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Suilend Expands to Sui Network – Crypto Times

Suilend, a blockchain protocol for lending with over $200 million of total value locked (TVL) has entered the Sui Network. This step is the first time when Suilend is making the first step outside the Solana ecosystem.

Sui Network is a platform that employs blockchain technology to have its total value lock (TVL) of above $500 million recently. Sui getting Suilend is viewed as a major stride to advance the DeFi space on Sui since it imports Suilends competence and experience of constructing stablecoin protocols into the Sui ecosystem.

Suilends introduction to Sui community is a great move as Sui gives secured operation. The Sui platform language comes out of the box with a built-in security for smart contracts, and Zellic, Ottersec, and other security firms audit the projects like Suilend.

Sui also has the fast transaction ability that enables the system to handle a large number of transactions within a few seconds to seconds. However,it also offers the least latency in the industry, and its scale is capable of handling up to 297,000 transactions per second due to its horizontal scaling.

We are delighted to welcome a protocol with the background of performance and success of Suilend to the Sui ecosystem, said Greg Siourounis, Managing Director of the Sui Foundation. Suis blistering transaction speeds, infinite scalability and pervasive efficiency are tailor-made for DeFi projects like Suilend, and we look forward to watching their continued growth and success on Sui.

The coming launch is anticipated to reinforce Suis authority in the DeFi ecosystem with a continuous and increased activity.

Also Read: DeFi Ecosystem Rebounds, TVL Soars Past $100 Billion

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Select These Powerful Platforms for Developing Smart Contracts and Decentralised Applications – Open Source For You

Smart contracts and decentralised applications are helping revamp finance and supply chains, as well as improve healthcare services. Lets dive into the cutting-edge programming platforms that help them do this.

Blockchain technology has revolutionised the conduct of transactions by establishing a decentralised and secure framework. Blockchain serves as the underlying technology for decentralised systems, offering transparency, immutability, and security. Initially known for its association with cryptocurrencies like Bitcoin, blockchain technology has evolved to find applications across diverse industries. The distributed ledger system ensures all network participants access the same information, eliminating intermediaries and reducing fraud risks.

At its core, blockchain is a decentralised and distributed ledger that ensures secure and transparent record-keeping. Its primary use case was cryptocurrencies, notably Bitcoin, providing a transparent and tamper-proof method of conducting financial transactions. Beyond finance, blockchain has found applications in supply chain management, where its decentralised nature enhances traceability and reduces fraud. In healthcare, it facilitates secure and interoperable sharing of patient data, improving the efficiency of healthcare systems. Blockchains potential extends to voting systems, intellectual property protection, and more, showcasing its versatility in fostering trust, transparency, and efficiency in diverse sectors.

A significant innovation in blockchain technology is the creation of self-executing agreements referred to as smart contracts, which are directly encoded into the system.

Smart contracts are self-executing programs with predefined rules and conditions, deployed on a blockchain. These contracts automate and enforce the terms of agreements, cutting out the need for intermediaries and reducing the risk of errors or fraud. Decentralised applications, or dApps, are software applications that operate on a decentralised network of computers. Smart contracts are integral to the functionality of many dApps, providing a trustless and efficient way to execute code securely.

Decentralised applications leverage the decentralised nature of blockchain to provide users with transparent, secure, and censorship-resistant experiences. These applications operate on a peer-to-peer network, ensuring that data remains tamper-proof and resilient to single points of failure. As the adoption of smart contracts and dApps continues to grow, their transformative impact on traditional business models becomes increasingly evident, ushering in a new era of decentralised and trustless interactions.

The development of smart contracts and dApps relies heavily on sophisticated programming platforms. These platforms serve as the foundation for crafting secure, efficient, and decentralised solutions.

As the blockchain ecosystem expands, a diverse array of programming platforms has surfaced, each contributing to the evolution of smart contract and dApp development methodologies.

URL: ethereum.org

Ethereum is a pioneer in smart contract platforms and remains a dominant force in the space. Developers can use the Ethereum Virtual Machine (EVM) to deploy smart contracts written in languages like Solidity. Born out of the vision of Vitalik Buterin, Ethereum has introduced a versatile blockchain that extends beyond the limitations of Bitcoin, allowing developers to create complex dApps and execute smart contracts. Ethereums blockchain serves as a decentralised and secure global computer, enabling a myriad of use cases across various industries. One notable application lies in the financial sector, where it facilitates the creation of decentralised finance (DeFi) platforms, offering services such as lending, borrowing, and decentralised exchanges. Additionally, it finds applications in supply chain management, healthcare, and identity verification, bringing transparency, security, and efficiency to traditional processes. Its open source nature has fostered a vibrant community of developers continuously innovating and expanding the platforms capabilities, making Ethereum a cornerstone in the evolution of blockchain technology.

