Mainstream AI workloads too resource-hungry? Try Hala Point, Intel's largest Neuromorphic computer

While most people expect Quantum computers to be the ones that disrupt our conventional hardware, there's still a lot of work to be done before they go mainstream. Read More. https://www.sify.com/technology/mainstream-ai-workloads-too-resource-hungry-try-hala-point-intels-largest-neuromorphic-computer/

𝐓𝐡𝐞 𝐄𝐧𝐝 𝐨𝐟 𝐌𝐨𝐨𝐫𝐞’𝐬 𝐋𝐚𝐰: 𝐖𝐡𝐚𝐭 𝐂𝐨𝐦𝐞𝐬 𝐍𝐞𝐱𝐭?

Welcome to the future of computing! In this video, we explore how traditional computing, once driven by Moore's Law, is reaching its limits, and how new technologies like neuromorphic computing, quantum computing, and DNA computing are stepping in to reshape the way we think about technology.

Join us as we dive into:

The challenges of Moore's Law and why it's slowing down.

Neuromorphic computing: a brain-inspired computing method that's changing the game. Quantum, optical, and DNA computing: revolutionary approaches to overcoming current limitations. How these innovations can impact AI, robotics, healthcare, and beyond. The future is now! Don’t forget to like, comment, and subscribe for more cutting-edge tech content.

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Utrecht University - First experimental proof for brain-like computer with water and salt:

ArtificialSynapse #Synapse #Iontronic #NeuromorphicComputing #Neurology #Physics

(via The Rise Of Neuromorphic Computing: How It's Revolutionizing Engineering | ZeNexus Electronics)

AI Chips = The Future! Market Skyrocketing to $230B by 2034 🚀

Artificial Intelligence (AI) Chip Market focuses on high-performance semiconductor chips tailored for AI computations, including machine learning, deep learning, and predictive analytics. AI chips — such as GPUs, TPUs, ASICs, and FPGAs — enhance processing efficiency, enabling autonomous systems, intelligent automation, and real-time analytics across industries.

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Market Trends & Growth:

GPUs (45% market share) lead, driven by parallel processing capabilities for AI workloads.

ASICs (30%) gain traction for customized AI applications and energy efficiency.

FPGAs (25%) are increasingly used for flexible AI model acceleration.

Inference chips dominate, optimizing real-time AI decision-making at the edge and cloud.

Regional Insights:

North America dominates the AI chip market, with strong R&D and tech leadership.

Asia-Pacific follows, led by China’s semiconductor growth and India’s emerging AI ecosystem.

Europe invests in AI chips for automotive, robotics, and edge computing applications.

Future Outlook:

With advancements in 7nm and 5nm fabrication technologies, AI-driven cloud computing, and edge AI innovations, the AI chip market is set for exponential expansion. Key players like NVIDIA, Intel, AMD, and Qualcomm are shaping the future with next-gen AI architectures and strategic collaborations.

#aichips #artificialintelligence #machinelearning #deeplearning #neuralnetworks #gpus #cpus #fpgas #asics #npus #tpus #edgeai #cloudai #computervision #speechrecognition #predictiveanalytics #autonomoussystems #aiinhealthcare #aiinautomotive #aiinfinance #semiconductors #highperformancecomputing #waferfabrication #chipdesign #7nmtechnology #10nmtechnology #siliconchips #galliumnitride #siliconcarbide #inferenceengines #trainingchips #cloudcomputing #edgecomputing #aiprocessors #quantumcomputing #neuromorphiccomputing #iotai #aiacceleration #hardwareoptimization #smartdevices #bigdataanalytics #robotics #aiintelecom

🧠💾 Brain-Inspired Chips? Neuromorphic Tech Is Growing FAST!

Neuromorphic semiconductor chips are revolutionizing AI hardware by mimicking the biological neural networks of the human brain, enabling ultra-efficient, low-power computing. Unlike traditional von Neumann architectures, these chips integrate spiking neural networks (SNNs) and event-driven processing, allowing real-time data analysis with minimal energy consumption. 

