“I worked with Seshu on IoT related projects on Android Things across different categories ground up - from a definition, strategy and a scaling perspective. Seshu brings a lot of insight, energy and enthusiasm from his experience. He asks the right questions, makes sound decisions, directs his team with conviction and strives to work for a common goal across companies creating a win-win for all parties involved. It is a pleasure working with him - he is rational and always sees the big picture in a snap. ”
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Experience & Education
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Frore Systems
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Publications
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• Inventor of over 25 U.S. Patents
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• Media briefings with Re/code, Anand Tech, CNET, PC Magazine, New York Times, Wall Street Journal.
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• Published over 20 research papers in refereed journals and conferences on graph theory, queuing theory, marketing theory, wireless technology and business strategy.
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• Speeches at MWC, CES, CTIA, Computex, Deutsche Bank investor forum, ARM partner conference
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Languages
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Hindi, Telugu, a bit of French and German
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Recommendations received
9 people have recommended Seshu
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Marco Mezger
#Startup Tackles #Chiplet Design Complexity 💡 Baya Systems is coming out of stealth mode to take the guess work out of #chiplets 👏 In a briefing with EE Times | Electronic Engineering Times, Nandan Nayampally, Baya’s chief commercial officer, said that with #SoC and chiplet system design, as well as #software development complexity exploding, there is also a growing need to accelerate analysis, design, and deployment of chiplets. He said Baya’s broader agenda is to tackle the data movement bottleneck faced by #AI workloads in #heterogeneous #computing environments, or what Baya said is now “intelligent compute.” Nayampally said a more cohesive system is necessary to reduce data movement, even as more complex #memory hierarchies and processing solutions are coupled together. Chiplets provide a solution but even with standardization, there is a need for tools to support an end-to-end workflow as software development for both them and SoCs gets more complex, he added. A big thank you again to Gary Hilson and EE Times | Electronic Engineering Times for the full article with more background and insights via the link below 💡🙏👇 https://lnkd.in/es_tUdPh #semiconductorindustry #semiconductormanufacturing #semiconductor #technology #innovation #tech #chip #chips #ic #foundry #aiot #it #ml #cloud #datacenter #data #computing #computer #server
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Marco Mezger
Global cellular #IoT connectivity market reached $15B in 2023, 5G set to drive further growth 💡 Mobile operators worldwide earned $15 billion from 3.56 billion cellular IoT connections in 2023. According to IoT Analytics’ Global Cellular IoT Connectivity Tracker & Forecast (updated in June 2024)—which shares granular data about connections, revenue, and ARPU across all IoT connectivity types, including 2024 quarterly forecasts—mobile operator IoT revenue grew at a CAGR of 16% since 2010. IoT Analytics projects growth acceleration starting in 2024, with the CAGR expected to exceed 18% through 2030. #Mobile IoT revenue growth rate set the pace in 2023. The IoT revenue growth rate for mobile operators exceeded that for #software vendors and #hyperscalers in general in 2023, according to IoT Analytics’ Global IoT Enterprise Spending dashboard (updated June 2024). This data point shows that the relative importance of cellular connectivity for IoT-connected devices continues to increase. Thanks to IoT Analytics for the full article with more background and insights via the link below 💡🙏👇 https://lnkd.in/eHSQHs2k #semiconductorindustry #semiconductors #semiconductor #technology #tech #it #ai #datacenter #computing #cellular #network #aiot #chip #ic
344 Comments -
Marco Mezger