URL: binance.org

Binance Smart Chain (BSC) is a blockchain network compatible with the Ethereum Virtual Machine. It offers fast and low-cost transactions, making it an attractive option for developers. The platform supports various programming languages, providing flexibility in smart contract development. Offering a range of use cases, it is particularly renowned for the Binance Smart Chain (BSC), which facilitates the development of decentralised applications and the execution of smart contracts. BSC has gained widespread adoption due to its compatibility with the Ethereum Virtual Machine (EVM), enabling developers to seamlessly migrate and deploy existing Ethereum-based projects on Binance Smart Chain. Moreover, Binance blockchain has carved a niche in the realm of decentralised finance (DeFi), providing a secure and efficient environment for various financial services, including token swaps, lending, and yield farming. Its low transaction fees and high throughput contribute to an ecosystem that appeals to developers and users alike, fostering innovation and accessibility within the blockchain space.

URL: polkadot.network

Polkadot is a multi-chain network that facilitates interoperability between blockchains. Developers can create custom blockchains, including those tailored for smart contracts, using the Substrate framework. Its unique design allows different blockchains to communicate and share information securely. Founded by Dr Gavin Wood, one of the co-founders of Ethereum, Polkadot introduces a unique multi-chain architecture that facilitates interoperability between multiple blockchains. Unlike traditional blockchains, it supports the seamless transfer of data and assets across various chains, fostering a more interconnected and scalable ecosystem. This interoperability feature has broad implications, enhancing communication and collaboration between different blockchain networks. Polkadots relay chain and parachain structure enable greater flexibility in designing customised blockchains, each tailored to specific use cases. Use cases for Polkadot span a wide range of industries, including finance, supply chain, healthcare, and more. By addressing the challenges of scalability, interoperability, and customisation, Polkadot is playing a pivotal role in advancing the capabilities of decentralised applications and the broader blockchain ecosystem.

URL: cardano.org

Cardano is a blockchain platform that aims to provide a more secure and scalable infrastructure for the development of smart contracts and decentralised applications. It uses the Haskell programming language for smart contract development. Launched with a research-driven methodology, Cardano distinguishes itself by incorporating academic peer-reviewed research into its development process. The platform operates on a layered architecture, separating the settlement and computation layers, aiming to enhance scalability and flexibility. Cardanos native cryptocurrency, ADA, facilitates secure and transparent transactions within its ecosystem. With a focus on sustainability, interoperability, and regulatory compliance, Cardano seeks to address challenges prevalent in the blockchain space. The use cases for Cardano span a variety of sectors, including finance, identity verification, supply chain management, and governmental services. Its commitment to academic rigour and a comprehensive development strategy positions Cardano as a promising player in the blockchain realm.

URL: neo.org

NEO is a blockchain platform that supports smart contracts. Developers can use languages like C#, Java, and Python for creating smart contracts on the NEO platform. Founded with the vision of establishing a more scalable and user-friendly blockchain ecosystem, NEO supports multiple programming languages, including C#, Java, and Python, making it accessible to a broad range of developers. One of NEOs key strengths lies in its ability to facilitate the creation of decentralised applications (dApps) and smart contracts in a highly efficient and secure manner. NEOs use cases extend across various industries, from finance to supply chain management, where its advanced features, such as a Byzantine fault-tolerant consensus mechanism and a unique delegated Byzantine Fault Tolerance (dBFT) consensus algorithm, contribute to the platforms reliability and robustness.

URL: avalabs.org

Avalanche supports the creation of interoperable and highly scalable applications. Recognised for its unique consensus protocol called Avalanche Consensus, the platform distinguishes itself by providing high-throughput, near-instant transaction finality, and robust security. Avalanche stands out as a leader in the blockchain space due to its ability to support custom blockchain networks and facilitate the creation of decentralised applications (dApps). The platforms flexibility, scalability, and interoperability contribute to its growing popularity among developers and enterprises.

