#Global Computer On Module (COM) Market
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Electro-optic Pockels Cells Market: Investment Opportunities and Market Entry Strategies 2025-2032
MARKET INSIGHTS
The global Electro-optic Pockels Cells Market size was valued at US$ 73.8 million in 2024 and is projected to reach US$ 118.4 million by 2032, at a CAGR of 7.0% during the forecast period 2025-2032.
Electro-optic Pockels cells are specialized devices that utilize the Pockels effect to modulate light polarization. These components are essential for controlling laser beam characteristics such as intensity, phase, and polarization state by applying an electric field to electro-optic crystals. The market offers two primary types: single crystal and double crystal configurations, with applications spanning industrial, medical, laboratory, and other specialized sectors.
The market growth is driven by increasing demand for precision laser systems across multiple industries, particularly in materials processing and medical applications. While North America currently leads in market share with the U.S. accounting for approximately 38% of global revenue, the Asia-Pacific region shows the fastest growth potential, with China's market projected to expand at a 6.1% CAGR. Key players including Gooch & Housego, II-VI Incorporated, and Thorlabs are investing in advanced crystal materials and compact designs to meet evolving industry requirements.
MARKET DYNAMICS
MARKET DRIVERS
Increasing Adoption of Laser Technology Across Industries to Accelerate Market Growth
The global electro-optic Pockels cells market is experiencing robust growth due to the expanding applications of laser technology across multiple sectors. Industries ranging from medical devices to telecommunications are increasingly leveraging laser systems for precision operations, creating sustained demand for electro-optic components. Recent technological breakthroughs in laser-based surgical procedures and industrial material processing have particularly driven adoption rates, with the medical laser market alone projected to exceed double-digit CAGR through 2030. Pockels cells serve as critical components in these systems by enabling precise laser modulation essential for high-performance applications.
Growing Investments in Quantum Computing Infrastructure Creates New Demand
Substantial government and private sector investments in quantum computation research are creating unprecedented opportunities for electro-optic components. The quantum technology sector has seen funding increases exceeding 40% annually as nations vie for technological supremacy. Pockels cells play a vital role in quantum systems by facilitating ultra-fast optical switching necessary for qubit manipulation and quantum communication. Several national quantum initiatives launched in recent years explicitly include development of advanced electro-optic components in their technology roadmaps.
Military and Defense Modernization Programs Driving Strategic Procurement
Defense applications continue to be a major growth sector for Pockels cells, particularly in laser ranging, target designation, and electro-optical countermeasure systems. Multiple nations have accelerated modernization of their directed energy weapon systems, creating sustained demand for high-performance optical components. The increasing integration of laser systems in next-generation fighter aircraft and naval platforms further contributes to market expansion.
MARKET RESTRAINTS
High Production Costs and Material Challenges Limit Market Penetration
The electro-optic Pockels cells market faces significant constraints from the high costs associated with crystal growth and component fabrication. Producing high-quality, large-area electro-optic crystals requires specialized equipment and controlled environments that substantially increase production expenses. Certain crystal materials critical for high-performance applications remain difficult to source consistently at commercial scales, creating supply chain vulnerabilities.
Technical Complexity Creates Barriers for New Market Entrants
The specialized nature of electro-optic component development presents substantial technical hurdles that limit market participation. Achieving the required optical homogeneity while maintaining consistent electro-optic properties across crystal volumes demands advanced manufacturing capabilities. These technical requirements create significant barriers for companies attempting to enter the high-performance segment of the market.
MARKET OPPORTUNITIES
Emerging Applications in LiDAR Systems Present Significant Growth Potential
The rapid advancement of autonomous vehicle technology and 3D sensing applications is creating substantial new opportunities for Pockels cells in LiDAR systems. These applications require the precise laser modulation capabilities that electro-optic components provide. With the automotive LiDAR market projected to grow dramatically through the decade, suppliers are actively developing specialized Pockels cell configurations optimized for mobility applications.
Advancements in Nonlinear Optical Materials Open New Possibilities
Recent breakthroughs in engineered optical materials and nanostructured composites are enabling development of next-generation electro-optic devices with enhanced performance characteristics. Research institutions and manufacturers are collaborating to commercialize these innovations, potentially creating new market segments for specialized applications in scientific instrumentation and telecommunications.
MARKET CHALLENGES
Intense Competition from Alternative Modulation Technologies
While electro-optic Pockels cells maintain dominance in high-speed applications, they face increasing competition from emerging modulation technologies. Alternative approaches based on MEMS, liquid crystals, and electro-absorption continue to improve in performance while offering potential cost and integration advantages. Maintaining technological leadership requires ongoing investment in performance improvements and miniaturization.
Supply Chain Vulnerabilities Impact Component Availability
The market continues to grapple with supply chain disruptions affecting critical raw material availability. Certain specialty optical materials remain concentrated among limited suppliers, creating potential bottlenecks. The industry response includes strategic stockpiling, alternative material development, and vertical integration initiatives by major manufacturers.
ELECTRO-OPTIC POCKELS CELLS MARKET TRENDS
Expanding Applications in Laser Technology Driving Market Growth
The global electro-optic Pockels cells market is experiencing robust growth due to their increasing adoption in advanced laser systems. Valued at over $XX million in 2024, the market is projected to grow at a CAGR of X% through 2032, driven predominantly by their critical role in Q-switching applications for pulsed lasers. These components are becoming indispensable in industrial laser processing applications, where they enable precise control of laser pulses with nanosecond-level accuracy. Recent advancements in crystal materials such as beta barium borate (BBO) and lithium niobate (LiNbO3) have further enhanced the performance parameters of Pockels cells, allowing them to handle higher power densities while maintaining excellent extinction ratios.
Other Trends
Medical and Scientific Research Applications
The medical industry is emerging as a significant growth vertical for electro-optic Pockels cells, particularly in advanced imaging systems and laser surgery equipment. Recent developments in optical parametric oscillators (OPOs) for spectroscopy have increased demand for high-speed Pockels cells capable of rapid polarization switching. Furthermore, the integration of these components in quantum computing research—where they facilitate photon manipulation—has created new opportunities. The medical segment currently accounts for approximately XX% of overall market revenue, with growth projections indicating this share could increase to XX% by 2030.
Regional Market Dynamics and Manufacturing Innovations
North America maintains the largest market share at XX%, owing to substantial R&D investments in defense and aerospace laser systems. Simultaneously, Asia-Pacific is witnessing accelerated growth—particularly in China—where domestic manufacturers are developing cost-effective solutions with comparable performance to Western counterparts. The competitive landscape is evolving with companies investing in monolithic Pockels cell designs that eliminate optical interfaces, thereby improving reliability and reducing insertion losses. Additionally, the development of broadband Pockels cells capable of operating across wider wavelength ranges is addressing previously unmet needs in ultrafast laser applications.
COMPETITIVE LANDSCAPE
Key Industry Players
Market Leaders Focus on Technological Advancements to Maintain Dominance
The global Electro-optic Pockels Cells market features a moderately consolidated competitive landscape, with key players leveraging technological innovations and strategic expansions to strengthen their market positions. Gooch & Housego and II-VI currently lead the market, capturing a combined revenue share of nearly 25% in 2024. Their dominance stems from extensive R&D investments and a diversified product portfolio catering to both industrial and laboratory applications.
While North American and European manufacturers hold significant market share, Asian players like CASTECH and Hangzhou Shalom EO are rapidly expanding their presence through cost-competitive offerings. The Chinese market, in particular, has witnessed a 12% year-on-year growth in Pockels Cells adoption, driven by increasing laser applications in manufacturing and healthcare sectors.
Recent developments indicate that market leaders are focusing on single crystal technology, which accounted for 62% of total sales in 2023. Companies are actively pursuing collaborations with research institutions to develop next-generation Pockels Cells with higher damage thresholds and wider wavelength ranges. This trend is expected to intensify as demand grows for precision laser systems in quantum computing and optical communications.
Mid-sized players like EKSMA Optics and Thorlabs are differentiating themselves through application-specific solutions and responsive customer support. Their ability to offer customized configurations has enabled them to capture niche segments in the medical and defense sectors.
List of Key Electro-optic Pockels Cells Manufacturers
Gooch & Housego (UK)
II-VI Incorporated (U.S.)
Inrad Optics (U.S.)
ALPHALAS GmbH (Germany)
GWU-Lasertechnik (Germany)
Artifex Engineering (Austria)
EKSMA Optics (Lithuania)
Thorlabs Inc. (U.S.)
Sintec Optronics Pte Ltd (Singapore)
Raicol Crystals Ltd. (Israel)
QUBIG GmbH (Germany)
CASTECH Inc. (China)
Hangzhou Shalom EO (China)
Segment Analysis:
By Type
Single Crystal Segment Dominates Due to Superior Optical Performance and Wider Applications
The market is segmented based on type into:
Single Crystal
Double Crystal
Others
By Application
Industrial Applications Lead Market Share Due to Extensive Use in Laser Systems and Optical Modulation
The market is segmented based on application into:
Industrial
Medical
Laboratory
Others
By Region
North America Holds Significant Market Share Owing to Established Photonics and Laser Industries
The market is segmented based on region into:
North America
Europe
Asia Pacific
Latin America
Middle East & Africa
Regional Analysis: Electro-optic Pockels Cells Market
North America The North American Electro-optic Pockels Cells market demonstrates robust growth, driven by significant investments in laser technology across industries such as telecommunications, medical devices, and defense. The U.S., in particular, leads the region due to advanced R&D initiatives and strong demand from defense applications. Major manufacturers like Inrad Optics and II-VI operate extensively in the region, leveraging technological advancements such as high-speed switching Pockels cells for Q-switched lasers. Government-funded projects for defense laser systems and increased adoption of photonics in medical diagnostics further accelerate market expansion. However, stringent export controls on advanced laser components pose minor constraints on international trade.
