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Accelerators extend Hailo-8 AI portfolio for edge AI

Fri, Aug 04, 2023

The Hailo-8 Century and Hailo-8L AI accelerators have been added to the Hailo-8 portfolio to enable high performance AI in edge devices ranging from entry level to high-capacity deployments, said Hailo.

The Hailo-8 AI accelerator offers hundreds of successful deployments in customer programs and products. The new high-performance Hailo-8 Century PCIe card line offers up to 208T operations per second (TOPS) for most demanding applications. Hailo adds that the Hailo-8L makes advanced AI processing available for entry-level applications. 

“The expansion of our Hailo-8 AI accelerator portfolio is unlocking new opportunities for our customers to harness real-time, power-efficient intelligence in a diverse range of applications and industries,” said Orr Danon, CEO of Hailo. “With the rise of generative AI driven applications, our . . . solutions bring unmatched AI performance and power efficiency, enabling state-of-the-art transformer-based models such as ViT, CLIP and SAM, at the edge,” he said.

The Hailo-8L has up to 13TOPS and is designed to support entry level products requiring limited AI capacity or lower performance. The Hailo-8 Century line comprises PCIe cards delivering 52 to 208TOPS for demanding applications such as video management systems handling a large number of video streams. The Hailo-8 Century PCIe cards deliver best-in-class power efficiency at 400FPS per Watt on the ResNet50 benchmark model. They are also cost-efficient said Hailo, representing up to 70 per cent reduction in edge AI deployment costs. The robust design supports industrial temperature ranges and ensures compatibility with virtually any environment or application, said the company. 

The Hailo-8 Century products can be used where AI compute power is large camera deployments is required, such as security, retail and smart cities for video analytics.

Hailo-8 Century and Hailo-8L deliver low latency, high efficiency processing and are capable of handling complex pipelines with multiple real-time streams and concurrent processing of multiple models and AI tasks. The expanded portfolio of Hailo-8 products features seamless scalability for future upgrades. All products are compatible with the same field-proven and comprehensive Hailo-8 software suite.

The Hailo-8L can run the benchmark classification model ResNet50 at 500 FPS, and the Century high performance PCIe cards can run this model at up to 10K FPS, outperforming Nvidia’s comparable products in performance, cost efficiency and power efficiency parameters. 

Hailo is an AI-focused chipmaker, developing specialised AI processors that enable data centre-class performance on edge devices. The processors are designed to fit into smart machines and devices, impacting a variety of sectors including automotive, security, industry 4.0 and retail.

http://www.hailo.ai 

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IoT gateways is secure for industrial use, says iWave

Thu, Aug 03, 2023

Developed for industrial IoT applications as well as enterprise, industry 4.0 and energy monitoring, the iWave Industrial IoT gateway acts as a communication hub between sensors and servers, collecting sensor data and transmitting relevant information to the cloud. It features connectivity, protocol translation, edge computing and robust security for enhanced operational efficiency, predictive maintenance and accelerated industrial digital transformation, said iWave.

The gateway can be used to collect, process and transmit data from a wide range of industrial sensors and devices. The gateway is based on an ARM Cortex-A9 processor and supports a variety of wired and wireless connectivity options.

The gateway supports 4G LTE, LoRaWAN, Wi-Fi and Bluetooth connectivity which allows it to connect to a variety of industrial devices and sensors. It also includes a number of security features, such as TSL/SSL certifications, secure boot, 128-bit AES (LoRa) encrypt/decrypt, and authentication, to protect data from unauthorised access or tampering. It also features a watchdog timer to prevent the gateway from crashing.

The gateway supports a wide range of industrial interfaces, including Ethernet, USB, CAN, RS232, RS485, analogue inputs and digital inputs to connect to a wide range of industrial equipment. The gateway supports a wide range of industrial protocols, including ModBus RTU/TCP, DLMS, Hart and Profinet to communicate with a range of industrial devices and systems.

It can also connect to the cloud, allowing it to send data to and receive commands from cloud-based applications. Cloud platforms supported are Microsoft Azure, IBM Watson, AWS, Oracle, Cumulocity IoT and Thingworx.

For uninterrupted vehicle location, it supports GNSS GPS / GLONASS / BeiDou / Galileo.

External watchdog timers support the emergency safe shutdown and auto reboot logic to ensure that the gateway remains operational even in the event of a crash. The gateway can be remotely managed, allowing administrators to configure and monitor the gateway from anywhere.