URL: tezos.com

Tezos is a self-amending blockchain platform that supports smart contracts and decentralised applications. It utilises the Michelson programming language for smart contract development.

URL: algorand.com

Algorand is a blockchain platform that focuses on high-performance and decentralised applications. It uses a unique consensus algorithm called Algorand Consensus.

URL: tron.network

Tron is a blockchain platform known for its emphasis on content and entertainment applications. It supports the creation of decentralised applications and smart contracts.

URL: eos.io

EOS is a blockchain platform that aims to provide a user-friendly environment for building decentralised applications. It uses a delegated proof-of-stake consensus mechanism.

Exploring these platforms allows developers to choose the one that best aligns with their project requirements, programming preferences, and scalability needs. The blockchain landscape continues to evolve, and each platform contributes to the diversity and innovation within the decentralised application development space.

The scope for research and development in smart contract programming is vast. New platforms are emerging, each with its unique features and advantages. Researchers can explore areas such as scalability, privacy, and sustainability within smart contract platforms. Interoperability between different blockchain networks is another exciting avenue for development. By contributing to the open source community, developers can shape the future of decentralised applications and smart contract programming.

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zkLink Nova Launches Mainnet, The First ZK Stack-based Aggregated Layer 3 Rollup Built on zkSync – InvestorsObserver

zkLink Nova Launches Mainnet, The First ZK Stack-based Aggregated Layer 3 Rollup Built on zkSync

2024-03-11 12:00:55 ET

Singapore, Singapore, March 12th, 2024, Chainwire

In an unprecedented leap forward for the blockchain industry, zkLink is proud to announce the public mainnet launch of zkLink Nova, the industrys first Aggregated Layer 3 zkEVM rollup network based on zkSyncs ZK Stack & zkLink Nova. zkLink Nova unifies liquidity and assets from Ethereum and Layer 2 rollups onto one interoperable platform, providing developers with a zkEVM-compatible decentralized application (dApp) deployment through the ZK Stack Hyperchain.

Being an Aggregated Layer 3 Rollup, zkLink Nova addresses the three major roadblocks that have restricted scaling across the Ethereum ecosystem liquidity fragmentation across Layer 2 blockchains, complexities associated with multi-chain dApp development, and poor user experience due to the isolation of assets and applications across chains.

The cornerstone of the zkLink Nova mainnet is its comprehensive integration with leading Layer 2s, including Arbitrum, Linea, Manta, Mantle, and zkSync. zkLink Nova acts as a connective layer between the Layer 2 Rollups, enhancing liquidity and asset transfers across the Ethereum ecosystem.

By leveraging the strengths of zkSyncs ZK Stack & Lineas ZK Proof-verification capabilities, Nova is stack agnostic and is able to connect to any ZK & OP Layer 2, said Vince Yang, CEO and co-founder of zkLink. This represents a major milestone for both zkLink and the wider Ethereum ecosystem as DApps will have access to broader liquidity and more users, potentially unlocking exciting new use cases for their existing L2 assets.

The integration of Layer 2s with zkLink Nova underscores a shared vision for a more unified and efficient blockchain ecosystem. zkLink Novas role in pioneering the Aggregated Layer 3 concept is the answer to the Layer 2s dire need for more interconnection among ecosystems. The general purpose architecture in zkLink Novas Aggregated Layer 3 enables developers to easily build, deploy and scale dApps using Solidity smart contracts, saving them time and resources.

Novas Aggregated Layer 3 environment removes bridges and gas fees from the equation, reducing security risksand improving user experience. By utilizing ZK Proofs in its architecture, every transaction on Nova undergoes verification before it is processed, giving the zkLink Nova mainnet Ethereum grade security.

The Nova Aggregated Layer 3 mainnet utilizes Linea as the primary rollup for ZK proof-verification through zkLinks Nexus settlement layer technology. Being secure, EVM-equivalent and cost effective, Nova leverages Lineas ZK-Rollup for faster multi-chain state synchronization and hard finality that settles on the Ethereum network, said Linea Product Lead, Declan Fox.

For DApp users, zkLink Nova removes complexity and simplifies asset transfers across Ethereum and Layer 2s while keeping transactions secure. DApp users can directly deposit their assets from Ethereum or any of the integrated Layer 2s into zkLink Novas unified platform to transact seamlessly or interact with its ecosystem of dApps, greatly enhancing the user experience for all.