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By leveraging advanced semiconductor materials, 3D chip stacking, and memristor-based architectures, neuromorphic chips significantly improve pattern recognition, autonomous decision-making, and edge AI capabilities. These advancements are critical for applications in robotics, IoT devices, autonomous vehicles, and real-time medical diagnostics, where low-latency, high-efficiency computing is essential. Companies like Intel (Loihi), IBM (TrueNorth), and BrainChip (Akida) are pioneering neuromorphic processors, paving the way for next-generation AI solutions that operate closer to biological cognition.

The integration of analog computing, in-memory processing, and non-volatile memory technologies enhances the scalability and performance of neuromorphic chips in complex environments. As the demand for edge AI, neuromorphic vision systems, and intelligent sensors grows, researchers are exploring synaptic plasticity, stochastic computing, and hybrid digital-analog designs to further optimize efficiency. These chips hold promise for neuromorphic supercomputing, human-machine interfaces, and brain-computer interfaces (BCIs), driving innovations in AI-driven healthcare, cybersecurity, and industrial automation. With the convergence of AI, semiconductor technology, and neuroscience, neuromorphic semiconductor chips will be the cornerstone of next-gen intelligent computing architectures, unlocking unprecedented levels of cognitive processing and energy-efficient AI.

#neuromorphiccomputing #aihardware #braininspiredcomputing #semiconductortechnology #spikingneuralnetworks #neuromorphicsystems #memristors #analogcomputing #intelligentprocessors #machinelearninghardware #edgedevices #autonomoussystems #eventdrivenprocessing #neuralnetworks #biomimeticai #robotics #aiattheneuromorphicedge #neuromorphicvision #chipdesign #siliconneurons #futurecomputing #hpc #smartai #inmemorycomputing #lowpowerai #bci #nextgenai #deeptech #cybersecurityai #intelligentsensors #syntheticintelligence #artificialcognition #computervision #braincomputerinterfaces #aiinnovation

🦾 Next-Gen Prosthetics: How Semiconductors Are Powering Bionic Breakthroughs!

Semiconductor-Based Smart Prosthetics Market : The fusion of semiconductor technology and biomedical engineering is driving groundbreaking advancements in smart prosthetics, offering enhanced mobility, sensory feedback, and real-time adaptability for individuals with limb loss. With AI-powered microchips, neuromuscular interfaces, and energy-efficient sensors, semiconductor-based prosthetics are transforming the future of bionic limbs and assistive devices.

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How Semiconductor Technology Powers Smart Prosthetics

Modern prosthetics leverage high-performance semiconductors to create responsive, intuitive, and adaptive solutions. Key innovations include:

✔ AI-Integrated Microchips — Enable real-time motion prediction and adaptive movement control. ✔ Neuromuscular Interfaces — Advanced semiconductor-based sensors detect nerve signals for intuitive control. ✔ MEMS & Nano-Sensors — Miniaturized components provide precise motion tracking and haptic feedback. ✔ Energy-Efficient Processors — Optimize power consumption for long-lasting battery life in prosthetic devices. ✔ Wireless Connectivity — Bluetooth and IoT-enabled chips facilitate data transfer and remote adjustments.

Key Benefits of Semiconductor-Based Smart Prosthetics

📌 Enhanced Mobility & Dexterity — AI-driven control enables natural movement and real-time adjustments. 📌 Sensory Feedback — Haptic actuators and bioelectronic interfaces restore the sense of touch. 📌 Adaptive Learning — Machine learning algorithms continuously optimize prosthetic function for individual users. 📌 Lightweight & Energy Efficient — Semiconductor miniaturization leads to lighter, more efficient prosthetics.

Applications of Semiconductor-Based Smart Prosthetics

🔹 Bionic Hands & Arms — AI-powered semiconductors enable fine motor control for precision grip and dexterity. 🔹 Smart Leg Prosthetics — Adaptive gait control ensures smooth walking, running, and stair climbing. 🔹 Neural-Integrated Prosthetics — Brain-computer interfaces (BCIs) allow direct thought-controlled movement. 🔹 Wearable Exoskeletons — Assistive mobility devices leverage semiconductor processors for real-time movement enhancement.

