Semiconductorinsight reports

Ultrasonic Sensor Market - https://semiconductorinsight.com/report/ultrasonic-sensor-market/

Vertical Cavity Surface Emitting Laser (VCSEL) Market - https://semiconductorinsight.com/report/vertical-cavity-surface-emitting-laser-vcsel-market/

Voltage Regulator Market - https://semiconductorinsight.com/report/voltage-regulator-market/

Wearable Sensors Market - https://semiconductorinsight.com/report/wearable-sensors-market/

Wireless Connectivity Market - https://semiconductorinsight.com/report/wireless-connectivity-market/

Zigbee Market - https://semiconductorinsight.com/report/zigbee-market/

3D NAND Flash Market - https://semiconductorinsight.com/report/3d-nand-flash-market/

Advanced Driver Assistance Systems (ADAS) Market - https://semiconductorinsight.com/report/advanced-driver-assistance-systems-adas-market/

Automotive Radar Market - https://semiconductorinsight.com/report/automotive-radar-market/

Bluetooth Low Energy (BLE) Market - https://semiconductorinsight.com/report/bluetooth-low-energy-ble-market/

CMOS Power Amplifier Market - https://semiconductorinsight.com/report/cmos-power-amplifier-market/

Compound Semiconductor Materials Market - https://semiconductorinsight.com/report/compound-semiconductor-materials-market/

Embedded FPGA Market - https://semiconductorinsight.com/report/embedded-fpga-market/

Flexible Electronics Market - https://semiconductorinsight.com/report/flexible-electronics-market/

Gallium Arsenide (GaAs) Market - https://semiconductorinsight.com/report/gallium-arsenide-gaas-market/

High Electron Mobility Transistor (HEMT) Market - https://semiconductorinsight.com/report/high-electron-mobility-transistor-hemt-market/

Indium Phosphide (InP) Market - https://semiconductorinsight.com/report/indium-phosphide-inp-market/

Low Dropout Regulator (LDO) Market - https://semiconductorinsight.com/report/low-dropout-regulator-ldo-market/

Microcontroller Unit (MCU) Market - https://semiconductorinsight.com/report/microcontroller-unit-mcu-market/

Optical Transceiver Market - https://semiconductorinsight.com/report/optical-transceiver-market/

Optoelectronic Components Market - https://semiconductorinsight.com/report/optoelectronic-components-market/

Power Amplifier Market - https://semiconductorinsight.com/report/power-amplifier-market/

Radio Frequency (RF) IC Market - https://semiconductorinsight.com/report/radio-frequency-rf-ic-market/

Semiconductor Manufacturing Equipment Market - https://semiconductorinsight.com/report/semiconductor-manufacturing-equipment-market/

Silicon-on-Insulator (SOI) Market - https://semiconductorinsight.com/report/silicon-on-insulator-soi-market/

Smart Grid Market - https://semiconductorinsight.com/report/smart-grid-market/

System-on-Module (SoM) Market - https://semiconductorinsight.com/report/system-on-module-som-market/

Thin Film Electronics Market - https://semiconductorinsight.com/report/thin-film-electronics-market/

Ultrathin and Flexible Electronics Market - https://semiconductorinsight.com/report/ultrathin-and-flexible-electronics-market/

Vertical Integration in Semiconductor Market - https://semiconductorinsight.com/report/vertical-integration-in-semiconductor-market/

Wearable Devices Market - https://semiconductorinsight.com/report/wearable-devices-market/

Wide Bandgap Power Devices Market - https://semiconductorinsight.com/report/wide-bandgap-power-devices-market/

Wireless Sensor Network (WSN) Market - https://semiconductorinsight.com/report/wireless-sensor-network-wsn-market/

Zigbee Wireless Technology Market - https://semiconductorinsight.com/report/zigbee-wireless-technology-market/

3D Printing Electronics Market - https://semiconductorinsight.com/report/3d-printing-electronics-market/

Advanced Semiconductor Packaging Market - https://semiconductorinsight.com/report/advanced-semiconductor-packaging-market/

Analog Mixed Signal Devices Market - https://semiconductorinsight.com/report/analog-mixed-signal-devices-market/

Automotive Power Electronics Market - https://semiconductorinsight.com/report/automotive-power-electronics-market/

Compound Semiconductor Devices Market - https://semiconductorinsight.com/report/compound-semiconductor-devices-market/

Embedded Memory Market - https://semiconductorinsight.com/report/embedded-memory-market/

Forlinx Officially Launches RISC-V SoM Based on StarFive JH7110!