Europe Europe’s market is characterized by steady growth, supported by the presence of Gooch & Housego and EKSMA Optics, key players supplying Pockels cells for industrial lasers and research applications. The region benefits from strong collaboration between academic institutions and manufacturers, fostering innovations in ultra-fast laser systems. Germany and the U.K. dominate demand, with growing utilization in automotive LIDAR and semiconductor manufacturing. EU regulations on laser safety (EN 60825) ensure product standardization but increase compliance costs. Despite this, sustainability-driven R&D in energy-efficient photonics keeps the region competitive.
Asia-Pacific Asia-Pacific is the fastest-growing market, propelled by China’s dominance in laser manufacturing and India’s emerging semiconductor sector. The region accounts for over 35% of global demand, with localized production by firms like CASTECH and Hangzhou Shalom EO reducing import dependence. Japan and South Korea contribute significantly due to advancements in optical communication and laser micromachining. Cost advantages and rapid industrialization support adoption, though intellectual property challenges occasionally hinder technology transfers. The medical laser sector shows promise, especially in dermatology and ophthalmology applications.
South America South America’s market remains nascent but exhibits potential, particularly in Brazil and Argentina, where research institutions are adopting Pockels cells for spectroscopic applications. Economic instability limits large-scale investments, but partnerships with North American and European firms enable access to advanced modules. Mining and oil industries utilize laser-based sensors, creating niche demand. Local manufacturing is scarce, making imports the primary supply route. Regulatory frameworks for laser safety are evolving, aligning gradually with international standards.
Middle East & Africa The MEA market is in early stages, with growth concentrated in Israel and the UAE, where defense and oil/gas sectors drive demand for laser-based sensing. Israel’s strong photonics ecosystem supports R&D in military-grade Pockels cells. In Africa, limited infrastructure restricts adoption, though South Africa shows marginal growth in medical lasers. Regional players focus on partnerships to overcome technological gaps, while high equipment costs remain a barrier. Long-term prospects hinge on diversification into renewable energy and smart manufacturing applications.
Report Scope
This market research report provides a comprehensive analysis of the global and regional Electro-optic Pockels Cells markets, covering the forecast period 2025–2032. It offers detailed insights into market dynamics, technological advancements, competitive landscape, and key trends shaping the industry.
Key focus areas of the report include:
Market Size & Forecast: Historical data and future projections for revenue, unit shipments, and market value across major regions and segments.
Segmentation Analysis: Detailed breakdown by product type (Single Crystal, Double Crystal), application (Industrial, Medical, Laboratory, Others), and end-user industry to identify high-growth segments.
Regional Outlook: Insights into market performance across North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa, including country-level analysis of key markets like U.S. and China.
Competitive Landscape: Profiles of leading market participants including Inrad Optics, Gooch & Housego, II-VI, ALPHALAS, and Thorlabs, covering their product portfolios and strategic developments.
Technology Trends: Assessment of emerging electro-optic technologies, material innovations, and integration with laser systems across various applications.
Market Drivers & Restraints: Evaluation of factors such as increasing laser applications in manufacturing and healthcare versus challenges like high costs and technical complexity.
Stakeholder Analysis: Strategic insights for component suppliers, OEMs, research institutions, and investors regarding market opportunities and challenges.
The research employs both primary and secondary methodologies, including interviews with industry experts and analysis of verified market data to ensure accuracy.
FREQUENTLY ASKED QUESTIONS:
What is the current market size of Global Electro-optic Pockels Cells Market?
-> Electro-optic Pockels Cells Market size was valued at US$ 73.8 million in 2024 and is projected to reach US$ 118.4 million by 2032, at a CAGR of 7.0% during the forecast period 2025-2032.
Which key companies operate in this market?
-> Major players include Inrad Optics, Gooch & Housego, II-VI, ALPHALAS, Thorlabs, EKSMA Optics, and Artifex Engineering, with the top five companies holding approximately 42% market share in 2024.
What are the key growth drivers?
-> Growth is driven by increasing adoption in laser systems, medical applications like ophthalmology, and industrial laser processing, along with advancements in electro-optic materials.
Which region dominates the market?
-> North America currently leads with 38% market share, while Asia-Pacific is expected to grow at the highest CAGR of 6.8% through 2032, led by China's expanding photonics industry.
What are the emerging trends?
-> Emerging trends include development of compact Pockels cells, integration with ultrafast laser systems, and adoption of novel electro-optic crystals for improved performance.
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How do self-healing protocols enhance IoT device longevity in harsh environments
TheIoT Communication Protocol Market Size was valued at USD 16.95 Billion in 2023 and is expected to reach USD 23.94 Billion by 2032 and grow at a CAGR of 4.2% over the forecast period 2024-2032.
The IoT Communication Protocol Market is experiencing unprecedented growth, driven by the pervasive integration of connected devices across industries. This market is crucial for enabling the seamless exchange of data between the billions of IoT devices, from smart home appliances to complex industrial sensors, forming the backbone of our increasingly interconnected world. The evolution of communication protocols is vital to unlock the full potential of the Internet of Things, ensuring efficiency, security, and scalability in every deployment.
U.S. Headline: IoT Communication Protocol Market Poised for Significant Expansion Driven by Smart Infrastructure Demands
IoT Communication Protocol Market continues its robust expansion, fueled by advancements in wireless technologies and the rising demand for real-time data exchange. As the Internet of Things ecosystem matures, the emphasis on interoperability, low-power consumption, and enhanced security features in communication protocols becomes paramount. This dynamic landscape necessitates continuous innovation to support the diverse and expanding array of IoT applications that are reshaping industries globally.
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Market Keyplayers:
Huawei Technologies (OceanConnect IoT Platform, LiteOS)
Arm Holdings (Mbed OS, Cortex‑M33 Processor)
Texas Instruments (SimpleLink CC3220 Wi‑Fi MCU, SimpleLink CC2652 Multiprotocol Wireless MCU)
Intel (XMM 7115 NB‑IoT Modem, XMM 7315 LTE‑M/NB‑IoT Modem)
Cisco Systems (Catalyst IR1101 Rugged Router, IoT Control Center)
NXP Semiconductors (LPC55S6x Cortex‑M33 MCU, EdgeLock SE050 Secure Element)
STMicroelectronics (STM32WL5x LoRaWAN Wireless MCU, SPIRIT1 Sub‑GHz Transceiver)
Thales (Cinterion TX62 LTE‑M/NB‑IoT Module, Cinterion ENS22 NB‑IoT Module)
Zebra Technologies (Savanna IoT Platform, SmartLens for Retail Asset Visibility)
Wind River (Helix Virtualization Platform, Helix Device Cloud)
Ericsson (IoT Accelerator, Connected Vehicle Cloud)
Qualcomm (IoT Services Suite, AllJoyn Framework)
Samsung Electronics (ARTIK Secure IoT Modules, SmartThings Cloud)
IBM (Watson IoT Platform, Watson IoT Message Gateway)
Market Analysis
The IoT Communication Protocol Market is on a clear upward trajectory, reflecting the global acceleration in IoT device adoption across consumer electronics, industrial automation, healthcare, and smart city initiatives. This growth is intrinsically linked to the demand for efficient, reliable, and secure data transmission. Key drivers include the proliferation of 5G networks, the imperative for edge computing, and the integration of AI for smarter decision-making, all of which heavily rely on robust communication foundations. The market is witnessing a strong shift towards wireless and low-power consumption technologies, with standardized protocols becoming increasingly critical for widespread interoperability.
Market Trends
Proliferation of Wireless Technologies: A dominant shift towards wireless protocols like Wi-Fi, Bluetooth, Zigbee, LoRaWAN, and NB-IoT, preferred for their flexibility and ease of deployment.
5G Integration: The rollout of 5G networks is revolutionizing IoT communication, offering unprecedented speeds, ultra-low latency, and enhanced capacity for real-time applications such, as autonomous vehicles and advanced telemedicine.
Edge Computing Synergy: Growing integration of edge computing with IoT protocols to process data closer to the source, significantly reducing latency and bandwidth consumption, crucial for time-sensitive applications.
Enhanced Security Protocols: A paramount focus on embedding advanced encryption, authentication, and data integrity layers within communication protocols to combat escalating cyber threats and ensure data privacy.
Standardization and Interoperability: A strong industry-wide push for unified communication frameworks to ensure seamless interaction between devices from diverse manufacturers, minimizing vendor lock-in and fostering a more cohesive IoT ecosystem.
AI-Enabled Communications: Increasing integration of Artificial Intelligence into IoT protocols to facilitate smarter decision-making, predictive analytics, and automated optimization of communication pathways.
Market Scope
The IoT Communication Protocol Market's reach is expansive, touching virtually every sector:
Smart Homes & Consumer Electronics: Enabling seamless connectivity for intelligent appliances, smart lighting, voice assistants, and wearables.
Industrial IoT (IIoT) & Manufacturing: Facilitating real-time monitoring, predictive maintenance, and operational efficiency in factories and industrial settings.
Healthcare: Powering remote patient monitoring, connected medical devices, and smart hospital infrastructure for improved patient care and operational insights.
Smart Cities & Utilities: Supporting intelligent traffic management, energy grids, environmental monitoring, and public safety applications.
Automotive & Transportation: Crucial for connected vehicles, intelligent transportation systems, and fleet management, enhancing safety and efficiency.
Agriculture: Enabling precision farming through sensor data for optimized irrigation, crop monitoring, and livestock management.
Forecast Outlook
The future of the IoT Communication Protocol Market appears incredibly promising, driven by relentless innovation and an ever-increasing global demand for connected solutions. Anticipate a landscape characterized by increasingly sophisticated protocols, designed for superior efficiency and adaptive intelligence. The convergence of emerging technologies, such as advanced AI and ubiquitous 5G connectivity, will further accelerate the market's trajectory, fostering an era of truly pervasive and intelligent IoT deployments across all verticals. Expect a future where communication is not just about connectivity, but about seamless, secure, and context-aware interactions that redefine possibility.
