product

Network Function Virtualization and Software Defined Network

NFV and SDN

Patton Electronics Co.

NFV and SDN - Patton Electronics Co.

Network Function Virtualization (NFV) is a concept closely-related to software defined networking (SDN) whereby certain aspects of network operations (routing for example) are de-coupled from hardware and delivered as a software-only product or service. The software solutions sometimes called Virtual Machine (VM) Software Editions. Network operators, service providers, and enterprise network administrators can employ Virtualized Network Functions (VNF) to accelerate deployment of network services, cut capital expenses and reduce operating costs.

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USRP Software Defined Radio Stand-Alone Device

NI

NI

The USRP Software Defined Radio Stand-Alone Device consists of an onboard processor, FPGA, and RF front end. You can program this device using either LabVIEW Communications System Design Suite or an open-source software workflow, depending on the operating system you choose. You can provision the device with NI Linux Real-Time, Linux Fedora, or Linux Ubuntu real-time operating systems. The USRP Software Defined Radio Stand-Alone Device enables you to prototype a range of advanced research applications such as stand-alone LTE or 802.11 device emulation; Medium Access Control (MAC) algorithm development; multiple input, multiple output (MIMO); heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.

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USRP-2900, 70 MHz to 6 GHz USRP Software Defined Radio Device

784039-01

NI

784039-01 - NI

70 MHz to 6 GHz USRP Software Defined Radio Device - The USRP‑2900 is a tunable RF transceiver with full-duplex operation. It offers bus-powered connectivity with USB 3.0 or USB 2.0. You also can use the NI USRP‑2900 for the following communications applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed device (ISM) bands; sensor networks; amateur radio; or GPS.

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400 MHz to 4.4 GHz, Reconfigurable USRP Software Defined Radio Device

783147-01

NI

783147-01 - NI

400 MHz to 4.4 GHz, Reconfigurable USRP Software Defined Radio Device - The USRP-2942 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.

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400 MHz to 4.4 GHz, Reconfigurable USRP Software Defined Radio Device

783924-01

NI

783924-01 - NI

400 MHz to 4.4 GHz, Reconfigurable USRP Software Defined Radio Device - The USRP-2942 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.

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50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device

783923-01

NI

783923-01 - NI

50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device - The USRP-2940 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.

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USRP-2901, 70 MHz to 6 GHz, 2-Channel USRP Software Defined Radio Device

784040-01

NI

784040-01 - NI

70 MHz to 6 GHz, 2-Channel USRP Software Defined Radio Device - The USRP‑2901 is a tunable RF transceiver with full-duplex, MIMO operation. It offers bus-powered connectivity with USB 3.0 or USB 2.0. You can also use the NI USRP‑2901 for the following communications applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed device (ISM) bands; sensor networks; amateur radio; or GPS.

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USRP-2940, 50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device

783146-01

NI

783146-01 - NI

50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device - The USRP-2940 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.

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400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device

783151-01

NI

783151-01 - NI

400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device - The USRP-2952 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and shorten time to results. You can prototype a range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The USRP-2952 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) reference clock. GPS disciplining delivers improved frequency accuracy and synchronization capabilities.

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400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device

783927-01

NI

783927-01 - NI

400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device - The USRP-2952 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and shorten time to results. You can prototype a range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The USRP-2952 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) reference clock. GPS disciplining delivers improved frequency accuracy and synchronization capabilities.

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50 MHz to 2.2 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device

783150-01

NI

783150-01 - NI

50 MHz to 2.2 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device - The USRP-2950 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. With the flexible hardware architecture and the LabVIEW unified design flow, researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The USRP-2950 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) reference clock. GPS disciplining delivers improved frequency accuracy and synchronization capabilities.

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50 MHz to 2.2 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device

783926-01

NI

783926-01 - NI

50 MHz to 2.2 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device - The USRP-2950 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. With the flexible hardware architecture and the LabVIEW unified design flow, researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The USRP-2950 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) reference clock. GPS disciplining delivers improved frequency accuracy and synchronization capabilities.

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USRP-2920, 20 MHz Bandwidth, 50 MHz to 2.2 GHz USRP Software Defined Radio Device

781906-01

NI

781906-01 - NI

20 MHz Bandwidth, 50 MHz to 2.2 GHz USRP Software Defined Radio Device - The USRP‑2920 is a tunable RF transceiver with a high-speed analog‑to‑digital converter and digital‑to‑analog converter for streaming baseband I and Q signals to a host PC over 1 Gigabit Ethernet. You can also use the USRP‑2920 for the following applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed devices on industrial, scientific, and medical (ISM) bands; sensor networks; cell phone; amateur radio; or GPS.