Forlinx has officially launched their latest System-on-Module, featuring the powerful StarFive JH7110 RISC-V chip. These versatile SoM and compatible carrier board are now available for order, catering to a wide range of applications including commercial, medical, and industrial automation.

Recently, a few embedded products have emerged utilizing the same processor, including the VisionFive 2, Pine64, and Milk-V Mars. However, the FET7110 SoM will be the first product from Forlinx to feature the integrated Jinghong 7110 processor. See the JH7110 block diagram for reference.

• JH7110 – 64-bit RISC-V, up to 1.5GHz (quad SiFive U74-RV64GC, up to 5.09 CoreMark/MHz)

JH7110 block diagram

The JH7110’s GPU integrates the IMG BXE-4-32 MC1 (up to 600MHz) which offers full support for mainstream APIs like OpenCL 3.0, OpenGL ES 3.2, and Vulkan 1.2.

Regarding power consumption, Forlinx indicates that the JH7110 is segmented into eight independently switchable power domains. Additionally, the CPU frequency can be dynamically adjusted via software, allowing customers to fine-tune the frequency based on various application scenarios that require flexible control and power consumption.

The JH7110 facilitates camera access through both MIPI-CSI and DVP interfaces, with ISP support. It enables video decoding capabilities of up to 4K@60fps and video encoding of 1080p@30fps. Moreover, the SoM supports HDMI (4K@30fps) and RGB (1080p@30fps) display output interfaces, along with MIPI-DSI (2K@30fps).

Specifications listed for the FET7110-C SoM include:

• Memory/Storage:

￮ 2/4GB LPDDR4 RAM

￮ 32GB eMMC 5.0

￮ 100 Mbps QSPI

￮ SD 3.0/MMC 5.0

• Connectivity:

￮ 2x GMAC for RMII/RGMII 10/100/1000 Mbps

• Display/Audio:

￮ 1x HDMI 2.0 (up to 4K@30fps)

￮ 1x 4-lane MIPI DSI, (up to 2K@30fps)

￮ 8-lane I2S PCM/TDM

• Camera:

￮ 1x 4-lane MIPI-CSI

• Expansion:

￮ 1x PCIe2.0x1, 2 PCIe2.0 controllers integrated w/ PHY

• USB:

￮ 1x USB 2.0

￮ 1x USB 3.0

• I/O Peripherals:

￮ 6x UART, 7x I2C, 7x SPI

￮ 1x SDIO

￮ 8x PWM

￮ 64x GPIOs

￮ 2x CAN 2.0B (Up to 5Mbps)

• Power:

￮ 5V DC

• OS:

￮ Linux 5.15.0

• Mechanical:

￮ 60 x 38mm

￮ B2B connectors (3x 80-pin)

Specifications listed for the OK7110-C development board include:

• Memory/Storage:

￮ 2/4GB  LPDDR4 RAM

￮ 32GB eMMC 5.0

￮ 100 Mbps QSPI

￮ SD 3.0/MMC 5.0

• Connectivity:

￮ 2x Gigabit Ethernet ports

• Display/Audio:

￮ 1x HDMI 2.0 port

￮ 1x MIPI DSI

￮ 2x Speakers

￮ 1x Mic

• Camera:

￮ 1x MIPI-CSI

• Expansion:

￮ 2x PCIE 2.0

￮ 1x Micro SIM

• USB:

￮ 1x USB Type-C

￮ 3x USB 3.0

• I/O Peripherals:

￮ 2x CAN

￮ 2x RS485

• Other Features:

￮ 1x Power button, 1x Reset key

￮ RTC battery

• Power:

￮ 12V DC (via barrel connector)

• Mechanical

￮ B2B connectors (3x 80-pin)

These products are now available for ordering. Customers can find the product page for the FET7110-C SoM here.

BIG and ICON to 3D-print structure exploring "new Martian vernacular" for NASA

Bjarke Ingels' studio BIG is collaborating with construction technology company ICON and NASA to create Mars Dune Alpha, a 3D-printed structure designed to simulate living on Mars.

Under construction at the Johnson Space Center in Texas, USA, the 158-square-metre "habitat" has been developed by BIG and ICON to help prepare humans to live on the Red Planet.

BIG has unveiled visuals of Mars Dune Alpha

The Mars Dune Alpha will be occupied by four people for extended periods of time and, by simulating the expected experience of living on Mars, will help NASA understand the physical and mental challenges that may impact crew on a long-duration space mission.

"Together with NASA and ICON, BIG is investigating what humanity's home on another planet will entail from the human experience which will potentially lay the foundation for a new Martian vernacular," wrote BIG's Kai-Uwe Bergmann in an Instagram post.