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Conclusion
As we stand on the cusp of an even more interconnected era, the IoT Communication Protocol Market is not merely a segment of the tech industry; it is the fundamental enabler of digital transformation. For innovators, developers, and enterprises alike, understanding and leveraging the evolution of these protocols is critical to building the next generation of smart solutions. This market represents an unparalleled opportunity to shape a future where every device contributes to a smarter, safer, and more efficient world. Embrace these advancements, and together, we can unlock the full, transformative power of the Internet of Things.
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Contact Us:
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Phone: +1-315 636 4242 (US) | +44- 20 3290 5010 (UK)
Mail us: [email protected]
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Computer or System on Module Market Size, Business Revenue Forecast, Leading Competitors And Growth Trends
Strategic Insights and Forecasts: Computer or System on Module Market Leaders
The Computer or System on Module Size report is anticipated to experience significant growth in the coming years. As the world continues to recover from the pandemic, the market is expected to expand. The Computer or System on Module research not only highlights current industry standards but also reveals the latest strategic trends and patterns among market players. This research serves as an essential business document, aiding global market buyers in planning their next steps regarding the market's future trajectory.
According to Straits Research, the global Computer or System on Module Market size was valued at USD 1.23 Billion in 2021. It is projected to reach from USD XX Billion in 2022 to USD 2.35 Billion by 2030, growing at a CAGR of 6% during the forecast period (2022–2030).
The Computer or System on Module Report is an essential resource for business strategists, offering insightful data and analysis. It includes an industry overview, growth analysis, and historical and projected figures for cost, revenue, supply, and demand (where applicable). Research analysts offer a thorough description of the value chain and distributor analysis. This report provides comprehensive information to deepen understanding, broaden the scope, and enhance the application of the findings.
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Leading Computer or System on Module Market include: -
Digi International (the U.S.)
Advantech Co., Ltd. (Taiwan)
Aaeon (Taiwan)
Variscite (Israel)
Axiomtek Co., Ltd. (Taiwan)
MSC Technology (India)
Olimex (Bulgaria)
Kontron (Bulgaria)
PHYTEC Embedded Pvt. Ltd. (India)
Toradex (Switzerland)
Microchip Technology Inc. (the U.S.)
Congatec AG(Germany)
Eurotech, Inc. (Switzerland)
SECO s.r.l. (Italy)
The Computer or System on Module Market Report helps a wide range of businesses determine what their consumers truly want by doing extensive market research. When it comes to new products, every company owner wants to know how much demand there is, and this report is a great resource. Additional benefits include ensuring that the most recent market developments are covered. You may closely check key rivals and their company growth tactics by reading the Computer or System on Module market research. It also does an in-depth research for the years 2022-2030 in order to provide company owners with new business options.
This research also provides a dashboard view of prominent Organizations, highlighting their effective marketing tactics, market share and most recent advances in both historical and current settings.
Global Computer or System on Module Market: Segmentation
By Product Type
ARM (Advanced RISC Machines) Architecture
Power Architecture
x86 Architecture
By Standard
Qseven
Smart Mobile Architecture
Embedded Technology Extended
COM Express
By Industry Vertical
Transportation
Industrial Automation
Medical
Gaming
Communication
Entertainment
Test & Measures
The report forecasts revenue growth at all geographic levels and provides an in-depth analysis of the latest industry trends and development patterns from 2022 to 2030 in each of the segments and sub-segments. Some of the major geographies included in the market are given below:
The regions covered include:
North America (United States, Canada, Mexico)
Europe (United Kingdom, France, Germany, Russia)
Asia-Pacific (China, Japan, Australia, Indonesia)
Middle East and Africa (UAE, Iran, Syria, South Africa)
South America (Brazil, Peru, Chile, Colombia)
You can check In-depth Segmentation from here: https://straitsresearch.com/report/computer-or-system-on-module-market/segmentation
Reasons to Purchase This Report:
The Computer or System on Module Market report provides an analysis of the evolving competitive landscape.
The report offers valuable analytical insights and strategic planning tools to support informed business decisions.
Researchers highlight key market dynamics, including drivers, restraints, trends, developments, and opportunities.
The report includes regional market estimates and business profiles of various stakeholders.
It helps in understanding all significant market segments.
The report provides extensive data on trending factors that will impact market growth.
This Report is available for purchase on Buy Computer or System on Module Market Report
Research Methodology:
We employ a robust research methodology that includes data triangulation based on top-down and bottom-up approaches, along with validation of estimated market figures through primary research. The data used to estimate the Computer or System on Module market size and forecast across various segments at the global, regional, and country levels is sourced from the most reliable published materials and through interviews with relevant stakeholders.
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StraitsResearch.com is a leading research and intelligence organization, specializing in research, analytics, and advisory services along with providing business insights & research reports.
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#Computer or System on Module Market#Computer or System on Module Market Share#Computer or System on Module Market Size#Computer or System on Module Market Research#Computer or System on Module Industry
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Digital Thread Industry worth USD 36.81 billion by 2030
The report "Digital Thread Market by Technology (PLM, SLM, CAD, MES, IoT, ERP, edge computing, Digital Twin, ALM, SCADA), Module (Data collection, Data management & Integration), Deployment, Application, Vertical, Region - Global Forecast to 2030" The Digital Thread Market is expected to reach USD 36.81 billion by 2030 from USD 11.42 billion in 2024, at a CAGR of 21.5% during 2024–2030. The significant growth factor associated with the digital thread market is increasing demand for IoT and connected devices, the need for enhanced product quality and efficiency, and stringent regulatory compliance requirements. Advancements in AI and machine learning, trends toward customization and personalization, the rise of Industry 4.0, and a focus on sustainability also drive adoption. These elements make digital threads essential for optimizing operations, improving decision-making, and supporting agile, efficient, and sustainable production processes across various industries.
The Product lifecycle management (PLM) technology segment contributed highest market share in 2023.
Product Lifecycle Management is the most influential field in the Digital Thread industry, as it is a fundamental means of e-management for all stages of a product's life, from conceptualization and design to production chain, maintenance, waste management, and final processing. PLM solutions combine data, processes, and business systems to make possible the smooth coordination among departments and stakeholders.
This will be critical in ensuring continuity and integrity of the digital thread, as it allows for real-time access to data, better decision-making, and quality products. Additionally, PLM enforces compliance to regulatory standards, optimizes resources, and time-to-market; thus, it is also an important building block toward adopting and ensuring the success of a digital thread.
Automotive segment expected to dominate the digital thread market during the forecast period.
The digital thread is increasingly used in the automotive industry to create a seamless flow of information throughout the entire lifecycle of a vehicle-from design and engineering to manufacturing, operation, and maintenance. In this industry, the digital thread connects various stages of production, ensuring that all data is integrated and accessible in real time.
This connection enhances design collaboration, production efficiency, supply chain optimization, quality control, and life cycle management. The complexity of the sector, the requirement for increased integration, and the emphasis on innovation and quality make digital threads vital, resulting in automotive supremacy in the digital thread market.
Cloud-based deployment segment contributed highest market share in 2023.
The cloud-based digital thread segment leads the market due to its scalability, cost-effectiveness, and flexibility, which allow organizations to easily scale up and expand. They provide remote and collaborative cloud solutions, real-time data integration, and powerful analytics and AI toolkits. They also have robust security and compliance capabilities, making them great options for managing complex digital threads most efficiently and cost-effectively.
North America accounted for the largest share of the digital thread market in 2023.
North America includes the United States, Canada, and Mexico. The region has the largest share of the digital thread market owing to the early adoption of advanced technologies such as loT, Al, and cloud computing indispensable to deploying digital thread solutions. Innovation and technology-driven industries have a very high concentration in the region, and this encourages the use of digital threads. Added to that, the huge industrial and manufacturing base- aerospace, automotive, pharmaceuticals- continuously keeps demand high for digital threads given enhancements to be achieved in efficiency, quality, and integration of complex processes.
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The report profiles key players such PTC (US), IBM (US), Siemens (Germany), Dassault Systemes (France), Rockwell Automation (US), Autodesk, Inc. (US), Oracle (US), AVEVA Group Limited (UK), SAP (Germany), General Electric (US), Accenture (Ireland) and others.
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Computer On Module (COM) Market
In 2021, the Global Computer On Module (COM) Market’s size was valued at USD 1969.23 million and is estimated to reach USD 4857.75 million by 2028 and is expected to be growing at a CAGR of 13.96 % throughout the forecast period. In this report, 2021 has been taken as the base year while 2020 is the historical year. The forecast year for the report is 2028 to approximate the size of the market for Computer On Module (COM).
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Icon Market Research’s report on Computer On Module (COM) studies the past and current opportunities of growth and trends to get a clear picture of the growth indicators of the market for the forecast period 2021 to 2028
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System on Module (SOM) Market Size, Share With Top Companies, Region Forecast 2021-2027
System on Module (SOM) Market 2020-2026
A New Market Study, Titled “System on Module (SOM) Market Upcoming Trends, Growth Drivers and Challenges” has been featured on fusionmarketresearch.
Description
This global study of the System on Module (SOM) market offers an overview of the existing market trends, drivers, restrictions, and metrics and also offers a viewpoint for important segments. The report also tracks product and services demand growth forecasts for the market. There is also to the study approach a detailed segmental review. A regional study of the global System on Module (SOM) industry is also carried out in North America, Latin America, Asia-Pacific, Europe, and the Near East & Africa. The report mentions growth parameters in the regional markets along with major players dominating the regional growth.
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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.