Tackling Data Retention in SSDs (by Anil Burra from Intelligent Memory) 🤩 "SSDs have conquered the market due to their speed, durability, energy efficiency, and small form factor. However, write endurance and data retention are concerns in #embedded and #industrial applications, especially as the technology moves to ever smaller nodes." (Anil Burra) With the scaling of #NAND #flash #technology to higher densities (e.g., Triple-Level-Cell or Quad Level-Cell) and smaller process nodes, data retention becomes more challenging due to increased cell-to-cell interference and reduced margins for charge storage. Therefore, newer #technologies may have shorter specified data retention periods compared to older, more robust #SLC (Single-Level-Cell) or #MLC (Mul ti-Level-Cell) #NAND products. Two key factors affect data retention, the period over which #flashmemory can store #data without loss or corruption, in #NANDflash cells: program/erase (P/E) cycling and operating temperature. A very big thank you to Anil Burra from Intelligent Memory for this insightful article via Electronic Specifier Ltd with more background and insights via the link below 💡🙏👇 - A very good read to an important TOPIC 🤩 https://lnkd.in/eqdH7-N2 #semiconductorindustry #semiconductormanufacturing #innovation #it #ai #ssd #datastorage #automotiveindustry #embeddedsystems #ic #computer #computing #iot #memory #chip #chips #technology #tech
491 Comment -
Sanjay Adhikari
This is exactly what I often advise students for learning Embedded systems. If their focus is to grow with Embedded software and AI, leverage low cost hardware platforms. There is no harm in learning PCB design to understand schematic and basic components. It will not take much time. Actual time is required to understand programming languages, Microcontroller architecture, protocols , RTOS, Linux and ML. Thanks for sharing your experience Seema Joshi . #embedded #embedkari #opentowork
61 Comment -
Vladislav Kaplan
Today, we're excited to showcase Demo21, highlighting the Measurement Utility's capability to handle non-standard features. While advanced lithography processes demand ultra-precise measurements for small line/space contacts and pillars, many emerging technologies require comprehensive characterization of diverse features. The Measurement Utility stands out due to its unique approach to defining the Region of Measurement (ROM), offering a significant advantage over OEM systems. Unlike OEM systems that default to square ROMs and rely on algorithms to set boundary conditions—a non-trivial task when dealing with complex shapes—our ROM can flexibly define basic shapes with the added capability of specifying size, angle, rotation, and area. This small but powerful improvement in the GUI renders OEM measurement approaches obsolete. In the attached video, we demonstrate measuring high variation forks for the P806 NOR process, showcasing stable definitions for fork openings and other POR measurements. Feel free to comment and share your thoughts! #gazadelendaest #deeplearning #resolution #beam #EHAR #DeepStructures #metrology #Fab #problemsolving #LVTailoring #innovation #measurement #SecondaryElectronDetection #BackScatteredElectronDetection #CriticalDimentionMetrology #noisereduction #artificialneuralnetworks #CAD2SEM #Die2DB #EPE #PSD #precision #accuracy #lithography #tmu #NoiselessPSD #TargetDesign #ai #BlindDenoising #DeepStructures #neuralnetworks #weave #MassMeas #defects #beam #SecondaryElectronDetection #Overlay #EPE #labview #python #noisereduction #appliedmaterials #hitachi #kla
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Kumar Priyadarshi
10 basic semiconductor industry terms You should know about: 🚀 Semiconductor: Analogy: Imagine a dimmer switch for a light bulb. Unlike a regular switch that is either on or off, a dimmer can be set at various levels. A semiconductor is like the dimmer switch for electricity; it can conduct electricity at different levels, unlike a regular conductor (like copper wire) that always conducts. 🚀 Transistor: Analogy: Think of a transistor like a water faucet. Just as a faucet controls the flow of water, a transistor controls the flow of electric current. It can turn the flow on, off, or regulate it to different levels. 🚀 Microchip: Analogy: A microchip is like a miniaturized city. It has buildings (transistors), roads (connections), and people (electrons) moving around. Just like a city, it’s designed to perform complex tasks efficiently. 🚀 Integrated Circuit (IC): Analogy: Consider an integrated circuit like a complex recipe that combines many ingredients (transistors, resistors, capacitors) to create a delicious dish (a functioning electronic device). Everything is mixed together in just the right amounts to get the desired result. 🚀 Wafer: Analogy: A wafer is like a pizza base. Just as you can make multiple slices of pizza from one base, multiple microchips can be made from a single semiconductor wafer. 