The mainnet launch of zkLink Nova is the first of its kind in solving Ethereums liquidity fragmentation problem while simplifying multi-chain complexities. By uniting major Ethereum Layer 2s together, zkLink Nova is taking the lead towards advancing blockchain of value, realizing a unified and interoperable rollup ecosystem with greater capital efficiency for all users.

Dedicated to unifying liquidity and scaling the Ethereum ecosystem, zkLink is pioneering Aggregated Rollup solutions to bridge the ecosystem siloes within the blockchain space. By facilitating a more interconnected, efficient, and accessible digital asset environment, zkLink is driving forward the vision of a unified and decentralized blockchain ecosystem without boundaries.

zkLink Nova is the pioneering Aggregated Layer 3 Rollup zkEVM network that brings unprecedented liquidity and asset aggregation to Ethereum and its Layer 2 Rollups. Built with ZK Stack and zkLink Nexus, it leverages ZK Proofs to enhance scalability and security. Developers enjoy an open platform for deploying Solidity smart contracts and instantly tapping into integrated networks like Arbitrum and zkSync. Nova simplifies DeFi by presenting a unified ecosystem for users and DApps, promoting a seamless blockchain experience.

Links

Contact

Jake Morakis zklink@mgroupsc.com

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Engineering Career Symposium March 12 | University of Arkansas – University of Arkansas Newswire

American Society of Mechanical Engineers, Theta Tau, and the Institute of Electrical and Electronics Engineers

The inaugural Engineering Career Symposium will be held on Tuesday, March 12, from 5-7 pm in the Arkansas Union Ballroom. This event is hosted by American Society of Mechanical Engineers, Theta Tauand the Institute of Electrical and Electronics Engineers.

Students will have the opportunity to network with companies and attend short information sessions from selected employers about their companies, technologiesand industries. Occurring the night before the Spring Career Fair, attendance will give students the first opportunity to connect and build rapport with employers.

This event is supported by the Student Activities Fee as a funded event by the Associated Student Government and is free to all currently enrolled University of Arkansas, Fayetteville, students who pay the student activities fee. This event is held in a venue that meets ADA standards. For more information please email Christian Morton at ccmorton@uark.edu.

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Ashley Kaiser 17 : College of Engineering – UMass News and Media Relations

Dr. Ashley Kaiser 17 graduated with a BS degree in Chemical Engineering. While at UMass Amherst, she spent four years working with Professor Christos Dimitrakopoulos to develop carbon metamaterials and low-temperature graphene growth processes via plasma-enhanced chemical vapor deposition, with the goal of improving performance and ensuring compatibility with silicon-based electronics. Kaiser received her PhD degree in Materials Science and Engineering from the Massachusetts Institute of Technology (MIT) in 2021, where she was a 2018 NDSEG Fellow working in the Department of Aeronautics and Astronautics under Professor Brian Wardle. She received her MS degree in Materials Science and Engineering from MIT in 2019 during her NDSEG tenure. Kaisers graduate research supported aerospace materials development for NASAs multi-university Space Technology Research Institute for Ultra-Strong Composites by Computational Design (US-COMP), where she focused on nanomaterial processing, model-driven experimental design and validation, and process-structure-property characterization to design bulk nanostructured composite materials with enhanced performance and manufacturability. Following her PhD, Kaiser worked as a Senior Research Engineer at 3M in the Corporate Research Process Laboratory, Specialty Film and Polymer Processing Group. She currently works as a Senior Process Engineer at 6K Inc., a materials manufacturing start-up based in MA. Her work in the 6K NEXT R&D Division leverages 6Ks industrial microwave plasma technology to develop advanced materials and new products for several markets, including additive manufacturing, energy storage, aerospace, consumer electronics, and more. 6Ks plasma systems are positioned to replace todays traditional manufacturing with significantly lower cost and a much cleaner, more sustainable process.

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Imona Omole 04 : College of Engineering – UMass News and Media Relations

Imona Omole 04 is an experienced leader in energy development, with over 15 years in the field and roles at ConocoPhillips, Phillips 66, and currently at Verdant Energy LLC. In addition to his BS in Chemical Engineering from UMass Amherst, he has a PhD in Chemical and Biomolecular Engineering from Georgia Tech. His education is further enhanced by executive business programs at Chicago Booth and University of Texas Austin.