The report offers detailed coverage of System on Module (SOM) industry and main market trends with impact of coronavirus. The market research includes historical and forecast market data, demand, application details, price trends, and company shares of the leading System on Module (SOM) by geography. The report splits the market size, by volume and value, on the basis of application type and geography. First, this report covers the present status and the future prospects of the global System on Module (SOM) market for 2015-2024. And in this report, we analyze global market from 5 geographies: Asia-Pacific[China, Southeast Asia, India, Japan, Korea, Western Asia], Europe[Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland], North America[United States, Canada, Mexico], Middle East & Africa[GCC, North Africa, South Africa], South America[Brazil, Argentina, Columbia, Chile, Peru]. At the same time, we classify System on Module (SOM) according to the type, application by geography. More importantly, the report includes major countries market based on the type and application. Finally, the report provides detailed profile and data information analysis of leading System on Module (SOM) company.
Key Companies Kontron Congatec MSC Technologies (Avnet) Advantech ADLink Portwell Eurotech SECO srl Technexion Phytec Axiomtek Aaeon Toradex EMAC Avalue Technology
Market Segment as follows: By Region Asia-Pacific[China, Southeast Asia, India, Japan, Korea, Western Asia] Europe[Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland] North America[United States, Canada, Mexico] Middle East & Africa[GCC, North Africa, South Africa] South America[Brazil, Argentina, Columbia, Chile, Peru]
Market by Type ARM Architecture x86 Architecture Power Architecture Other Architecture
Market by Application Industrial Automation Medical Entertainment Transportation Test & Measurement Others
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Table of Contents
Part 1 Market Overview 1.1 Market Definition 1.2 Market Development 1.2.1 Current Situation 1.2.2 Aspects of COVID-19 Impact 1.3 By Type Table Type of System on Module (SOM) Figure Global System on Module (SOM) Market Share by Type in 2019 1.4 By Application Table Application of System on Module (SOM) Figure Global System on Module (SOM) Market Share by Application in 2019 1.5 By Region Figure Global System on Module (SOM) Market Share by Region in 2019 Figure Asia System on Module (SOM) Market Share by Region in 2019
Part 2 Key Companies 2.1 Kontron 2.1.1 Company Profile Table Kontron Overview List 2.1.2 Products & Services Overview 2.1.3 Sales Data List Table System on Module (SOM) Business Operation of Kontron (Sales Revenue, Sales Volume, Price, Cost, Gross Margin) 2.2 Congatec 2.3 MSC Technologies (Avnet) 2.4 Advantech 2.5 ADLink 2.6 Portwell 2.7 Eurotech 2.8 SECO srl 2.9 Technexion 2.10 Phytec 2.11 Axiomtek 2.12 Aaeon 2.13 Toradex 2.14 EMAC 2.15 Avalue Technology
Part 3 Global Market Status and Future Forecast 3.1 Global Market by Region Table Global System on Module (SOM) Market by Region, 2015-2019 (Million USD) Figure Global System on Module (SOM) Market Share by Region in 2019 (Million USD) Table Global System on Module (SOM) Market by Region, 2015-2019 (Volume) Figure Global System on Module (SOM) Market Share by Region in 2019 (Volume) Table Price List by Region, 2015-2019 3.2 Global Market by Company Table Global System on Module (SOM) Market by Company, 2015-2019 (Million USD) Figure Global System on Module (SOM) Market Share by Company in 2019 (Million USD) Table Global System on Module (SOM) Market by Company, 2015-2019 (Volume) Figure Global System on Module (SOM) Market Share by Company in 2019 (Volume) Table Price List by Company, 2015-2019 3.3 Global Market by Type Table Global System on Module (SOM) Market by Type, 2015-2019 (Million USD) Figure Global System on Module (SOM) Market Share by Type in 2019 (Million USD) Table Global System on Module (SOM) Market by Type, 2015-2019 (Volume) Figure Global System on Module (SOM) Market Share by Type in 2019 (Volume) Table Price List by Type, 2015-2019 3.4 Global Market by Application Table Global System on Module (SOM) Market by Application, 2015-2019 (Million USD) Figure Global System on Module (SOM) Market Share by Application in 2019 (Million USD) Table Global System on Module (SOM) Market by Application, 2015-2019 (Volume) Figure Global System on Module (SOM) Market Share by Application in 2019 (Volume) Table Price List by Application, 2015-2019 3.5 Global Market by Forecast Figure Global System on Module (SOM) Market Forecast, 2020-2025 (Million USD) Figure Global System on Module (SOM) Market Forecast, 2020-2025 (Volume)
….
Part 9 Market Features 9.1 Product Features 9.2 Price Features 9.3 Channel Features 9.4 Purchasing Features Part 10 Investment Opportunity 10.1 Regional Investment Opportunity 10.2 Industry Investment Opportunity
PART 11 Coronavirus Impact 11.1 Impact on Industry Upstream 11.2 Impact on Industry Downstream 11.3 Impact on Industry Channels 11.4 Impact on Industry Competition 11.5 Impact on Industry Obtain Employment Part 12 Conclusion
Continue…
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Database Management System (DBMS) Market Size, Growth, COVID19 Impact Analysis on Industry Share, Global Demand and Forecast to 2027
Market Overview
Market Research Future (MRFR) emphasizes in its research report that the global Database Management System market 2020 is projected to rise exponentially over the review period, ensuring a significant market valuation of USD 63 Billion and a healthy CAGR of 8 per cent over the review period.
Drivers and Restrictions
Information Management System is a technology that collects, stores, modifies, and removes data from databases. Growing application areas and high cloud computing adoption among small-scale businesses play a vital role in the growth of the DBMS Market As the amount of digital content is growing across the world, the need for database centers and consequently cloud storage is expected to increase. The Database Management System plays a critical role in the IT and Communication industry, while the advent of cloud computing to handle huge data also leads to high DBMS adoption in other industries. One of the increasing DBMS application area is in the BFSI and Healthcare industry. Recent studies indicate that BFIS and healthcare sectors are hackers’ primary targets these days, and cloud computing allows these industries to protect and handle their sensitive data on a broader scale.
The demand for Database Management System is guided primarily by factors such as enhanced data sharing, data security, reduced data integration, while high hardware and software costs, high staff training costs, and technical personnel are some of the market’s constraints.
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Segmental Analysis
The program for database management was segmented based on modules, forms, implementation, and industry. Includes parts- hardware and software. The market was segmented by category as relational, non-relational, while the industry includes-BFSI, IT & Telecommunication, Aerospace & Security, Media & Entertainment and Healthcare among others-on the basis of delivery (cloud, on-premises) and on the basis of industries. DBMS plays a key role in the IT and telecommunications industry, while the advent of cloud computing also boosts high DBMS adoption in other sectors. The study shows that BFSI and healthcare are more vulnerable to cyber-attacks, and cloud computing allows these sectors to protect and handle their sensitive data on a broader scale.
Regional Analysis
The geographical overview of the global market has been conducted in four major regions, including the Asia Pacific, North America, Europe, and the rest of the world.
Due to the involvement of multinational players that provide US and Canada with a competitive edge, North America dominates the Database management system market. Growing IT industry and high deployment by mid- and large-scale enterprises of cloud computing are some of the major factor driving the North American database management system market. DBMS software’s popularity across North America and Europe is rising largely due to increased digitalization in nearly every sector and high preference for optimum data management solution in those regions. In the DBMS market Europe is showing steady growth. Fast growth in financial sector and healthcare contributes to strong adoption of technology on premises and cloud storage. Asia-Pacific is expected to expand at a rapid pace due to China and India’s increasing manufacturing and BFSI market. In addition, players based in China and Japan invest heavily in developing powerful DBMS systems. In addition, growing focus on implementing better data management solutions across many Asia Pacific organizations is anticipated to bring prominent growth in the DBMS market.
Competitive Analysis
The major market players operating in the global market as identified by MRFR are Microsoft Corporation (U.S), Oracle Corporation (U.S), Embarcadero Technologies (U.S), MarkLogic (U.S), IBM Corporation (U.S), SAP AG (Germany), Hewlett-Packard (U.S), Amazon WebServices (Washington), EnterpriseDB (U.S), InterSystems (U.S), Cloudera (U.S), among others.
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Table Of Contents
1 Market Introduction
1.1 Introduction
1.2 Scope Of Study
1.2.1 Research Objective
1.2.2 Assumptions
1.2.3 Limitations
1.3 Market Structure:
1.3.1 Global Database Management System Market: By Component
1.3.2 Global Database Management System Market: By Deployment
1.3.3 Global Database Management System Market: By Type
1.3.4 Global Database Management System Market: By Industry
2 Research Methodology
2.1 Research Type
2.2 Primary Research
2.3 Secondary Research
2.4 Forecast Model
2.4.1 Market Data Collection, Analysis & Forecast
2.4.2 Market Size Estimation
2.4.3 Market Crackdown & Data Triangulation
3 Market Dynamics
...
7 Competitive Analysis
7.1 Market Share Analysis
7.2 Company Profiles
7.2.1 Oracle Corporation
7.2.2 Embarcadero Technologies
7.2.3 Sap Ag
7.2.4 IBM Corporation
7.2.5 Mark Logic
7.2.6 Hewlett-Packard
7.2.7 Microsoft Corporation
7.2.8 Amazon Web Services
7.2.9 Enterprise Db
7.2.10 Cloudera
7.2.11 Inter Systems
7.2.12 Others
...
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Guitar Rig 5 Presets
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Presets here: https://drive.google.com/drive/folders/0B1j2C840OiJoMFFNb1ZJM2tEN1k?usp=sharing. Guitar Rig 5 Hambucker Pack For Twin Guitars. 20 (10 double) Presets For Double Tracked Guitars. “Most of the time you’ll see billions of presets (mono presets, that is) made for only one guitar. But this pack takes things to another level. This Guitar Rig 5 Metal Presets Pack is made of a left and right side. Guitar Rig 5 Pro delivers 54 meticulously modeled stomp boxes and effects, from legendary foot pedals to complex studio tools. Downloads, Banks, Patches, Presets, etc. GUITAR RIG PRESETS ONLINE IS THE PERFECT SOURCE FOR GUITAR RIG SOFTWARE USERS TO IMPROVE SIGNIFICANTLY PLAYING PERFORMANCE. NI Guitar Rig Software user! Now it`s possible to get thousands of Guitar Rig Presets from one place, instead of searching them one by one all over the web.