Future Trends in Smart Prosthetics

🔸 Brain-Machine Interfaces (BMI) — Semiconductor-powered BCIs enable direct brain-to-prosthetic communication. 🔸 Self-Healing Materials — AI-driven nanotechnology for self-repairing prosthetic components. 🔸 Wireless Energy Transfer — Semiconductor advancements in wireless charging for long-term prosthetic usage. 🔸 3D-Printed Semiconductor Prosthetics — Custom-fabricated limbs with embedded smart sensors and microchips.

With continued advancements in semiconductor technology, smart prosthetics are bridging the gap between artificial limbs and natural movement, offering a future where bionic enhancements redefine human capabilities.

#smartprosthetics #bionics #semiconductors #ai #neuromorphiccomputing #braincomputerinterface #bionichand #biotech #medicalinnovation #wearabletech #futuremedicine #hapticfeedback #microelectronics #biomedicalengineering #nanotechnology #machinelearning #adaptiveai #aiinhealthcare #roboticprosthetics #exoskeleton #cyborgtech #aiassist #brainwavecontrol #medicaldevices #techforgood #iothealthcare #embeddedchips #mobilitytech #smartwearables #advancedmaterials #nextgenhealthcare #3dprintedprosthetics 

Self-Powered Neural Chips: The AI Breakthrough That Will Surge to $15.8B by 2034

Self-Powered Neural Chips Market is revolutionizing AI and computing by integrating energy-harvesting capabilities directly into neural processing units (NPUs). These chips generate their own power from ambient sources like body heat, motion, light, and radio waves, enabling ultra-efficient, autonomous AI systems for healthcare, IoT, robotics, and wearable devices.

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Why Self-Powered Neural Chips?

✅ Enable battery-free AI-powered devices ✅ Reduce energy consumption in smart electronics ✅ Improve efficiency in edge computing & IoT applications ✅ Support real-time AI processing in remote & off-grid areas

Market Growth Drivers:

📈 Rising demand for low-power AI chips & neuromorphic computing 📈 Expansion of wearable tech, smart sensors & medical implants 📈 Increasing focus on sustainable, energy-efficient AI 📈 Innovations in piezoelectric, thermoelectric, and bio-harvesting energy

The global self-powered neural chip market is witnessing significant growth as industries push for AI-driven automation, energy-efficient computing, and real-time edge processing. These next-gen chips are transforming brain-computer interfaces, smart wearables, and autonomous AI-powered devices by eliminating dependence on external power sources.

With advancements in biocompatible materials, nanogenerators, and AI-powered edge computing, self-powered neural chips are paving the way for a future where AI systems operate seamlessly, anytime, anywhere — without recharging.

How do you see self-powered AI impacting the future? Let’s discuss below! 👇

#SelfPoweredAI #NeuralChips #AIRevolution #EdgeComputing #EnergyHarvesting #WearableAI #NeuromorphicComputing #TechForSustainability #BrainComputerInterface #AIChips #IoT #SmartSensors #BatteryFreeTech #LowPowerAI #MedicalAI #GreenElectronics #AutonomousDevices #NextGenAI #MicrochipInnovation #BioTech #Piezoelectric #NanoTech #TechForGood #AIHardware #FutureOfComputing #WirelessAI #SmartWearables #SustainableTech #AIProcessing #ElectronicsInnovation 🚀

Research Scope:

· Estimates and forecast the overall market size for the total market, across type, application, and region

· Detailed information and key takeaways on qualitative and quantitative trends, dynamics, business framework, competitive landscape, and company profiling

· Identify factors influencing market growth and challenges, opportunities, drivers, and restraints

· Identify factors that could limit company participation in identified international markets to help properly calibrate market share expectations and growth rates

· Trace and evaluate key development strategies like acquisitions, product launches, mergers, collaborations, business expansions, agreements, partnerships, and R&D activities

About Us:

Global Insight Services (GIS) is a leading multi-industry market research firm headquartered in Delaware, US. We are committed to providing our clients with highest quality data, analysis, and tools to meet all their market research needs. With GIS, you can be assured of the quality of the deliverables, robust & transparent research methodology, and superior service.