🚀 Silicon: Analogy: Silicon is like the flour in baking. Just as flour is the main ingredient in many baked goods, silicon is the primary material used to make most semiconductors. 🚀 Doping: Analogy: Doping is like adding spices to a dish. Just as spices can change the flavor of a dish, adding small amounts of other elements to silicon can change its electrical properties, making it more or less conductive. 🚀 Clean Room: Analogy: A clean room is like a surgery room in a hospital. It’s an extremely clean environment where semiconductors are made to ensure that no dust or other contaminants interfere with the manufacturing process. 🚀 Moore's Law: Analogy: Moore’s Law is like a trend in fashion. Just as fashion trends change every few years, Moore’s Law suggests that the number of transistors on a chip doubles approximately every two years, leading to more powerful and efficient electronics. 🚀 FAB (Fabrication Plant): Analogy: A FAB is like a bakery. Just as a bakery bakes cakes, a FAB manufactures semiconductor devices. It’s where raw materials are turned into finished products through various processes. A detailed post is in comments. For all semiconductor and AI related content, follow TechoVedas
71534 Comments -
Sailesh Kumar
#AI and high performance computing demands have revolutionized the silicon, leading to a race to create the most massive and fastest designs achievable. At Baya Systems, we are witnessing the emergence of multi PB/s bi-section bandwidth within package, surpassing wire bandwidth growth physics. Outdated legacy communication solutions result in excessive power and area (x++% power, area for x% perf gain). This is unsustainable and calls for a transformation in on- and inter-chiplet communication and optimization strategies. In the race of high performance computing and AI silicon development, prioritizing #chiplet and on-chip communication for multi PB/s bandwidth is not only critical to win but just to stay in the game. Check out the link for more insights: [https://lnkd.in/g6cGtrH9]
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Theodore Aggelopoulos, MBA
TSMC to Increase Spending in 2025 Driven by Strong 2nm Demand TSMC, the world's leading chipmaker, is expected to significantly increase its capital expenditure in 2025 due to booming demand for its next-generation 2-nanometer (2nm) technology. This follows TSMC's previously announced spending plan for 2024, which is already substantial. Industry sources predict a spending range of $32 billion to $36 billion for 2025, representing a 12.5% to 14.3% growth and the second-highest in the company's history. This surge is attributed to unexpectedly high demand for the 2nm chips, particularly from companies developing artificial intelligence (AI) products. TSMC Expanding 2nm Chip Production in Taiwan The increased spending suggests TSMC plans to expand its 2nm chip production capacity across Taiwan. This includes adding new production lines at existing facilities and potentially utilizing a new site in the Nan-Ke region. These efforts aim to supplement the 2nm capacity already planned at other locations. The report also suggests that despite the higher spending, TSMC's strong cash flow from its leading-edge 3nm and 5nm technologies should ensure its dividend payouts remain unaffected. Non-Apple Customers Driving 2nm Demand While Apple, a major TSMC client focused on low-power smartphones, typically gets first access to the company's newest chips, the unexpected 2nm demand surge is driven by non-Apple customers. These customers are likely companies designing AI products, a field requiring high-performance chips (HPC) that can handle demanding workloads. Unlike low-power smartphone chips, HPC chips prioritize performance over power efficiency, leading to a slower adoption cycle for new technologies. #tsmc #techgiants #chips #chipmaker #semiconductor #semiconductors #semiconductorindustry #semiconductormanufacturing #innovation #technology #technologynews
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Theodore Aggelopoulos, MBA