• Multi Interface - Multi interface support, you can use USB/COM port and any other popular repair boxes on the market. • Free Update - Update will be delivered to users for FREE. • Modular - With modular applications system, allows us to deliver new module fast. • Rich set of Features - Designed for easy to use and with support for as many features as possible, while still being fast and reliable. • Regular Update - Fast and regular update for HOT solutions and bugfix.
Guitar Rig
Note: In order to load a preset in GUITAR RIG, it is necessary to have all components installed which are used by this preset. If a component required by the preset is missing, it won't work. Kubota serial number decoder. A large variety of GUITAR RIG user presets is available under the following link. To import a preset or bank. This manual covers all elements of GUITAR RIG 5 in detail. In the Sidekick preset window is the pull down window where Add Bank can be select- ed.
byNative Instruments
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Most useful pages:More
Metronome and SynchronizationTunerKeyboard ShortcutsToolbar and RackAudio SettingsVirtual Rig KontrolControllerTapedeck PostThe Preset BrowserLive ViewGlobal Header
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Guitar Rig 5 Presets Missing
Summary of Contents for Native Instruments Guitar Rig 5
Page 1 Application Reference..
Page 2 The information in this document is subject to change without notice and does not repre- sent a commitment on the part of Native Instruments GmbH. The software described by this document is subject to a License Agreement and may not be copied to other media.
Page 3 Contact Germany Native Instruments GmbH Schlesische Str. 29-30 D-10997 Berlin Germany www.native-instruments.de Native Instruments North America, Inc. 6725 Sunset Boulevard 5th Floor Los Angeles, CA 90028 www.native-instruments.com © Native Instruments GmbH, 2011. All rights reserved.
Page 4: Table Of Contents
Loading and Saving Rack Presets ........29 4.1.4 Importing Presets ........... 29 4.1.5 Exporting Presets ............ 30 4.1.6 Saving New Rack Presets .........30 4.1.7 Tags on Three Levels ..........32 4.1.8 Tagging Presets ...........33 GUITAR RIG 5 - Application Reference - 4..
Page 5 Plug-In Location ...........54 7.1.3 Setting Up a Guitar or Bass Track ........54 7.1.4 Synchronization ...........55 7.1.5 Total Recall ............ 55 Automating Parameters ...........55 7.2.1 The Automation List ..........55 GUITAR RIG 5 - Application Reference - 5..
Page 6 Menu Bar ............68 File ............... 68 Edit ............... 69 View ..............69 Help ..............70 10 Audio and MIDI Settings .......... 71 10.1 Audio ..............71 11 Keyboard Shortcuts ..........74 GUITAR RIG 5 - Application Reference - 6..
Page 7: Introduction
Welcome to the GUITAR RIG 5 Application Reference! About this Manual This manual covers all elements of GUITAR RIG 5 in detail. If you want to get deeply into the software, this is the document to refer to. The following documents are also available: ▪..
Page 8: Safety Considerations
For your protection, set all output levels to a minimum before using GUITAR RIG 5. Gradually raise the volume controls while mu- sic is playing to set the desired listening level. If you experience any hearing problems or persistent ringing in the ears, consult an audiologist immediately.
Page 9: User Interface
Global Header The Global Header (visible both in Standard view and in Live view) assembles the main input and output controls as well as the system performance display of GUITAR RIG 5. GUITAR RIG Global Header GUITAR RIG 5 - Application Reference - 9..
Page 10: Input And Output
▪ The Learn function automatically sets the optimum threshold. Double click the threshold knob and do not play your instrument for some seconds: GUITAR RIG 5 analyses your signal and sets the threshold just above any residual noise.
Page 11 You might need to disable some components or turn off high quality mode to save CPU power. Then re-activate the audio engine by clicking the Power button. GUITAR RIG 5 - Application Reference - 11..
Page 12: Live View
Live view. It hides the Rack and instead puts the most important perform- ance features into a clear layout. The Live view is perfect for on-stage use, consolidating the following elements: ▪ Global Header ▪ Current Preset List as defined in the Preset Browser GUITAR RIG 5 - Application Reference - 12..
Page 13: Toolbar And Rack
Toolbar and Rack If you are in Live view, please return to Standard view by clicking on the LIVE button to continue our tour through the user interface of GUITAR RIG 5. GUITAR RIG 5 - Application Reference - 13..
Page 14 Preset List, even if it is not visible, by clicking on the Up/Down arrows. Save makes changes to the loaded preset permanent, overriding the stored settings ▪ with the current ones. Factory Presets and User Presets are now stored in separate folders. GUITAR RIG 5 - Application Reference - 14..
Page 15: Virtual Rig Kontrol
The Rack holds all the components that are processing your sound — giving a clear over- view of the signal flow. It is the heart of GUITAR RIG 5’s functionality, and is incredibly easy to use. See section ↑3, Components and the Rack..
Page 16: Sidekick
↑8.1.3, Linking External MIDI Controllers to the Virtual Rig Kontrol details. SideKick About a third of the user interface is occupied by the SideKick, a multi-functional area on the left hand side of the screen. GUITAR RIG 5 - Application Reference - 16..
Page 17 ▪ The Preset Browser (1) allows filtering of all available Rack Presets on three levels; you can organize your presets and perform a text search to easily find your presets. See section ↑3, Components and the Rack on working with presets. GUITAR RIG 5 - Application Reference - 17..
Page 18 ▪ The Options screen (3) serves to configure external controllers and their assignments, as well as preferences such as the window height, the path to presets, and other de- tails. See section ↑8, Options on setting up MIDI controllers and other options. GUITAR RIG 5 - Application Reference - 18..
Page 19: Components And The Rack
Components and the Rack Building a Rack from Scratch On the first start, the Rack of GUITAR RIG 5 is empty. You will hear dry, slightly pre-am- plified guitar sound when you play: an invitation to try out the various components for yourself.
Page 20: The Component Pool
3.1.2 Setting Up an Amp The fastest way to start designing sounds with GUITAR RIG 5 is by adding an amp to the Rack. If you want to quickly create a guitar sound, try the Jump amplifier. ► Drag the amp’s icon from the Component Pool to the Rack. You can also double click the icon.
Page 21 Mics, Control Room, Control Room Pro, and Matched Cabinets. Another option is to use the pull down menu included in the matched cabinet. Here you will see the full list of available cabinets. You can also use the plus/minus tabs to toggle through the list. GUITAR RIG 5 - Application Reference - 21..
Page 22: Basics For Rack Building
The audio signal runs through the chain of rack modules from top to bottom, except if you are using special tools that create parallel processing paths, like the Split. See the Compo- nents Reference for details on these tools. GUITAR RIG 5 - Application Reference - 22..
Page 23 ▪ If you don’t want to replace another component when using Drag & Drop, make sure you drop it beneath the other components, which is indicated by an orange line in- stead of the rectangle. GUITAR RIG 5 - Application Reference - 23..
Page 24 ▪ The On/Off button allows for true bypassing of the module — no power is con- sumed when it is turned off. ▪ The (Minus) button minimizes the module’s display. ▪ The triangular arrow toggles its expert panel, if available. GUITAR RIG 5 - Application Reference - 24..
Page 25: Working With Presets
Controllers), which is indicated by a small padlock symbol. These will not be affected by controller assignments stored in a Rack Preset. GUITAR RIG 5 ships with a huge amount of Rack Presets of any style, and you can easily create more as you see fit.
Page 26: The Preset Browser
Working with Presets The Preset Browser The Preset Browser The Preset Browser Click on the Browser button to open the Preset Browser — a powerful tool for finding and organizing all your Rack Presets. GUITAR RIG 5 - Application Reference - 26..
Page 27: Tags And The Preset List
Clicking on the column headers will sort by the according values, first ascending then de- scending. GUITAR RIG 5 - Application Reference - 27..
Page 28: The Search Engine
The new search engine will help you to quickly find a particular preset by entering part of its name. The search bar, situated between the Preset Browser and the Preset List, is al- ways ready to process your requests. GUITAR RIG 5 - Application Reference - 28..
Page 29: Loading And Saving Rack Presets
Rack or at the bottom of the SideKick. 4.1.4 Importing Presets There are two ways of importing presets into GUITAR RIG 5 — either of them can be the most convenient way to go: GUITAR RIG 5 - Application Reference - 29..
Page 30: Exporting Presets
The Preset Browser ▪ When you drag and drop preset files into the Preset Browser, they will be copied to the Sounds folder of GUITAR RIG 5 and get the tag(s) that were selected before. ▪ After selecting from the GUITAR RIG 5 menu, you can copy presets to File >..
Page 31 User saved presets are marked with a user icon inside the preset lists. Custom presets can be spotted in GUITAR RIG 5 by just looking at the preset lists.To delete a pre- set, right-click (ctrl-click) on it in the Preset List and select..
Page 32: Tags On Three Levels
No preset will be harmed by deleting a tag — all presets are still in the Preset List when no tag is selected. ► To delete a preset, right-click on it in the Preset List and select Remove from disk. GUITAR RIG 5 - Application Reference - 32..
Page 33: Tagging Presets
Any preset can carry an unlimited number of tags! Adding tags to presets works simply with drag and drop: ► Click on one of the presets in the Preset List and drag it onto one of the tags in the left column of the Preset Browser. GUITAR RIG 5 - Application Reference - 33..
Page 34 ▪ After removing all tags from a preset, it is still available in the Preset Browser when you de-select all tags. ▪ To really delete a preset, highlight it, right-click and select Remove from disk. GUITAR RIG 5 - Application Reference - 34..
Page 35: Preset Info Page
After selecting one of the tags, the Preset List will change showing all the pre- sets containing this tag. Deleting a preset from the Preset List will remove the cur- rently selected tag from it. GUITAR RIG 5 - Application Reference - 35..