The structure will be 3D printed

Mars Dune Alpha is being constructed using 3D printers as this is the preferred technology for constructing extraterrestrial habitats, due to the lack of building materials required.

The specific technology that will be used is Vulcan, ICON's 3D-printing system that uses the company's own Portland Cement-based mix called Lavacrete.

It is under construction at the Johnson Space Center

Once built, the structure will comprise four private crew quarters on one side, accessed by shared living spaces found at its centre. On the other side will be work, medical and food-growing stations.

According to ICON, the ceiling heights will be varied throughout to ensure each room is visually unique to "avoid spatial monotony and crew member fatigue".

Each room will also feature customisable lighting, temperature and sound control, alongside a mix of fixed and movable furniture to allow users to reorganise and personalise the interiors.

It will make use of ICON's Vulcan technology

"This is the highest-fidelity simulated habitat ever constructed by humans," said ICON co-founder Jason Ballard.

"Mars Dune Alpha is intended to serve a very specific purpose, to prepare humans to live on another planet. We wanted to develop the most faithful analog possible to aid in humanity's dream to expand into the stars."

"3D printing the habitat has further illustrated to us that construction-scale 3D printing is an essential part of humanity's toolkit on earth and to go to the moon and Mars to stay," Ballard added.

"Together with NASA and ICON, we are investigating what humanity’s home on another planet will entail from the human experience," BIG founder Bjarke Ingels said.

"The data gained from this habitat research will directly inform NASA’s standards for long-duration exploration missions, and as such will potentially lay the foundation for a new Martian vernacular. Mars Dune Alpha will take us one step closer to becoming a multiplanetary species."

Researchers will determine the suitability of 3D printing for extraterrestrial habitats

Mars Dune Alpha is being built in support of the NASA Space Technology Mission Directorate (STMD), which forms part of The Crew Health and Performance Exploration Analog (CHAPEA).

CHAPEA is a series of three one-year Mars surface mission simulations at the NASA Johnson Space Center in Houston to provide insights into future space missions.

NASA is now recruiting crew for the long-duration Mars mission study inside the 3D-printed Mars Dune Alpha, which will start in Autumn 2022. The mission will mimic the challenges of a mission to Mars, such as equipment failure, communication delays and simulated spacewalks.

It is being developed for NASA's CHAPEA programme

BIG and ICON are currently also collaborating with NASA on Project Olympus, which explores ways to create 3D-printed infrastructure on the moon using materials found on its surface.

BIG is not the first architecture studio to develop buildings to support living in space. In 2015, Foster + Partners proposed a settlement for four astronauts on Mars that could be 3D printed from soil and rocks on the planet by semi-autonomous robots.

More recently, architecture studio SOM and the European Space Agency designed a settlement for living on the Moon, aptly named Moon Village. The proposal comprises inflatable modules to provide hubs for scientific research.

Photography and video are by ICON.

The post BIG and ICON to 3D-print structure exploring "new Martian vernacular" for NASA appeared first on Dezeen.

For Immediate Release

Press Release: Pune, India- 12th July , 2017

Global (North America, Europe and Asia-Pacific, South America, Middle East and Africa) System on Module (SOM) Market 2017 Forecast to 2022

Description:

The System on Module, which is sometimes referred to as a Computer on Module (CoM), is an alternative to single board computers for embedded systems offering a more flexible and contoured solution. It is designed to plug into a carrier, or base board, and is generally a small processor module with a CPU and standard I/O capability. The complex effort associated with designing a CPU subsystem is avoided by using SoM functionality and a custom base board.

A System on Module (SoM) offers a unique approach to product development and the often fully custom electronics typically contained within sophisticated devices. A SoM helps system designers realize a fully customized electronics assembly, complete with custom interfaces and form factor without the effort of a ground-up electronics design."

Scope of the Report: This report focuses on the System on Module (SOM) in Global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

Market Segment by Manufacturers, this report covers Kontron Congatec MSC Technologies (Avnet) Advantech ADLink Portwell Eurotech SECO srl Technexion Phytec Axiomtek Aaeon Toradex EMAC Avalue Technology

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Market Segment by Regions, regional analysis covers North America (USA, Canada and Mexico) Europe (Germany, France, UK, Russia and Italy) Asia-Pacific (China, Japan, Korea, India and Southeast Asia) South America (Brazil, Argentina, Columbia etc.) Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

Market Segment by Type, covers ARM Architecture x86 Architecture Power Architecture Other Architecture

Market Segment by Applications, can be divided into Industrial Automation Medical Entertainment Transportation Test & Measurement Other

There are 15 Chapters to deeply display the global System on Module (SOM) market.