Contact Us:

Global Insight Services LLC 16192, Coastal Highway, Lewes DE 19958 E-mail: [email protected] Phone: +1–833–761–1700 Website: https://www.globalinsightservices.com/

Ditch silicon, think like a brain! #NeuromorphicComputing mimics the human mind for faster, smarter AI. Will it reshape our future? Dive inside the machine & explore the possibilities! #AIRevolution #FutureTech #BrainPower #InnovationUnveiled #TechExploration Daniel Reitberg

moms, mothers day #neuromorphiccomputing #technology #TechNews

#Intel to Release #NeuromorphicComputing System

Bio-Inspired Neural Processing: A $12.8B Market – How AI is Mimicking the Human Brain

Bio-Inspired Neural Processing Units Market is projected to grow from $4.5 billion in 2024 to $12.8 billion by 2034, expanding at an impressive CAGR of 11%. These cutting-edge neuromorphic chips and AI-driven systems are transforming robotics, autonomous vehicles, and smart devices by mimicking human brain functionality.

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🔍 Market Growth & Key Drivers:

✅ Neuromorphic Computing Revolution — Enhancing AI efficiency & adaptability ✅ AI-Powered Smart Devices — Boosting next-gen consumer electronics ✅ Rise of Autonomous Vehicles — Driving AI-based decision-making ✅ Advanced Robotics — Improving real-time learning capabilities ✅ Healthcare Breakthroughs — Transforming medical diagnostics & precision medicine

📊 Market Breakdown by Sector:

🔹 Consumer Electronics (45%) — AI-powered smartphones, wearables, and IoT devices 🔹 Automotive (30%) — Neuromorphic processors for autonomous driving 🔹 Healthcare (25%) — AI-driven diagnostics & medical imaging advancements

🌍 Regional Market Insights:

🌟 North America — Leading with strong R&D and AI integration 🌟 Europe — Expanding in automotive, healthcare & industrial automation 🌟 Asia-Pacific — Emerging hub for AI-driven consumer tech & robotics

Top players like Intel, IBM, Qualcomm, and BrainChip are revolutionizing AI-powered computing, paving the way for next-gen neural processing technologies. 🧠⚡

#BioInspiredAI #NeuromorphicComputing #AIRevolution #SmartTechnology #NeuralProcessing #BrainInspiredComputing #ArtificialIntelligence #NextGenAI #MachineLearning #DeepLearning #CognitiveComputing #AutonomousVehicles #AIChipset #NeuralNetworks #TechForGood #AIForHealthcare #Robotics #SmartDevices #AIInAutomotive #FutureOfComputing #AIHardware #AIInnovation #EdgeComputing #AIForSecurity #AIForFinance #NeuralChips #IoT #SmartManufacturing #AIInDefense #AIForTelecom #AIForEnergy

Neuromorphic Computing to $21.3B by 2033, 15.8% CAGR

Neuromorphic Computing Market : Neuromorphic computing is an emerging field that draws inspiration from the structure and function of the human brain to create more efficient, brain-like computing systems. Unlike traditional computing models, which rely on rigid architectures and binary operations, neuromorphic systems utilize artificial neurons and synapses to process information in a more parallel and adaptive way. This enables machines to learn, reason, and make decisions in real time, similar to how humans process information. Neuromorphic computing is set to revolutionize AI applications, enhancing everything from robotics and autonomous vehicles to personalized healthcare solutions and advanced data analysis.

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The power of neuromorphic computing lies in its energy efficiency and ability to handle complex, dynamic tasks. By mimicking biological neural networks, these systems can process vast amounts of data with minimal power consumption, making them ideal for edge computing devices, wearable tech, and smart systems. As this technology continues to evolve, it promises to drive breakthroughs in AI capabilities, enabling more intuitive, adaptive, and intelligent machines. With its potential to transform industries, neuromorphic computing is a cornerstone of the next-generation AI revolution.

#NeuromorphicComputing #ArtificialIntelligence #AIRevolution #BrainInspiredTech #MachineLearning #SmartSystems #EdgeComputing #AIInnovation #AutonomousSystems #EnergyEfficientAI #TechOfTheFuture #AdvancedComputing #RoboticsInnovation #DeepLearning #AIApplications

🧠 AI + Semiconductors = Predicting the Future of Tech Like Never Before!