Micron has made a significant breakthrough in NAND technology. The company has become the first to initiate mass production of its 9th-generation TLC NAND chips. This cutting-edge technology boasts impressive speed and efficiency, outperforming competitors in terms of data transfer rates, write bandwidth, and read bandwidth. Micron has also launched the Micron 2650 NVMe SSD, which leverages this new NAND to deliver exceptional performance for everyday computing tasks. The Micron 2650 NVMe SSD stands out as a top-tier option in the market. With its groundbreaking speed and reliability, it offers a substantial performance boost compared to rival products. The SSD's integration of Micron's advanced NAND technology positions it as a strong contender in the competitive SSD landscape. Micron's achievement marks a pivotal moment in the NAND industry. By being the first to market with the 9th-generation TLC NAND, Micron has solidified its leadership position. While other companies are expected to follow suit, Micron currently holds a significant advantage. This technological leap is set to drive innovation and enhance performance across various applications, from consumer electronics to data centers. #Micron #chips #memorychips #NAND #SSD #technology #innovation #tech #hardware #semiconductors #storage #datastorage #AI #dataintensive #performance #speed #leadership #industryfirst #technews #semiconductors #semiconductorindustry
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Yuriy Shlepnev
Need broadband PCB dielectric and conductor roughness models? The availability of such models is the cornerstone for PCB interconnect predictability. Ever wondered where do they come from? The models with 40-50 GHz bandwidth for 25 Gbps interconnects, as discussed in this DesignCon 2011 paper. Back in 2011, such models were not available. Fast forward to the present, and it's surprising to find that PCB manufacturers still don't offer such models. So, if you need a reliable analysis-to-measurement correlation, to have confidence in PCB interconnects compliance validation, then a material model identification should be the highest priority in your design process. The use of GMS-parameters in Simbeor software stands out as the most straightforward and precise method for this task, as shown in the paper (see also https://lnkd.in/gWCQTREz). Remember, the design of your test fixture is pivotal - the choice of connector and launch design can make all the difference. I have not seen such pristine launch designed and manufactured since that project. The paper also sheds light on how GMS-parameters depend on possible manufacturing variations. As we look at the current landscape, the need for broadband dielectric and conductor roughness models remains as critical as ever, especially for designs operating at high data rates with minimal insertion loss margins. #simbeor #electromagnetics #signal_integrity #DesignCon #SignalIntegrity #PCBDesign #ElectromagneticAnalysis
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Mukesh Kishore Sahay
#Liberal #Scientific #Technologies to Revolutionize #India’s #Semiconductor #Industry 🇮🇳 By— #Mediawire | Jul 30, 2024 #Singapore-based Liberal Scientific Technologies is poised to make a major impact in the Indian market with its advanced #power #semiconductor technologies. By introducing Silicon Carbide (#SiC) and Gallium Nitride (#GaN) production capabilities, the company seeks to bolster India’s position as a semiconductor leader. This development promises to enhance India's self-sufficiency in power electronics, critical components for telecommunications, and high-performance computing technology. SiC and GaN semiconductors, known for their reliability in extreme conditions, will support advancements in electric vehicle fast-charging, space industry applications, and next-generation telecommunications like 6G and IoT. Additionally, these technologies will improve computing efficiency with faster, smaller CPUs, and enable solar panels to achieve over 50% efficiency while remaining durable in varying temperatures. Liberal Scientific Technologies is also advancing spintronics-based devices, paving the way towards quantum computing. Advancements in semiconductor technology have pushed #silicon (#Si) to its theoretical limits. Current Si-based power devices struggle to meet the demands of modern applications, which require higher blocking voltages, switching frequencies, efficiency, and reliability. To address these challenges, new semiconductor materials like SiC and GaN, with their superior electrical properties, are emerging as the preferred alternatives for high-power applications. #LiberalScientific #Technologies #SiliconCarbide #GalliumNitride #SiC #AluminumNitride (#AlN), #GaN #AlGaN #solidsolutions #Details: ⤵️ https://lnkd.in/gJt8Hktm
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Tushar Chhabra
#Exciting news! Discover how our #senseEDGE platform delivers unwavering #reliability in any scenario. Say goodbye to traditional perception struggles and hello to confident #decision-making using the #nextgeneration of #DL #perception. Join us in shaping the future of perception technology! #RobustPerception #senseEDGE #ReliableTechnology