Omole specializes in renewable fuels, including biogas and renewable natural gas (RNG), syngas production, carbon mitigation, and hydrogen solutions. He has successfully led significant capital projects and managed diverse teams across the US on various innovative energy projects.

As an innovator, Omole has obtained 6 patents in energy and materials technology through his work with Phillips 66, ConocoPhillips, and Chevron. He has also developed numerous trade secrets in energy, contributing to over 20 publications. He serves as a nominated reviewer for the Department of Energys ARPA-E GREENWELLS program and has reviewed for other industry journals and projects.

His achievements include membership in the Tau Beta Pi and Golden Key honor societies, winning the first-place achievement award at Georgia Tech's Chemical and Biomolecular Engineering department symposium poster session, being a semifinalist for a company-wide Golden Shield Award, and receiving several departmental awards.

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Casey Fontana 19PhD : College of Engineering – UMass News and Media Relations

Casey Fontana 19PhD is currently the Technical Manager of Offshore Siting and Energy Assessment at Invenergy in Chicago, IL. She has been involved in offshore wind for 10 years, with experience in both academic research and industry project development. Fontana holds a BS in Civil Engineering from The College of New Jersey and a PhD in Structural Engineering from the University of Massachusetts Amherst.

Fontana performed the majority of her graduate research under the NSF IGERT fellowship and was able to collaborate with a number of different disciplines involved in offshore wind topics during this time. Her specific doctoral research with Sanjay Arwade and Don DeGroot was focused on multiline anchor systems for floating turbines, and she was able to perform some of this work under the guidance of Vryhof Anchors in Rotterdam, Netherlands. She still happily engages with UMass Amherst through her participation in the Offshore Wind Industry Advisory Board.

In her current role with Invenergy, she is responsible for turbine siting and layout design, wind resource assessment, and energy yield analysis, primarily for the Leading Light Wind and Even Keel Wind projects. She was thrilled to help Invenergy secure its first offshore wind offtake contract for the Leading Light Wind project in her home state of New Jersey. Her favorite offshore wind topics are super-sized turbine models and layout optimization, and she leverages her graduate school experience to conduct small research projects whenever possible. She also takes advantage of peer mentoring and looks to share career lessons learned with her younger colleagues.

She has been actively involved the American Clean Power Association, serving as conference chair for the Resource and Technology conference, and judge of the DOE collegiate wind competition at the annual CLEANPOWER conference.

Fontana met her other half, Philip, while studying at UMass Amherst, and traveled back to western Massachusetts to tie the knot with him last summer. In her spare time, Fontana and her husband enjoy cuddling with their English bulldog Freddie, watching horror movies, and taking advantage of all the live music Chicago has to offer.

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Ron Kraus 94 : College of Engineering – UMass News and Media Relations

Ron Kraus 94 graduated from UMass Amherst with a BS in mechanical engineering. He currently serves as the Chief Executive Officer of Syner-G BioPharma Group, a leading provider of integrated pharmaceutical sciences and regulatory services. Kraus has dedicated his 25+ year career to the life science industry and has a passion for building expert teams and businesses that provide unparalleled support in the development of life-saving therapies.

Prior to joining Syner-G, Kraus was the Chief Operating Officer at Cytel, the largest provider of statistical software and advanced analytics for clinical trial design and execution. During his tenure, the company grew 25% annually and successfully took on a Private Equity investment creating tremendous value for the shareholders while accelerating the companys ability to further advance their services.

Kraus spent the majority of his career at Parexel, a leading global clinical research organization. During his time at Parexel he held numerous commercial and executive leadership roles. While leading the Consulting business, his team successfully developed and launched Parexels regulatory outsourcing service which captured several new partnerships in the initial 18 months representing $50M USD in new revenue. In addition, his team successfully made several acquisitions allowing Parexel to further differentiate its global product development services. In his time in Parexels Clinical Research Services Business, he oversaw Phase I thru Phase IV research globally and led the transformation of the function from a regional-based service to a global function while enhancing operational and financial controls. These enhanced controls delivered improved profitability and customer satisfaction, and in 2019 Parexels Clinical Research unit was ranked #1 among global CROs for leadership in Phase II-III services.

While at UMass, Kraus completed a co-op at Pratt & Whitney in Middelton, CT, and was a member of the Tau Beta Pi engineering honor society.