AI for Predictive Semiconductor Trends Market : The semiconductor industry is evolving rapidly, and Artificial Intelligence (AI) is playing a crucial role in forecasting market trends, optimizing chip design, and enhancing manufacturing efficiency. AI-driven predictive analytics helps semiconductor companies stay ahead by identifying emerging technology shifts, market demands, and supply chain disruptions before they occur.

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How AI is Transforming Semiconductor Trend Prediction

AI-powered systems leverage machine learning, deep learning, and big data analytics to analyze vast amounts of semiconductor industry data. Key AI applications include:

✔ Market Demand Forecasting — AI models predict global semiconductor demand based on economic indicators, consumer behavior, and technological advancements. ✔ Design Optimization — AI accelerates chip design simulations, reducing time-to-market for next-gen processors and SoCs. ✔ Predictive Supply Chain Analytics — AI-driven forecasting minimizes component shortages and disruptions in semiconductor manufacturing. ✔ Defect Detection & Yield Optimization — AI-based computer vision improves wafer inspection and enhances production yield.

Key Benefits of AI in Semiconductor Trend Prediction

📌 Early Trend Identification — AI detects upcoming shifts in semiconductor demand for AI chips, 5G, IoT, and automotive electronics. 📌 Data-Driven Decision Making — AI-driven insights enable chipmakers to adapt production strategies and R&D investments. 📌 Improved Manufacturing Efficiency — AI optimizes fab operations, reducing defects and energy consumption. 📌 Enhanced Supply Chain Resilience — AI models forecast raw material availability, geopolitical risks, and logistics delays.

AI-Powered Trends Shaping the Semiconductor Industry

🔹 AI-Driven Chip Design — AI is revolutionizing EDA (Electronic Design Automation) for faster and more efficient semiconductor design. 🔹 Edge AI & Neuromorphic Computing — AI predicts the rise of brain-inspired processors for real-time AI applications. 🔹 Quantum Computing Integration — AI anticipates breakthroughs in quantum semiconductors for next-gen computing. 🔹 Sustainability & Green Semiconductors — AI forecasts trends in low-power and eco-friendly chip manufacturing.

Future Trends in AI-Powered Semiconductor Insights

🔸 Generative AI for Chip Innovation — AI models will autonomously design and optimize semiconductor architectures. 🔸 AI for Silicon Photonics — Predicting the rise of optical computing for ultra-fast data processing. 🔸 AI-Powered Semiconductor Market Analytics — Advanced AI algorithms will refine demand prediction accuracy. 🔸 AI in 3D & Advanced Packaging — AI-driven insights will shape chiplet-based architectures and heterogeneous integration.

As AI continues to transform predictive semiconductor analytics, chipmakers gain a strategic edge in forecasting industry trends, boosting innovation, efficiency, and market competitiveness.

#artificialintelligence #semiconductors #ai #predictiveanalytics #machinelearning #chipdesign #bigdata #eda #supplychain #iot #aihardware #5g #neuromorphiccomputing #quantumcomputing #siliconphotonics #waferinspection #smartmanufacturing #futuretechnology #autonomoussystems #generativeai #fabautomation #deeptech #aiinsupplychain #nextgensemiconductors #predictivemaintenance #datacenters #hardwareacceleration #sustainability #lowpowerchips

Low-Temperature Chip Fabrication: The Future of Tech, Growing to $10.8B by 2034

Low-Temperature Chip Fabrication Market is gaining traction as the demand for energy-efficient, high-performance, and miniaturized semiconductors continues to rise. This innovative approach allows chip manufacturers to develop next-generation processors, flexible electronics, and quantum computing components while reducing thermal stress and enhancing material compatibility.

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Why Low-Temperature Chip Fabrication?

✅ Enables flexible & wearable electronics ✅ Reduces thermal expansion & material degradation ✅ Enhances energy efficiency & device longevity ✅ Supports emerging quantum & neuromorphic computing technologies

Market Growth Drivers:

📈 Increasing demand for low-power, high-performance chips 📈 Advancements in nanotechnology & semiconductor materials 📈 Growth of IoT, AI, and edge computing applications 📈 Expansion of 3D chip stacking & advanced packaging

The global low-temperature chip fabrication market is being fueled by breakthroughs in thin-film transistors, 2D materials, and flexible semiconductor technology. As the industry shifts toward smaller, faster, and more power-efficient devices, low-temperature processing is unlocking new possibilities in wearable tech, smart sensors, and AI-driven hardware.

