553B communications. The twelve discrete I/O channels are programmable as either input (voltage or contact sensing with programmable, on-module pull-up/pull down current sources), or output (current source, sink, or push-pull) up to 500 mA per channel from an applied, external 3-60 VCC source. The discrete I/O channels also provide additional functionality modes such as Pulse Width Modulation (PWM) output mode and Pattern Generator output mode. The two MIL-STD-1553B communications channels feature 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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DVB Software
T2MI
T2-MI Splitter service has been designed for reception of DVB T2-MI stream, extraction in real time of MPEG-TS streams out of it, and transmitting of separated streams via network for further processing by external devices or software applications. Service works either in conjunction with multichannel visual-instrumental monitoring system Stream MultiScreen or system for TV channel compiance recording Stream MultiRec. Input of T2-MI streams is supported by network interface using protocol UDP/MPEG-TS and by interface DVB-ASI provided by capture cards manufactured by Stream Labs or Dektec.
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Ethernet Adapter Supporting up to Twenty ARINC-429 Channels in Any Combination
ES-9810/A0 (RUNET II)
The EXC-9810/Ax is an Ethernet adapter supporting up to twenty ARINC-429 channels in any combination of transmit and/or receive. All of the channels feature error injection and detection.adapter. Its small size and ability to interface through Ethernet interfaces make it a complete solution for developing, testing and performing system simulation of the ARINC-429 bus, both in the lab and in the field.The receive channels allow for the storage of all selected labels with status and time tag information appended to each word, and also allow for filtering and multi-storage modes of data words. The transmit channels operate via a transmit ‘instruction stack’ which allows scheduling of data transmissions and reduces the need for host computer intervention. The EXC-9810 supports up to four independent 8000 family avionics communication modules, allowing multiple different protocols to be mixed and matched on a single card. Modules available include MIL-STD-1553, MIL-STD-1760, MMSI, ARINC-429, ARINC-708, ARINC-717, Serial, Discrete and CAN bus. In addition, multiple units can operate on the same network, by programming each one with a unique IP address, and can be accessed from any computer on the network.The EXC-9810/Ax adapter is supplied with C drivers, including source code and may be used with Exalt, Excalibur’s Analysis and Laboratory Tools, a Windows monitoring application (only versions 8.1 or higher). Please see multi protocol 8000 modules for additional information on protocols that can be added to this card.
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Fibre Channel Modules
AIM’s Fibre Channel test, simulation and analysis modules use our field proven Common Core hardware design giving you the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core designs with one dual core RISC processor per port, massive and scalable DDR3 memory and IRIG-B time encoder/decoder functions are standard. The new ultra high performance intelligent 4-lane PCIe 2.0 interface modules offer 2 ports with full function test, simulation, monitoring and analyzer functions for Fibre Channel networks. The dual core processor provides onboard processing and data transfer capabilities for the most demanding Fibre Channel applications including upper layer protocol support done on board level. Large and high data throughput DDR3 RAM is accessible for the onboard processor as is a high performance FPGA implementing the customized Fibre Channel interfaces enabling the board to analyze incoming and modify outgoing data in real time. Each module provides 2 Fibre Channel compliant full duplex ports, implementing the full link level services. SFP cages make it suitable for different media types as optical or electrical network technologies. Ports operate either in Traffic Simulator or Analyzer/Monitor mode with support for port related Frame Statistics. Sophisticated packet capturing mechanism and monitoring features are complimented with powerful triggering and filtering capabilities.
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Timing And Sync
Precision timing is critical for defense and commercial industries and powering essential network operations. Safran offers secure time servers and solutions for accurate network synchronization, ensuring security, compliance, and adherence to best practices. Safran excels in delivering precision timing solutions, including NTPNTP, or Network Time Protocol, is a widely used networking protocol that enables computers and devices to synchronize their system clocks with a reference time source. It ensures accurate timekeeping in computer networks by allowing devices to obtain precise time information from NTP servers, which are typically synchronized to highly accurate atomic clocks. NTP is essential for various applications and services that rely on synchronized time, such as network security, authentication, and data logging. time server appliances and GPSGlobal Positioning System is a navigation satellite system. See also master clocks globally.
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Wireless Vibration Sensors
A Wireless Vibration Sensor is a device that includes an Accelerometer and is capable of measuring vibration and send it to a receiver using a Wireless protocol. Depending on the wireless protocol used, some of these sensors may even transmit data in real time. Hence having the capability to connect via peer to peer or mesh network.
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1 Channel, MIL-STD-1553, Dual Redundant, Direct Coupled, Assisted Mode Capable (AMC)
FTD
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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1 Channel, MIL-STD-1553, Dual Redundant, Transformer Coupled, Assisted Mode Capable (AMC)
FTA
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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2 Channels, MIL-STD-1553, Dual Redundant, Direct Coupled, Assisted Mode Capable (AMC)
FTE
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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2 Channels, MIL-STD-1553, Dual Redundant, Transformer Coupled, Assisted Mode Capable (AMC)
FTB
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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4 Channels, MIL-STD-1553, Dual Redundant, Direct Coupled, Assisted Mode Capable (AMC)
FTF
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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4 Channels, MIL-STD-1553, Dual Redundant, Transformer Coupled, Assisted Mode Capable (AMC)
FTC
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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Precise Timing
Schweitzer Engineering Laboratories, Inc.
Precise timing is achieved using satellite clocks, which process signals from Global Navigation Satellite Systems, such as GPS, and output time to power system devices using IRIG-B, the Precision Time Protocol (PTP), and the Network Time Protocol (NTP).
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PCIe 5.0 Protocol Analyzer
P5552A
The Keysight P5552A PCIe 5.0 Protocol Analyzer introduces a new form factor that is easily deployable in the lab bench environment to enable deep protocol analysis of a PCIe system with unparallel signal integrity. Locate protocol errors or validate device operations by viewing data from the physical layer all through the transactional layer with ease.
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PCIe 5.0 Protocol Exerciser
P5551A
Keysight PCIe 5.0 Protocol Exerciser gives the flexibility in emulating either as a root complex or as an endpoint device when validating PCIe designs.
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PCIe 6.0 Protocol Analyzer
P5570A
Keysight PCIe 6.0 Protocol Analyzer redefines protocol debugging and validation through a new innovative CEM card form factor, bringing vast improvement in signal integrity and equalization with instant link-up to systems as well as devices under test
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PCI Express 4.0 Protocol Analyzer Exerciser
Summit T416
The Summit™ T416 analyzer is the computer industry's first high speed PCIe 4.0 protocol analyzer that meets the challenge of 16GT/s and up to x16 lane width protocol analysis. Many PCIe 4.0 product designs are already in progress using the PCIe 4.0 specification. Companies are currently working with the Teledyne LeCroy Summit Z416 protocol exerciser for PCIe 4.0 at the deployment of PCIe 4.0 for host system emulation with their testing needs. This combination of a protocol analyzer and exerciser make Teledyne LeCroy the only supplier of protocol test and development tools for PCIe Gen 4. High speed interposers that provide protocol analyzer connectivity to CEM or other form factor sockets on system boards will still continue to be the principle way to capture PCIe traffic into the protocol analyzer.