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USRP-2974, 10 MHz to 6 GHz, x86 Processor, GPS-Disciplined OCXO, USRP Software Defined Radio Stand-Alone Device

785606-01

NI

785606-01 - NI

The USRP-2974 is built on the LabVIEW reconfigurable I/O (RIO) architecture with an onboard Intel Core i7 processor running the NI Linux Real-Time OS. The USRP-2974 is a USRP Software Defined Radio Stand-Alone Device, meaning that you can target the onboard processor with LabVIEW Communications System Design Suite to deterministically perform processing. The USRP-2974 is also equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) Reference Clock. You can prototype a range of advanced research applications that include stand-alone LTE or 802.11 device emulation; Medium Access Control (MAC) algorithm development; multiple input, multiple output (MIMO); heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.

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USRP‑2930, 20 MHz Bandwidth, 50 MHz to 2.2 GHz, Included GPS-Disciplined OCXO, USRP Software Defined Radio Device

781910-01

NI

781910-01 - NI

20 MHz Bandwidth, 50 MHz to 2.2 GHz, Included GPS-Disciplined OCXO, USRP Software Defined Radio Device - The USRP‑2930 is a tunable RF transceiver with a high-speed analog‑to‑digital converter and digital‑to‑analog converter for streaming baseband I and Q signals to a host PC over 1 Gigabit Ethernet. It also features a GPS-disciplined oscillator (GPSDO) with PPS accuracy of ±50 ns. You also can use the NI USRP‑2930 for the following communications applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed devices on industrial, scientific, and medical (ISM) bands; sensor networks; cell phone; amateur radio; or GPS.

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L2-3 Network Infrastructure Performance Testing

IxNetwork

Keysight Network Applications and Security

IxNetwork - Keysight Network Applications and Security

IxNetwork is a comprehensive network infrastructure performance testing solution. It scales to handle most powerful devices and largest networks, from routing and switching to data center ethernet and software defined networking.

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IV Curve Tracer

IVCT

PSE Instruments GmbH

IVCT - PSE Instruments GmbH

In recent years, we have been developing a sophisticated IV curve tracer for PV modules including a maximum power point tracking (MPPT) function. The IV curve tracer is designed for operation with any market-available steady-state solar simulator. Through our web-based software design, the operator can supervise the test results from every computer in a company network. The software contains functions such as an irradiation sum counter that helps to check requirements stated in a stabilization test like they are defined in IEC 61215 (MQT 19). We have also included a correction function to correct the traced IV curves to standard test conditions (STC) when the user enters the required temperature coefficients. One of the most important features is the multi-IV curve tracing function, which enables the user to display more than 150 IV curves in one graph. This eases the analysis of the weakest cells in hot-spot tests, which are required in IEC 61730 (MST 22) and IEC 61215 (MQT 09).

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NITOS Wireless Sensor Platform

NIT Laboratory

NIT Laboratory

The NITOS prototype wireless sensor mote, is comprised of open-source and configurable modules. NITOS mote features the ATmega32u4 microcontroller running at 8MHz and operating at 3.3V. The aforementioned microcontroller is fully compatible with the Arduino platform that enables ease of software development and provides compatibility with several commercial sensing modules. Moreover, the platform is equipped with an Xbee radio interface that enables communication with the respective gateway. The Xbee module is a tiny device ideal for setting up mesh networks and has a defined rate of 250 kbps. This module uses the IEEE 802.15.4 stack which is the basis for theZigbee protocol. Apart from the Xbee module, NITOS mote can also feature a WiFi wireless interface in order to communicate with WiFi gateways. The developed mote currently features specific sensing modules, an air temperature and humidity sensor, a light intensity sensor and a human presencesensor. Various types of sensing modules and actuators can be further integrated exploiting existing Arduino software that implements several existing communications protocols. The firmware can be easily uploaded through the on-board USB connection. Figure 1 illustrates the developed NITOS mote and the respective gateway node.

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Advanced High Speed Test Probe

SQprobe

Telchemy Incorporated

SQprobe - Telchemy Incorporated

SQprobe® is an advanced high speed probe designed for emerging software defined (SDN) and virtualized networks. It monitors IP based voice, video, audio and data streams at Gigabit rates, performing deep packet inspection (DPI) and providing accurate and detailed real time service quality metrics, usage and demographic data.

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Virtual SBC

Patton Electronics Co.

Patton Electronics Co.

What is a virtual session border controller or virtualized SBC? Traditionally, a session border controller (SBC) is a device positioned between carrier networks or between an enterprise LAN and a service-provider WAN. In the latter case, the border controller is called an enterprise session border controller or eSBC. Whether it is delivered as a dedicated hardware session border controller or a virtualized network function, (a.k.a. software SBC) the border controller manages call (session) setup and teardown. The SBC also provides network demarcation (demarc), or separation (border) between network domains, as well as other types of management (control) over the data streams that pass between networks. With the growing popularity of software defined networking (SDN) and the burgeoning market development and adoption of network function virtualization (NFV), eSBC functionality is more and more often de-coupled from a dedicated hardware device and delivered as a virtual instance running as a virtual machine (VM) on top of a hypervisor. It is generally not well understood in the market why an eSBC is such a critical network element for a secure and reliable SIP-based enterprise phone system. The following publication will help close that knowledge gap.