The gateway is built on a modular architecture that allows IoT sensors to be scaled-up or scale-down to meet the needs of any application, said iWave. It can be easily expanded by adding additional modules, such as wireless connectivity, interface, and storage modules.

The industrial IoT gateways facilitate the communication between IoT devices, machinery, sensors, and factory equipment, as well as communication between these devices and the cloud. They enable remote monitoring of factory assets and control of such assets.

The IIoT gateway enables real-time monitoring of PLCs, provides remote access for diagnostics and troubleshooting, offers data visualisation and analytics, and allows for integration with higher-level manufacturing systems. It enhances the efficiency, visibility, and control of PLC operations, enabling proactive maintenance, optimization, and decision-making in manufacturing plants.

In industrial settings, the industrial IoT gateway can be used to regularly monitor and manage energy consumed by machines. Sensors, meters and other IoT devices can be used to track how much energy each piece of equipment consumes to optimise energy use and boost overall efficiency by collecting energy utilisation parameters.

http://www.iwavesystems.com

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NFC antennas expand Amphenol RF portfolio for keyless access

Thu, Aug 03, 2023

The near field communication (NFC) antennas that Amphenol RF has added to its portfolio of internal RF antennas support keyless access and smart tag applications. The antennas are easy to use, said the company and are designed to support NFC Forum standards.

NFC antennas offer high performance capabilities which support NFC Forum wireless standards. They are available in standard configurations with adhesive mount options. They are short range internal antennas which operate at 13.56MHz and are therefore suitable for compact IoT devices such as smartphones, tablets and portable gaming systems as well as in payment readers and ticketing systems. They are also commonly used in devices that require pairing with a Bluetooth device.

NFC antennas are extremely small in size and are manufactured from either PI or FR-4 materials, with or without ferrite and adhesive.

Testing, tuning and measurement capabilities of NFC antennas is available. The antennas are for use in quick, short range data transfer within smart IoT devices, advised Amphenol RF.

The NFC antennas are the latest additions to Amphenol RF’s range of internal and external options. They are designed to meet any design requirement, said the company but custom designs are also available if additional assembly is needed such as cable and connector or combo-design with a wireless charging coil.

Amphenol RF is a manufacturer of coaxial connectors for use in radio frequency (RF), microwave and data transmission system applications. The company is headquartered in Danbury, Connecticut, USA and has sales, marketing and manufacturing locations in North America, Asia and Europe. Standard products include RF connectors, coaxial adapters and RF cable assemblies. Custom engineered products include multi-port ganged interconnect, blind mate and hybrid mixed-signal solutions.

https://www.amphenolrf.com

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Radar sensor is smallest 60GHz with antennas in package, says Infineon 

Mon, Jul 31, 2023

The BGT60UTR11AIP Xensiv 60GHz radar sensor is in a compact antenna in package (AIP) for a footprint of just 16mm2, for use in consumer electronics, IoT applications and healthcare devices, said Infineon Technologies.

The company said it is the smallest 60GHz radar sensor with AIP available today and is suitable for small devices, for example vital sensing (heart and respiratory rate) and healthcare devices such as baby monitors and sleep trackers. It is also suitable for consumer electronics such as laptops, TVs and cameras, as well as smart home and building devices such as air conditioners, thermostats and smart doorbells. The radar sensor can also be used in industrial applications including robotics and tank level measurement.

The monolithic microwave integrated circuit (MMIC) is based on Infineon’s B11 SiGe BiCMOS technology. It has a wide bandwidth of 5.6GHz and a ramp speed of 400MHz per microsecond to enable high resolution frequency modulated continuous wave (FMCW) operation with sensitive presence and motion detection at up to 15m (50 feet). The sensor also enables precise distance measurement, 1D gesture and vital sign detection, all with sub-mm motion detection capabilities. 

The integrated antennas provide a ±60 degree field of view while an integrated state machine enables real time data acquisition without processor interaction. The MMIC also includes a 12-bit ADC with a sampling rate of up to 4Msamples per second).

The MMIC’s built-in broadcast mode allows multiple chips to be synchronised. It also includes on-chip sensors for measuring Tx output power and temperature. A deep sleep mode ensures the sensor’s low power operation, added Infineon.

The Xensiv 60GHz radar BGT60UTR11AIP sensor can be ordered now and will begin shipping in Q4 2023. The Demo BGT60UTR11AIP and the radar development kit (RDK) are both available for download from the Infineon Developer Center (IDC).

https://www.infineon.com

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