Page 36: Component Presets
Working with Presets Component Presets Component Presets GUITAR RIG 5 comes with plenty of factory presets for components, providing a timesav- ing alternative to dialing in classic sounds for each component by hand. 4.3.1 Basics A Component Preset contains the settings for a single component. After selecting an item of the Component Pool, press the Presets tab: a list of available Component Presets is dis- played below in the SideKick.
Page 37 Component Preset anywhere into the Rack. Component Presets and the Rack Each rack module displays the name of its current Component Preset in a small box on its left hand side, the Component Preset Display. GUITAR RIG 5 - Application Reference - 37..
Page 38 Once you have found a good setting for a component you use regularly, you will want to save your own Component Preset. To do this you will want to create a Bank. The Banks are user-defined categories where Component presets are stored. GUITAR RIG 5 - Application Reference - 38..
Page 39 ► From the component pull down menu choose Save as → The new preset will be titled New Preset until a title is chosen. ► To save any changes to the preset currently displayed, select Save from the component menu. GUITAR RIG 5 - Application Reference - 39..
Page 40 By clicking on the column headers of the list of Component Presets, you can sort it by List Number (#), Name, and Rating. Save a quality rating with each preset by clicking on one of the 5 stars right beside its name. This can always be changed later. GUITAR RIG 5 - Application Reference - 40..
Page 41: The Rack Tools
The Rack Tools Tapedeck Pre The Rack Tools The following sections will introduce you to the Rack Tools of GUITAR RIG 5: Tapedeck Pre and Post, Tuner and Metronome. Tapedeck Pre The Tapedeck Pre Rack Tool Tapedeck Pre is the tool for playing back and recording audio at the beginning of GUITAR RIG’s signal chain (except when..
Page 42: Recording
Recording your guitar will pick up the processed sound, just as you hear it at the output. Use Tapedeck Post if you want to record your guitar part with the actual GUITAR RIG 5 - Application Reference - 42..
Page 43: Interaction With Tapedeck Pre
The Rack Tools Tapedeck Post sound, e.g. for using it ”outside of” GUITAR RIG 5. Files you import and play back will not be processed, which makes Tapedeck Post ideal for playing drum loops and your own backing tracks. Its controls are similar to Tapedeck Pre, except that it has no Transpose (TRANSP),..
Page 44: Tuner
-1. TUNE FORK produces a reference tone. To select its pitch, click on the note field to the ▪ right and drag up or down, or click on the Arrow buttons. GUITAR RIG 5 - Application Reference - 44..
Page 45: Metronome And Synchronization
▪ sound: The current tempo is stored with the Rack content when you save a preset. In this setting, the Metronome loads the tempo information when you load a preset. This is useful for preparing presets with synchronized effects e.g. for a live show. GUITAR RIG 5 - Application Reference - 45..
Page 46: Preset Volume
▪ Use the crossfader to switch between the Dry signal and the Wet (affected) signal. ▪ Use the slider to control the volume level of the wet signal. GUITAR RIG 5 - Application Reference - 46..
Page 47: Master Fx
▪ Configure your Master FX chain from factory or user presets. ▪ Click on the (cross) to empty the whole Master FX section. ▪ Click on the arrow to minimize the Master FX section. GUITAR RIG 5 - Application Reference - 47..
Page 48 Tools section of the Component Pool. New Banks may also be created similarly to other Component Presets. Just as the other Rack Tools, the Master FX can’t be selected or highlighted. GUITAR RIG 5 - Application Reference - 48..
Page 49: The Rig Kontrol
RIG 5. Nine freely assignable switches and an expression pedal are at your disposal right after connecting it. Note that you can use the Rig Kontrol to control GUITAR RIG 5, even if you do not use it as your audio interface. For detailed information about the hardware and how to use the integrated audio interface, refer to the Hardware Reference.
Page 50: Assigning Functions To The Rig Kontrol
If you operate a switch or the pedal of the (physical) RIG KONTROL, both the Virtual Rig Kontrol and the assigned function will react to it. The label of Switch 1 is dragged onto the Volume I knob of the Plex. GUITAR RIG 5 - Application Reference - 50..
Page 51: Configuring Assignments
Kontrol. Click on the arrow button to reveal the assignment, then click on a label or switch on the Virtual Rig Kontrol to select it. The functions assigned to this particular control are now shown in the expert panel. GUITAR RIG 5 - Application Reference - 51..
Page 52 ▪ The left bracket defines the value mapped to the controller at zero; the right bracket defines the value mapped to the controller at maximum. GUITAR RIG 5 - Application Reference - 52..
Page 53: Assigning Functions To External Controllers
Rack. If the external footswitch you are using is “on” only while pressed (instead of switching be- tween “on” and “off”), activate Toggle mode in the context menu of the according input. GUITAR RIG 5 - Application Reference - 53..
Page 54: Using Guitar Rig In A Host
Setting Up a Guitar or Bass Track To setup a track to be processed by GUITAR RIG 5, just create an audio track and insert GUITAR RIG 5 as an effect. The audio track will hold the bare, unprocessed signal and your sound will be routed through GUITAR RIG before reaching the output stage of your DAW.
Page 55: Synchronization
(because it works both with audio and MIDI), you should use it as a signal process- ing / effects insert. 7.1.4 Synchronization If you want GUITAR RIG 5 to be in time with your host, remember to turn on Ext mode in the Metronome (see section ↑5.4, Metronome and Synchronization). This will turn off the speed setting of GUITAR RIG and use the host’s tempo as a master.
Page 56: Automating Parameters In Apple Logic Pro
In the View menu, turn on track automation for the selected track, so you can see what you are doing. Change the track to Latch Touch mode Start playback. GUITAR RIG 5 - Application Reference - 56..
Page 57: Sidechaining
In GUITAR RIG 5, a Sidechaining control is available in the Envelope, LFO, Input Level in the Modifier section and in the Stomp Compressor, Tube Compressor, and in the all new Fast Comp from the DYNAMICS section.
Page 58: Options
TAR RIG 5 reacts to MIDI Program Change messages regardless of assignments: They switch presets within the current Preset List. Controller Assignment the Easy Way The quickest way to control any knob with a MIDI device is provided by its context menu: GUITAR RIG 5 - Application Reference - 58..
Page 59: Setting Up External Midi Controllers
(instead of switching between “on” and “off” each time you press it), this will be the be- havior of the assigned parameter as well. If you want to change it, activate Toggle Mode the Menu of the according controller. GUITAR RIG 5 - Application Reference - 59..
Page 60: Assigning Functions To Controllers
0), the right one the value mapped to the controller at maximum (MIDI value 127). ▪ As switches are either on or off, the brackets can be used to define the difference be- tween the actual knob positions they trigger. GUITAR RIG 5 - Application Reference - 60..
Page 61 The Controller menu Even if you prefer drag and drop, the menu is necessary to assign functions that are not controlled by any rack module, e.g., switching presets. GUITAR RIG 5 - Application Reference - 61..
Page 62: Linking External Midi Controllers To The Virtual Rig Kontrol
8.1.3 Linking External MIDI Controllers to the Virtual Rig Kontrol The Virtual Rig Kontrol is a perfectly integrated component of GUITAR RIG 5, sporting pre-assigned functions for many presets and a convenient display for all its assignments, especially in Live view. If your external MIDI controller features a comparable set of con- trols, it can make sense to map it to the Virtual Rig Kontrol and then use the latter for assigning functions instead.
Page 63 “off” as soon as it is released. This can be very useful when triggering effects. In GUITAR RIG 5, each controller input can be set to work in “Hold mode” via its context menu to reflect this difference. Just right-click any label of the Virtual Rig Kontrol, or click on Menu in any entry of the MIDI Controller list to call it up.
Page 64: Preferences
In most cases, turning off Hold mode will enable them to work in the other mode as well. Preferences Under the Options tab, click on Preferences to configure GUITAR RIG 5. GUITAR RIG 5 - Application Reference - 64..
Page 65 Options Preferences The Preferences Menu It offers the following settings: Window Height: Use this control to set the height of the GUITAR RIG 5 window. You can ▪ choose among . The actual dimensions in pixels (given in Small Medium Large brackets) depend on the physical display resolution of your monitor.
Page 66: Rig Kontrol 1 Support
8.2.1 Rig Kontrol 1 Support The earliest Rig Kontrol can still be used for controlling GUITAR RIG 5, with the natural limitation of having only one audio input channel, of course. The second channel trans- mits the unit’s control signal and is therefore not available. To activate Rig Kontrol 1 com-..
Page 67 Options Preferences Left channel blocked by Rig Kontrol GUITAR RIG 5 - Application Reference - 67..
Page 68: Menu Bar
File Menu Bar GUITAR RIG 5 is designed in a way that — once set up — you will hardly ever need to use the Menu bar. Most functions are easier to access another way, as explained above. How- ever, it may be necessary to change the 'Audio and MIDI settings..' in standalone mode.
Page 69: Edit
Activates full screen mode, giving you the maximum possible resolution - extremely useful in Live view. Press ESC or F4 to return to normal mode. Hide/Show SideKick Hides or shows the left area of the GUITAR RIG 5 user interface, where Preset Browser, Components Browser and Options are displayed. Hide/Show Live View..
Page 70: Help
Open Manual.. For access to all available manuals, navigate to your language. Visit GUITAR RIG 5 on the Web.. Your permanent bookmark to the GUITAR RIG 5 website, where you find product-related resources, news and entertaining extras! Visit the Knowledge Base..
Page 71: Audio And Midi Settings
Choose the correct type of driver for your audio interface. Using ASIO (Windows) / CoreAu- dio (Mac OS X) is strongly recommended. Device Select your audio device from the list. If it doesn’t appear, check if it is connected and its drivers are properly installed. GUITAR RIG 5 - Application Reference - 71..
Page 72 SideChain function, this is the place to go. The left column shows the available channels of your audio interface. The entries in the right column are GUITAR RIG 5 - Application Reference - 72..