161 Comment -
Theodore Aggelopoulos, MBA
Samsung's 3nm GAA chip manufacturing process was supposed to compete with TSMC's technology. However, there have been rumors of low yield rates, which could explain the delay of the Exynos 2500 processor and its absence from the Galaxy S25 series. On the other hand, Samsung has also successfully mass produced the Exynos W1000 wearable chip on the 3nm GAA node, and the company assures stable yields and performance. Despite Samsung's claims, there is some evidence suggesting otherwise. Major smartphone chip designers like Qualcomm and MediaTek are reportedly using TSMC's 3nm process for their upcoming chips. The only confirmed customer for Samsung's 3nm GAA so far is AMD, but details are unclear. The successful production of the Exynos W1000 offers some hope. Its significant performance improvement compared to its predecessor suggests that the Exynos 2500, if it arrives on time, could also be impressive. However, the lack of major customers for Samsung's 3nm GAA process raises doubts about its competitiveness. #samsung #techgiants #chips #chipsets #exynos2500 #exynosw1000 #technology #innovation #chipmanufacturing #semiconductor #semiconductors #semiconductormanufacturing #semiconductorindustry #technologynews
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Moshe Zalcberg
Wrapping up #DAC61, I am curious about the decision to rebrand the event as "DAC, The Chips to Systems Conference," instead of the traditional "Design Automation Conference." This is not just a simple change of words — consider the keynote speakers. Last year, they were all #EDA luminaries: Mike Ellow (recently appointed CEO of Siemens EDA), Lip-Bu Tan (former Cadence CEO), Alberto Sangiovanni-Vincentelli (founder of both Cadence and Synopsys) and Walden C. ( Wally ) Rhines - long time CEO of Mentor Graphics. In contrast, this year, the keynote speakers were Jim Keller (Tenstorrent), Gary Patton (Intel) and Alan Lee (ADI) - all "Chip to Systems" executives. Is this a coincidence? Does it reflect EDA companies taking a lesser role at DAC? Siemens EDA (Siemens Digital Industries Software) was a notable exception as a Diamond sponsor, investing in a sizable booth and team, and hosting guests for a Giants' game at Oracle Park. (The famous Denali party is long gone...) Or is it because part of Design Automation is increasingly being done within "Chips to Systems" companies? Just look at Jim Keller discussing the importance of #opensource and Alan Lee explaining that "Product Design is Complex." What do you think? #Designautomation #chipdesign
552 Comments -
Marco Mezger
Global #Smartphone Market Grew 6% YoY in Q2 2024; Highest YoY Growth in Last 3 Years 💡 Global smartphone sell-through volumes grew 6% YoY in Q2 2024 to record the highest YoY growth in last three years, according to preliminary numbers from Counterpoint Research’s Smartphone 360 Monthly Tracker. Also, this was the third consecutive quarter of market growth, driven by improving consumer sentiment and macroeconomic factors. The #Europe and #LatinAmerica (LATAM) markets grew the fastest in Q2 2024, both recording high double-digit YoY growth numbers, as consumer sentiment and purchasing activity continued to improve compared to 2023 levels. In #China, Huawei’s comeback and an early start to the 618 shopping festival ensured the continuation of gradual recovery. Emerging markets, especially in LATAM and #Asia, performed better than mature markets. Thanks again to Team Counterpoint Research for the full article with more background and insights via the link below 💡🙏👇 https://lnkd.in/eXmsJh2J #semiconductorindustry #semiconductors #semiconductor #technology #tech #it #informationtechnology #chip #chips #mobile #smartphones #samsung #oppo #vivo #xiaomi #huawei #apple
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方严
#ADL5906ACPZN-R7 10 MHz TO 10 GHz 67 dB TruPwr Detector The ADL5906 is a true rms responding power detector that has a 67 dB measurement range when driven with a single-ended 50 Ω source. The easy to use input makes the ADL5906 frequency versatile by eliminating the need for a balun or any other form of external input tuning for operation up to 10 GHz. The ADL5906 provides a solution in a variety of high frequency systems requiring an accurate rms measurement of signal power. The ADL5906 can operate from 10 MHz to 10 GHz and can accept inputs from −65 dBm to +8 dBm with varying crest factors and bandwidths, such as GSM-EDGE, CDMA, W-CDMA, TD-SCDMA, WiMAX, and OFDM-based LTE carriers. In addition, its temperature stability over the broad temperature range of −55°C to +125°C makes it ideally suited for a