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SAIC Powers Its ReadyOne Digital Engineering Ecosystem Solution with Aras – AiThority

Strategic Partnership Establishes Consistent Digital Thread Across Complex Projects, Improving Collaboration and Efficiency in the Defense Industry

Aras, a leader in product lifecycle management and digital thread solutions, announced a strategic partnership with leading technology integrator SAIC (Science Applications International Corp.) that includes integration of Aras Innovatoras the digital thread backbone for its digital engineering solution,ReadyOne.

Organizations in critical industries such as defense and intelligence need access to modern, powerful solutions to solve their information age problems. Expensive, cumbersome industrial age solutions should be left behind

ReadyOne is SAICs rapidly deployable digital engineering ecosystem, which offers customers an end-to-end digital thread for consistent, traceable, and complete engineering solutions. By using Aras product lifecycle management (PLM) technology as its foundation, the solution creates a single-source-of-truth for users, letting them access any and all needed information, at any point in the engineering process, all from a common platform. With ReadyOne, collaboration and transparency are increased, while risks and costs are decreased.

Recommended AI News: Rackspace Technology Achieves the AWS Generative AI Competency

Organizations in critical industries such as defense and intelligence need access to modern, powerful solutions to solve their information age problems. Expensive, cumbersome industrial age solutions should be left behind, said Roque Martin, CEO, Aras. The combination of our digital thread backbone with SAICs digital engineering know-how and years of experience make it easy for customers to meet even the most stringent requirements of the defense sector while still improving efficiency and cost.

ReadyOne creates a new level of responsiveness, impact, and quality for engineers and Aras Innovator is the PLM platform that provides the foundation. By bringing an organizations technical data, engineering tools, and management processes together into one common environment, collaboration increases without there being any worries that critical information is being lost along the way. The ReadyOne environment is independent of infrastructure, enabling it to support all types of customers, and either cloud-to-cloud or on-premise delivery.

Recommended AI News: Persistent Accelerates Digital Engineering with AI-Powered SASVA Platform

Data is the common thread connecting all of todays most important innovations, added Chris Finlay, Vice President of Innovation at SAIC. As organizations at all levels continue to grapple with digital transformation initiatives, the availability of real-time, accurate data throughout the engineering process will enable better informed decision making and result in faster, more effective results. Tools may come and go, but data is the key to success.

For more information on how Aras can help your organization establish a consistent digital thread throughout its product design and digital engineering initiatives allowing you to track a product and its digital assets all the way from concept through design, manufacturing, quality, and service.

Recommended AI News: Cognizant Unveils Advanced AI Lab to Accelerate AI Research and Innovation

[To share your insights with us as part of editorial or sponsored content, please write to sghosh@martechseries.com]

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S&T grows presence in St. Louis with graduate engineering programs – Phelps County Focus

Engineering and computing professionals in St. Louis will soon have local access to several Missouri University of Science and Technology masters degree programs, certificates and quick courses.

After thorough market analysis and discussions with our industry partners in St. Louis, its evident that introducing S&T's high-quality engineering and computing programs is key to filling critical gaps in specialized education and ensuring the region's workforce is well-prepared for future challenges and opportunities, said Missouri S&T Chancellor Mo Dehghani.

Missouri S&T has had a small presence in the St. Louis area, but Dr. Islam El-adaway, associate dean for academic partnerships for S&Ts College of Engineering and Computing and Hurst-McCarthy Professor of Construction Engineering and Management, says the offerings will now be more robust and specifically curated to meet the needs of the St. Louis region.

He says the goal is to launch some of the first courses this summer at the Missouri S&T Engineering Education Center, located at 12837 Flushing Meadows Dr. in St. Louis.

Engineering graduate courses and programs will be offered in civil, electrical, environmental, aerospace, mechanical, computer and systems engineering, as well as engineering management.

Students in our St. Louis center can expect to have the same high-quality instruction and experiences as they would receive in Rolla, he said. We are excited to partner with corporations that have multiple employees aspiring to advance in their education, and we also welcome individuals who have lifelong learning desires to reach out for more information. We are ready to help the areas professionals further develop in their careers and support their organizations.

El-adaway said the St. Louis programming will have over 150 courses available across eight masters degree programs, nine graduate certificates and 10 short courses.

I invite industry leaders to contact me and see how we can best serve them, he said. This arrangement will bring one of the top public engineering and computing universities directly to St. Louis.

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