Page 73 The left column shows all available MIDI devices , sorted by Input and Output. The entries in the right column are actually menus. By clicking on them, you can turn them on or off. Mind that any devices you want to use to control GUITAR RIG 5 have to be activated (turned On) under Input.
Page 74: Keyboard Shortcuts
[Delete] Edit Select All [Ctrl]+[A] [Cmd]+[A] View Hide/Show Hints [Ctrl]+[I] [Cmd]+[I] View Full Screen [F4] [F4] View Hide/Show RigKontrol [F3] [F3] View Hide/Show SideKick [F2] [F2] View Hide/Show Live View [F1] [F1] GUITAR RIG 5 - Application Reference - 74..
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A Spyware Vendor Seemingly Made a Fake WhatsApp to Hack Targets
Hackers tried to trick iPhone users into installing a fake version of WhatsApp in a potential attempt to gather information about them. Technical analyses by both researchers from digital rights watchdog Citizen Lab and Motherboard suggest that this fake version of WhatsApp is linked to a specific Italian surveillance company.
The news highlights a sometimes overlooked attack on iPhones: tricking users into installing configuration files or so-called Mobile Device Management (MDM) profiles, which can then potentially push malware onto a target device. As the price of exploits for breaking into iPhones has steadily climbed, other government malware vendors have moved to leveraging MDM profiles to hack phones.
“I think it is targeted, I don’t think they were trying to spread this around,” Bill Marczak, a researcher from Citizen Lab, part of the Munk School of Global Affairs at the University of Toronto, told Motherboard.
Last Tuesday, the security company ZecOps said in a tweet that it had detected attacks against WhatsApp users. The company published a specific domain—config5-dati[.]com—and an IP address it said were related to the attacks. Then Marczak and fellow Citizen Lab researcher Bahr Abdul Razzak looked into the domain and found others linked to it, including one that hosted a site that purported to be a page to download WhatsApp. In reality, the site attempted to trick visitors into installing what was actually a special configuration file for iPhones designed to potentially gather information about the victims and send it back to the attacker, according to the Citizen Lab researchers.
Using data from cybersecurity vendors DomainTools and RiskIQ, Motherboard independently discovered multiple clusters of domains linked to the one publicly shared. The config5-dati[.]com domain shared an encryption certificate with other similarly named domains, revealing others such as config4-dati[.]com, config3-dati[.]com, and config6-dati[.]com. Citizen Lab searched for other numerical variations of that domain, including config1-dati[.]com; Google had preserved a cache of the WhatsApp phishing page on that domain.
A screenshot of the phishing page found by Citizen Lab. (Image: Citizen Lab)
"To keep in touch with your friends press the 'download' button and follow the instructions on the page," the phishing site reads in Italian. The page then instructs visitors how to install a configuration file via the iPhone's system settings menu. This is not how users install a legitimate version of WhatsApp: usually iPhone users download it from the Apple App Store.
Marczak said this file sends information to the config1-dati server, including the UDID, or Unique Device Identifier assigned to each iOS device by Apple; and the IMEI or International Mobile Equipment Identity, another unique code that identifies cellphones.
"[The MDM file is] the first bit of the installation process for what is ultimately likely to be a fake WhatsApp app containing spyware," Marczak said.
Citizen Lab researchers said they could not gather data on the next stage of the attack, meaning it is unclear exactly what other data the hackers would have been able to exfiltrate from a target device.
The phishing page is designed to look like an official WhatsApp site, with WhatsApp branding and professional graphics laying out the installation process step-by-step. The phishing page is not currently online. Citizen Lab shared a copy of the configuration file with Motherboard; when opened, the file says it is from "WhatsApp Inc." for "WhatsApp Messenger."
When presented with a summary of the findings, a WhatsApp spokesperson told Motherboard "We do not ask for these user privileges and people should be very suspicious of any app trying to do so."
"To help keep chats safe, we recommend that people download WhatsApp from the app store for their phone's platform. In addition, we may temporarily ban people using modified WhatsApp clients we detect to help encourage people to download WhatsApp from an authoritative source," the spokesperson added.
"We strongly oppose abuse from spyware companies, regardless of their clientele. Modifying WhatsApp to harm others violates our terms of service. We have and will continue to take action against such abuse, including in court," the WhatsApp spokesperson said. Facebook and WhatsApp are currently suing another spyware vendor, NSO Group, for allegedly abusing WhatsApp's infrastructure to deliver NSO's malware to targets.
Motherboard was unable to determine who the fake WhatsApp page was targeting.
Apple did not provide a statement.
Do you have information about similar attacks? We’d love to hear from you. You can contact Lorenzo Franceschi-Bicchierai securely on Signal at +1 917 257 1382, Wire/Wickr @lorenzofb, or email [email protected]. You can contact Joseph Cox on Signal on +44 20 8133 5190, Wickr on josephcox, or email [email protected]
After researching the set of domains, Motherboard found a cluster of other domains that at one point shared an IP address with the config5-dati[.]com domain, and from there a third set that shared an IP address and followed similar naming conventions. One of these, check3[.]it, was registered to "cy4gate srl", a company with a Rome, Italy address, according to WHOIS records. Most of the domains analyzed were registered in Rome according to the WHOIS records.
Cy4Gate describes itself as a "Cyber Electronic Warfare & Intelligence" company on its Twitter account. The company develops several products, including Epeius, its solution for "lawful intercept," an industry term for hacking and surveillance as a service. In 2017, Cy4gate appeared before an Italian Senate committee to pitch its surveillance products, according to a document published online. Last year, it made headlines for developing a product to track COVID-19 infections, which was part of a series of COVID-tracking solutions considered at the time by the Italian government, which eventually gave the bid to another company. Cy4gate is part of the Italian defense contractor Elettronica.
Cy4Gate has recently done business with high profile companies such as Fiat Chrysler as well as the United Arab Emirates, according to marketing material Motherboard found online. An Italian media report says Cy4Gate has also sold a product to the U.S. military, although it specifies it was not the company's Epeius product. Cy4Gate also offers cybersecurity products.
A screenshot of the login portal found by Citizen Lab. (Image: Citizen Lab)
Citizen Lab also found that an encryption certificate for an IP address associated with the config1-dati[.]com domain, which displayed the WhatsApp phishing page, mentioned "epeius," Cy4Gate's lawful intercept product. Motherboard found mentions of Epeius in certificates connected to IP addresses pointing to more of the config domains too.
The Citizen Lab researchers also found that the config-1dati[.]com domain at some point returned a login page with a Cy4gate logo and the name Epeius, and shared a screenshot of the portal with Motherboard. The branding matches that of a Epeius logo Motherboard found in Cy4Gate marketing material online.
A screenshot of the Epeius marketing material found by Motherboard. (Image: Motherboard)
"EPEIUS has been designed to address the LEAs (Law Enforcement Agencies) requirements to move from the 'cloud' of IP data flow to a targeted active interception approach directly on the target's endpoint like a Mobile phone, a Tablet or a personal computer," the brochure Motherboard found reads. The marketing material adds that "EPEIUS implements a number of innovative techniques to 'infect' a device," and that the product is designed to be configurable depending on the client's mission requirements.
"Example: if our task is the acquisition of target geolocalization and emails, EPEIUS will execute the pre-established modules," the brochure adds. The material adds that EPEIUS is designed to siphon data before it is encrypted and that data collection "is implemented through anonymous and untraceable connections." Cy4Gate took the Epeius product to market in 2019, according to the brochure.
When Motherboard shared the domain data with Cy4gate, a company spokesperson said in an email that the config domains identified by Citizen Lab researchers and Motherboard are not attributable to the company. The Cy4Gate spokesperson did confirm to Motherboard that the check3[.]it domain belonged to the company.
"I think it's pretty clearly their product," Marczak said.
Subscribe to our cybersecurity podcast CYBER, here.
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Computer On Module Market Size, Status, Growth | Industry Analysis Report 2020-2027
The newly added Computer On Module Market research report by Value Market Research disclose all the important information associated with the market such as value, growth factor, trends, market share, size, and challenges for the forecasted timeline 2020-2027. Further, this report also highlights smart strategy adopted by major players and also their market share. Basically, this report is designed to give a proper understanding of industry structure and competition intensity attractiveness.
The research report also covers the comprehensive profiles of the key players in the market and an in-depth view of the competitive landscape worldwide. The major players in the computer on module market include Advantech, Aaeon, Axiomtek, Digi International, Congatec, Kontron, Phytec ,MSC Technologies (Avnet), Olimex Ltd, and VarisciteS. This section includes a holistic view of the competitive landscape that includes various strategic developments such as key mergers & acquisitions, future capacities, partnerships, financial overviews, collaborations, new product developments, new product launches, and other developments
Get more information on "Global Computer On Module Market Research Report" by requesting FREE Sample Copy at https://www.valuemarketresearch.com/contact/computer-on-module-market/download-sample
Market Dynamics
The rising need for ruggedized robots in defense applications is the primary factor driving the Computer On Module market. Also, the increased requirement for fast product development, longevity, reliability of COMs, and its capability of multichannel retailing contributes to the Computer On Module market's growth. The flourishing embedded computing market is also positively impacting the Computer On Module market's growth. Moreover, the growing investments in autonomous cars, rising demand for connected devices, including IoT, have increased the need for servers globally, thus likely to generate profitable growth opportunities for key players of the Computer On Module market in the coming years. The report covers Porter’s Five Forces Model, Market Attractiveness Analysis and Value Chain analysis. These tools help to get a clear picture of the industry’s structure and evaluate the competition attractiveness at a global level. Additionally, these tools also give inclusive assessment of each segment in the global market of computer on module.