With the rapid evolution of quantum computing, AI, and neuromorphic chips, low-temperature fabrication is playing a key role in enhancing performance, reducing costs, and enabling next-gen electronic applications.

How do you see this technology shaping the future? Drop your thoughts below! 👇

#LowTemperatureFabrication #SemiconductorTechnology #AdvancedMaterials #FlexibleElectronics #QuantumComputing #WearableTech #Nanotechnology #AIChips #Microelectronics #TechInnovation #LowPowerChips #IoT #NeuromorphicComputing #SmartSensors #3DChipStacking #ChipManufacturing #NextGenTech #ThinFilmTransistors #EdgeComputing #SustainableTech #EnergyEfficientElectronics #GreenSemiconductors #FutureOfComputing #MicrochipRevolution #LowPowerDevices #NanoMaterials #AIHardware #SmartDevices #ElectronicsInnovation #TechForGood 🚀

In-Memory Computing Chips: The Next Big Thing? Market to Hit $12.4B by 2034

In-Memory Computing Chips Market is experiencing rapid growth as industries demand faster data processing, real-time analytics, and energy-efficient computing. Unlike traditional architectures, in-memory computing chips store and process data in the same location, eliminating latency and dramatically improving performance. This breakthrough technology is transforming industries such as AI, big data, edge computing, healthcare, finance, and autonomous systems.

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Why In-Memory Computing Chips?

✅ Accelerate AI & machine learning applications ✅ Enable real-time big data analytics ✅ Reduce power consumption & latency ✅ Optimize cloud computing & edge AI

Market Growth Drivers:

📈 Growing demand for AI-driven computing & deep learning 📈 Expansion of IoT, 5G, and high-performance computing (HPC) 📈 Rising need for energy-efficient data centers & cloud infrastructure 📈 Advancements in neuromorphic and resistive RAM (ReRAM) technologies

The global in-memory computing chips market is set to expand, with major tech giants and startups investing in AI accelerators, neuromorphic computing, and next-gen memory architectures. As AI, blockchain, and real-time analytics continue to evolve, in-memory computing is emerging as a critical enabler of high-speed, low-latency processing.

With quantum computing and edge AI pushing the limits of traditional computing, in-memory computing chips are paving the way for a faster, smarter, and more efficient digital future.

What are your thoughts on in-memory computing? Let’s discuss! 👇

#InMemoryComputing #AIAccelerators #EdgeAI #HighPerformanceComputing #BigData #RealTimeAnalytics #CloudComputing #MachineLearning #ArtificialIntelligence #NeuromorphicComputing #NextGenChips #TechInnovation #AIChips #DataProcessing #DeepLearning #IoT #5G #QuantumComputing #SmartComputing #ChipTechnology #EnergyEfficientTech #HPC #DataCenters #ReRAM #CloudAI #AIHardware #FutureOfComputing #FastProcessing #LowLatency #NextGenMemory 🚀

Research Scope:

· Estimates and forecast the overall market size for the total market, across type, application, and region

· Detailed information and key takeaways on qualitative and quantitative trends, dynamics, business framework, competitive landscape, and company profiling

· Identify factors influencing market growth and challenges, opportunities, drivers, and restraints

· Identify factors that could limit company participation in identified international markets to help properly calibrate market share expectations and growth rates

· Trace and evaluate key development strategies like acquisitions, product launches, mergers, collaborations, business expansions, agreements, partnerships, and R&D activities

About Us:

Global Insight Services (GIS) is a leading multi-industry market research firm headquartered in Delaware, US. We are committed to providing our clients with highest quality data, analysis, and tools to meet all their market research needs. With GIS, you can be assured of the quality of the deliverables, robust & transparent research methodology, and superior service.

Contact Us:

Global Insight Services LLC 16192, Coastal Highway, Lewes DE 19958 E-mail: [email protected] Phone: +1–833–761–1700 Website: https://www.globalinsightservices.com/