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PXI-5670, 2.7 GHz PXI Vector Signal Generator

PXI-5670 / 778768-01

NI

PXI-5670 / 778768-01 - NI

2.7 GHz PXI Vector Signal Generator—The PXI‑5670 has the power and flexibility you need for product development applications from design through manufacturing. It can generate custom and standard modulation formats such as AM, FM, PM, ASK, FSK, PSK, MSK, and QAM. The PXI‑5670 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as for emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks.

product

PXI-5670, 2.7 GHz PXI Vector Signal Generator

778768-02

NI

778768-02 - NI

2.7 GHz PXI Vector Signal Generator—The PXI‑5670 has the power and flexibility you need for product development applications from design through manufacturing. It can generate custom and standard modulation formats such as AM, FM, PM, ASK, FSK, PSK, MSK, and QAM. The PXI‑5670 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as for emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks.

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PXI-5670 , 2.7 GHz RF Vector Signal Generators

778768-04

NI

778768-04 - NI

2.7 GHz PXI Vector Signal Generator—The PXI‑5670 has the power and flexibility you need for product development applications from design through manufacturing. It can generate custom and standard modulation formats such as AM, FM, PM, ASK, FSK, PSK, MSK, and QAM. The PXI‑5670 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as for emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks.

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PXI-5670, 2.7 GHz RF Vector Signal Generators

PXI-5670 / 778768-03

NI

PXI-5670 / 778768-03 - NI

2.7 GHz PXI Vector Signal Generator—The PXI‑5670 has the power and flexibility you need for product development applications from design through manufacturing. It can generate custom and standard modulation formats such as AM, FM, PM, ASK, FSK, PSK, MSK, and QAM. The PXI‑5670 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as for emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks.

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PXIe-5672, 2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator

779900-02

NI

779900-02 - NI

2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator —The PXIe‑5672 features quadrature digital upconversion, which reduces waveform download and signal generation time. It is a general-purpose vector signal generator that can generate standard modulation formats such as AM, FM, PM, ASK, FSK, MSK, GMSK, PSK, QPSK, PAM, and QAM. The PXIe‑5672 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks. For specific communications standards, you can use various software add-ons to generate modulated signals according to standards such as WCDMA, DVB‑H, and ZigBee.

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PXIe-5672, 2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator

779900-01

NI

779900-01 - NI

2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator —The PXIe‑5672 features quadrature digital upconversion, which reduces waveform download and signal generation time. It is a general-purpose vector signal generator that can generate standard modulation formats such as AM, FM, PM, ASK, FSK, MSK, GMSK, PSK, QPSK, PAM, and QAM. The PXIe‑5672 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks. For specific communications standards, you can use various software add-ons to generate modulated signals according to standards such as WCDMA, DVB‑H, and ZigBee.

product

PXIe-5672, 2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator

779900-03

NI

779900-03 - NI

2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator —The PXIe‑5672 features quadrature digital upconversion, which reduces waveform download and signal generation time. It is a general-purpose vector signal generator that can generate standard modulation formats such as AM, FM, PM, ASK, FSK, MSK, GMSK, PSK, QPSK, PAM, and QAM. The PXIe‑5672 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks. For specific communications standards, you can use various software add-ons to generate modulated signals according to standards such as WCDMA, DVB‑H, and ZigBee.

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1U 19” Network Appliance With AMD® Ryzen 7000 Family Processor

CSA-5100A

ADLINK Technology Inc.

CSA-5100A - ADLINK Technology Inc.

CSA-5100A is a powerful 1U rackmount network appliance, designed for mid-range network security applications like Firewall-as-a-Service (FWaaS) and Next-Generation Firewalls (NGFW), SD-WAN, End-to-end encryption, WAN optimization, cloud acceleration, NGFW, advanced threat prevention, mobile security, secure web gateway.

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I-Pi OSM Development Kit Based On NXP® I.MX 93 Dual-Core Arm® Cortex-A55 & M33

I-Pi OSM IMX93

ADLINK Technology Inc.

I-Pi OSM IMX93 - ADLINK Technology Inc.

The I-Pi OSM IMX93 is an OSM-based smart solution development kit powered by NXP i.MX93 (dual-core Arm Cortex-A55 & Arm Cortex-M33) processor with an in-SoC Arm Ethos-U65 microNPU (Neural Processing Unit).

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I-Pi SMARC Development Kit Based On Intel® 6th Gen Atom® X6425E Quad-Core SoC

I-Pi SMARC Elkhart Lake

ADLINK Technology Inc.

I-Pi SMARC Elkhart Lake - ADLINK Technology Inc.

The I-Pi SMARC Elkhart Lake is a SMARC-based edge solution development kit powered by Intel Atom x6425E quad-core SoC with integrated Intel UHD graphics and comprehensive high speed interfaces. Development-focused, this kit also supports the latest version of the Intel® Distribution of OpenVINO™ toolkit, which features more deep-learning models, higher inferencing performance, and fewer code changes, making developing ever simpler.