wide array of communications, military, industrial, and instrumentation applications. Used as a power measurement device, VRMS is connected to VSET. The output is then proportional to the logarithm of the rms value of the input. In other words, the reading is presented directly in decibels and is scaled 1.1 V per decade, or 55 mV/dB; other slopes are easily arranged. In controller mode, the voltage applied to VSET determines the power level required at the input to null the deviation from the setpoint. The output buffer can provide high load currents. Requiring only a single supply of 5 V and a few capacitors, it is easy to use and capable of being driven single-ended or with a balun for differential input drive. The ADL5906 has a low 250 μA sleep current when powered down by a logic high applied to the PWDN pin. It powers up within approximately 1.4 μs to its nominal operating current of 68 mA at 25°C. FEATURES ► Accurate rms-to-dc conversion from 10 MHz to 10 GHz ► Single-ended ±1.0 dB dynamic range: 67 dB at 2.14 GHz ► No balun or external input matching required ► Response independent of waveform types, such as GSM-EDGE/ CDMA/W-CDMA/TD-SCDMA/WiMAX/LTE ► Logarithmic slope: 55 mV/dB ► Temperature stability: <±1 dB from −40°C to +125°C ► Operating temperature: −55°C to +125°C ► Supply voltage: 4.75 V to 5.25 V ► Sleep current: 250 μA ► Pin compatible with ADL5902 and AD8363 APPLICATIONS ► Power amplifier linearization/control loops ► Transmitter signal strength indication (TSSI) ► RF instrumentation
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Nick Florous, PhD
After a 20-month hiatus, Kioxia has resumed full manufacturing operations, signaling a positive shift in market conditions. According to Nikkei, this move by the fourth-largest producer of 3D NAND in the world could lead to enhanced competition and potentially impact flash memory pricing. The corporation has secured ¥210 billion ($1.332 billion) in fresh credit and ¥540 billion ($3.424 billion) in refinancing from its lenders to support its operations. The study reveals that Kioxia ramped up production at its NAND flash memory plants in Yokkaichi and Kitakami to full capacity in June. Initially facing lower demand for its 3D NAND memory used in smartphones, Kioxia began reducing output in October 2022, surpassing 30% cutbacks at one point. For more details on Kioxia's strategic manufacturing decisions and their potential implications on the market, check out the full article: [Link to the article] #Kioxia #Manufacturing #MarketConditions #FlashMemory #NAND #TechIndustry
51 Comment -
Anuj Sharma
CHIP WEB TECHNOLOGIES INDIA is Ranked Top Companies in Electronics And Semiconductor Industry By Verified Market Reports Electronics And Semiconductor Industry Analysis - 2030 The Electronics and Semiconductor market has witnessed robust growth, driven by advancements in technology and increased demand for smart devices. According to Grand View Research, the global semiconductor market was valued at $481.8 billion in 2022 and is projected to reach $726.7 billion by 2027, with a CAGR of 7.4% from 2022 to 2027. The Asia-Pacific region dominates the market, accounting for approximately 60% of global semiconductor sales, fueled by China's significant manufacturing capabilities. Key trends include the adoption of AI and IoT, the push toward 5G networks, and increased focus on energy-efficient semiconductors for sustainability. Top Companies in Electronics And Semiconductor Industry • Chip Web Technologies • PVA • Digital Dynamics, Inc. • TechInsights • ManGO Associates • Forge Nano, Inc. • Axiom Electronics • Rochester Electronics Brazil • ECI Technology, Inc, a KLA Company • MIMOS Berhad • LeadSoc Technologies Pvt Ltd • SEMI Americas • i3 Assembly • Segue Manufacturing Services • ElectroMech, Cable & Harness, PCBA USA, Mexico & China Solutions • Mission Microwave • SiliconCore Technology • Eyelit Technologies • Ambient Scientific • Silex Technology • BEMA Electronics Inc. • Teledyne LeCroy Protocol Solutions Group (PSG) • BTU International • ITW EAE • Pacific International Executive Search • Rochester Electronics Mexico • Golden Electronics • Pentamaster Corporation Berhad (Official) • MASS Precision, Inc. • Canaan. • AuthenTec • SEH America • OptimalPlus is now NI • HEIDENHAIN North America • Gestamp • Epoxy Technology #Electronics #Semiconductor #innovation #management #digitalmarketing #technology #creativity #futurism #startups #marketing #entrepreneurship #money #sustainability #inspiration See Original Post : https://lnkd.in/gMPQdBkZ Visit Our Website: https://lnkd.in/d2gTUfu
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