Chapter 1, to describe System on Module (SOM) Introduction, product scope, market overview, market opportunities, market risk, market driving force;

Chapter 2, to analyze the top manufacturers of System on Module (SOM), with sales, revenue, and price of System on Module (SOM), in 2016 and 2017;

Chapter 3, to display the competitive situation among the top manufacturers, with sales, revenue and market share in 2016 and 2017;

Chapter 4, to show the global market by regions, with sales, revenue and market share of System on Module (SOM), for each region, from 2012 to 2017;

Chapter 5, 6, 7, 8 and 9, to analyze the market by countries, by type, by application and by manufacturers, with sales, revenue and market share by key countries in these regions;

Chapter 10 and 11, to show the market by type and application, with sales market share and growth rate by type, application, from 2012 to 2017;

Chapter 12, System on Module (SOM) market forecast, by regions, type and application, with sales and revenue, from 2017 to 2022;

Chapter 13, 14 and 15, to describe System on Module (SOM) sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source

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Table of Content

1 Market Overview 1.1 System on Module (SOM) Introduction 1.2 Market Analysis by Type 1.2.1 ARM Architecture 1.2.2 x86 Architecture 1.2.3 Power Architecture 1.2.4 Other Architecture 1.3 Market Analysis by Applications 1.3.1 Industrial Automation 1.3.2 Medical 1.3.3 Entertainment 1.3.4 Transportation 1.3.5 Test & Measurement 1.3.6 Other 1.4 Market Analysis by Regions 1.4.1 North America (USA, Canada and Mexico) 1.4.1.1 USA Market States and Outlook (2012-2022) 1.4.1.2 Canada Market States and Outlook (2012-2022) 1.4.1.3 Mexico Market States and Outlook (2012-2022) 1.4.2 Europe (Germany, France, UK, Russia and Italy) 1.4.2.1 Germany Market States and Outlook (2012-2022) 1.4.2.2 France Market States and Outlook (2012-2022) 1.4.2.3 UK Market States and Outlook (2012-2022) 1.4.2.4 Russia Market States and Outlook (2012-2022) 1.4.2.5 Italy Market States and Outlook (2012-2022) 1.4.3 Asia-Pacific (China, Japan, Korea, India and Southeast Asia) 1.4.3.1 China Market States and Outlook (2012-2022) 1.4.3.2 Japan Market States and Outlook (2012-2022) 1.4.3.3 Korea Market States and Outlook (2012-2022) 1.4.3.4 India Market States and Outlook (2012-2022) 1.4.3.5 Southeast Asia Market States and Outlook (2012-2022) 1.4.4 South America, Middle East and Africa 1.4.4.1 Brazil Market States and Outlook (2012-2022) 1.4.4.2 Egypt Market States and Outlook (2012-2022) 1.4.4.3 Saudi Arabia Market States and Outlook (2012-2022) 1.4.4.4 South Africa Market States and Outlook (2012-2022) 1.4.4.5 Nigeria Market States and Outlook (2012-2022) 1.5 Market Dynamics 1.5.1 Market Opportunities 1.5.2 Market Risk 1.5.3 Market Driving Force 2 Manufacturers Profiles  2.1 Kontron 2.1.1 Business Overview 2.1.2 System on Module (SOM) Type and Applications 2.1.2.1 Type 1 2.1.2.2 Type 2 2.1.3 Kontron System on Module (SOM) Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.2 Congatec 2.2.1 Business Overview 2.2.2 System on Module (SOM) Type and Applications 2.2.2.1 Type 1 2.2.2.2 Type 2 2.2.3 Congatec System on Module (SOM) Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.3 MSC Technologies (Avnet) 2.3.1 Business Overview 2.3.2 System on Module (SOM) Type and Applications 2.3.2.1 Type 1 2.3.2.2 Type 2 2.3.3 MSC Technologies (Avnet) System on Module (SOM) Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.4 Advantech 2.4.1 Business Overview 2.4.2 System on Module (SOM) Type and Applications 2.4.2.1 Type 1 2.4.2.2 Type 2 2.4.3 Advantech System on Module (SOM) Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 2.5 ADLink 2.5.1 Business Overview 2.5.2 System on Module (SOM) Type and Applications 2.5.2.1 Type 1 2.5.2.2 Type 2 2.5.3 ADLink System on Module (SOM) Sales, Price, Revenue, Gross Margin and Market Share (2016-2017) 

 Continued…………                                      

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