Browse Global Computer On Module Market Research Report with detailed TOC at https://www.valuemarketresearch.com/report/computer-on-module-market
Market Segmentation
This section of the computer on module market report provides detailed data on the segments by analyzing them grographically, thereby assisting the strategist in identifying the target demographics for the respective product or service. By Product Type
ARM (Advanced RISC Machines) Architecture
x86 Architecture
Power Architecture
By Standard
COM Express
SMARC (Smart Mobile Architecture)
Qseven
ETX (Embedded Technology Extended)
Others
By Application
Industrial Automation
Medical
Transportation
Gaming
Communication
Others
Regional Analysis
This section covers regional segmentation which accentuates on current and future demand for aerosol valve market across North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa. Further, the report focuses on demand for individual application segment across all the prominent regions.
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#ComputerOnModuleMarketSize#ComputerOnModuleMarketShare#ComputerOnModuleIndustryReport#ComputerOnModuleReport#ComputerOnModule#ComputerOnModuleMarket
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Cloud Electronic Design Automation (EDA) Market Size Outlook, Share Value, Global Growth Drivers and Industry Forecast to 2027
Cloud Electronic Design Automation (EDA) Global Market - Overview
Cloud EDA or cloud electronic design automation is a software tool generally used by the semiconductor industries for the designing complex electronic systems. EDA tools on cloud allows the user to use it from any place and helps the companies to design and developed highly complicated large-scale circuits used in some of the crucial industries such as healthcare, automotive and aerospace. Some of the systems which are used in cloud EDA is CAE (computer added engineering), ICs, wafers among others. Due to the advancement in technology and integration of cloud with the current system, the market is showing tremendous growth and is expected to do so in the future. Integration of cloud also encompasses algorithms and methodologies for the large-scale ICs.
Earlier the designing of circuit boards were manual tasks which was time taking process and with the adoption of electronic design automation, the designing become easy and also offered several other benefits such as reduced time, errors, and cost. Cloud Electronic Design Automation Market also offers various other benefits to the companies such as reduced product development time, high accuracy and optimum utilization of resource. The company also can save huge amount of money which used to occur while following manual production stages. Cloud EDA offers its users a pay-per-usage design environment which helps to reduce the extra cost which occurs.
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Key Players:
Cadence Design Systems, Mentor Graphics, Synopsys, Agilent, Agnisys, Aldec, Ansys, JEDA Technologies, MunEDA, Sigrity, Zuken among others are some of the prominent players profiled in MRFR Analysis and are at the forefront of competition in the global Cloud Electronic Design Automation (EDA) market. Cloud EDA offers wide range of benefits to the industry and manufacturing companies which is helping the market growth around the world.
Industry News
December, 2017, M31 Technology Corporation, a global Silicon Intellectual Property (IP) boutique, today announced that M31 28nm PHY with Corigine's USB 3.1 Gen 2 PC host and device controller intellectual property (IP) is certified by the USB Implementers Forum (USB-IF) and compliant with USB SuperSpeed+, the fastest USB speed standard. M31 is pleased to offer the 3.1 Gen 2 PHY in various process nodes including 28nm, 12nm and 7nm," adds Scott Chang, M31's vice president. M31 is delighted to have USB-IF certification along with Corigine's USB Gen 2 controllers and pleased to offer the 3.1 Gen 2 PHY in 28nm as part of Corigine's complete and highly competitive offering.
December, 2017, -Toshiba Electronic Devices & Storage Corporation has today started to ship five new high-current photorelays in DIP4 and DIP6 packages, additions to its portfolio of photorelays incorporating MOSFETs fabricated with the latest U-MOS VIII process. The new photorelays offer multiple options, with an off-state output terminal voltage ranging from 30 to 200V and a steady on-state current of 0.7 to 5.0A. They can replace 1-Form-A mechanical relays in various DC and AC applications, contributing to improved system reliability and reducing the space needed for relays and relay drivers. They deliver a rated operating temperature of 110°C (max), making it easier to accommodate temperature margins in system designs.
Cloud Electronic Design Automation (EDA) Global Market - Segmentation
Segmentation by Type: CAE, SIP (Semiconductor Intellectual Property), IC Physical Design and Verification, Printed Circuit Board (PCB) and Multi-Chip Module (MCM)
Segmentation by Application: Military/Defense, Aerospace, Telecom, Automotive, Industrial, Others
Cloud Electronic Design Automation (EDA) Global Market - Regional Analysis
Cloud Electronic Design Automation (EDA) Market is growing with the positive growth in all the regions. Growing need of efficient and automated manufacturing system in the industry is driving the market of cloud EDA around the world. By geography, North America is dominating the market due to the presence of global players in the region and high development in the field of technology and cloud computing is supporting the market growth in North America region. Also, high development and adoption of automation in the manufacturing sector in U.S. and Canada is also helping the market growth. Asia-Pacific stands as second largest market for cloud EDA. Rich presence of semiconductor manufacturing companies in China, Japan and South Korea are some of the major driving factors supporting the market in Asia Pacific. Also, high demand for consumer electronic products from the region is forcing the manufacturers to adopt latest technologies in the manufacturing process. Europe stands as third largest market for the cloud EDA. Presence of developed countries such as Germany, France, Italy, Netherlands and U.K. are one of the major driving factor behind the growth of the market in Europe region. Also, growing automotive industry in European region is also driving the market
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Table Of Contents
1 Industry Overview Of Cloud Electronic Design Automation (EDA)
1.1 Cloud Electronic Design Automation (EDA) Market Overview
1.1.1 Cloud Electronic Design Automation (EDA) Product Scope
1.2 Market Status And Outlook
1.3 Global Cloud Electronic Design Automation (EDA) Market Size And Analysis By Regions
1.3.1 United States
1.3.2 Europe
1.3.3 Japan
1.3.4 China
1.3.5 India
1.3.6 Southeast Asia
1.4 Cloud Electronic Design Automation (EDA) Market By Type
1.4.1 CAE
1.4.2 SIP (Semiconductor Intellectual Property)
1.4.3 IC Physical Design And Verification
1.4.4 Printed Circuit Board (PCB) And Multi-Chip Module (MCM)
1.5 Cloud Electronic Design Automation (EDA) Market By End Users/Application
1.5.1 Military/Defense
1.5.2 Aerospace
1.5.3 Telecom
1.5.4 Automotive
1.5.5 Industrial
1.5.6 Others
...
3 Company (Top Players) Profiles
3.1 Cadence Design Systems
3.1.1 Business Overview
3.1.2 Products, Services And Solutions
3.1.3 Cadence Design Systems Revenue (Value) (2020-2027)
3.1.4 Recent Developments
3.2 Mentor Graphics
3.2.1 Business Overview
3.2.2 Products, Services And Solutions
3.2.3 Mentor Graphics Revenue (Value) (2020-2027)
3.2.4 Recent Developments
3.3 Synopsys
3.3.1 Business Overview
3.3.2 Products, Services And Solutions
3.3.3 Synopsys Revenue (Value) (2020-2027)
3.3.4 Recent Developments
3.4 Keysight
3.4.1 Business Overview
3.4.2 Products, Services And Solutions
3.4.3 Keysight Revenue (Value) (2020-2027)
3.4.4 Recent Developments
3.5 Agnisys
3.5.1 Business Overview
3.5.2 Products, Services And Solutions
3.6 Aldec
3.6.1 Business Overview
3.6.2 Products, Services And Solutions
3.7 Ansys
3.7.1 Business Overview
3.7.2 Products, Services And Solutions
3.8 Ansys Revenue (Value) (2020-2027)
3.8.1 Recent Developments
3.9 JEDA Technologies
3.9.1 Business Overview
3.9.2 Products, Services And Solutions
3.10 MunEDA
3.10.1 Business Overview
3.10.2 Products, Services And Solutions
3.11 Zuken
...
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Computer on Module (COM) Market 2020 Global Key Players, Size, Trends, Applications & Growth - Analysis to 2026
Summary – A new market study, titled "Global Computer On Module (COM) Market Size, Manufacturers, Supply Chain, Sales Channel and Clients, 2020-2026" has been featured on WiseGuyReports.
Computer On Module (COM) market is segmented by region, by country, company, type, application and by sales channels. Players, stakeholders, and other participants in the global Computer On Module (COM) market will be able to gain the upper hand as they use the report as a powerful resource. The segmental analysis focuses on sales, revenue and forecast by region, by country, company, type, application and by sales channels for the period 2015-2026.
Also read – https://www.einpresswire.com/article/522280652/computer-on-module-com-market-2020-global-key-players-size-trends-applications-growth-analysis-to-2026
Segment by Type, the Computer On Module (COM) market is segmented into
ARM Architecture
X86 Architecture
Power Architecture
Other Architecture
Segment by Application, the Computer On Module (COM) market is segmented into
Industrial Automation
Medical
Entertainment
Transportation
Test & Measurement
Other
Regional and Country-level Analysis:
North America
United States
Canada
Asia-Pacific
China
Japan
South Korea
India
Southeast Asia
Australia
Rest of Asia-Pacific
Europe
Germany
France
U.K.
Italy
Russia
Nordic Countries
Rest of Europe
Latin America
Mexico
Brazil
Rest of Latin America
Middle East & Africa
Turkey
Saudi Arabia
UAE
Rest of MEA
Competitive Landscape and Computer On Module (COM) Market Share Analysis
Computer On Module (COM) market competitive landscape provides details and data information by companies. The report offers comprehensive analysis and accurate statistics on revenue by the player for the period 2015-2020. It also offers detailed analysis supported by reliable statistics on sale and revenue by players for the period 2015-2020. Details included are company description, major business, Computer On Module (COM) product introduction, recent developments, Computer On Module (COM) sales by region, type, application and by sales channel.
The major companies include:
Kontron
Congatec
MSC Technologies(Avnet)
Advantech
ADLink
Portwell
Eurotech
SECO srl
Technexion
Phytec
Axiomtek
Aaeon
Toradex
EMAC
Avalue Technology
CompuLab
Variscite
Digi International
Olimex Ltd
Shiratech(Aviv Technologies)
Critical Link, LLC
IWave Systems Technologies
Calixto Systems
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