Empowering Projects with Specialised Engineering Staffing Solutions

Finding the right engineering talent can be the difference between a project’s success and stagnation. As industries across Australia evolve, the demand for skilled, adaptable engineers continues to grow—across sectors such as infrastructure, energy, manufacturing, and technology.

Engineering staffing solutions offer a strategic approach to bridging talent gaps. Whether it's civil, mechanical, electrical, or software engineering, businesses need access to professionals who bring both technical expertise and project-readiness. Tailored staffing services enable companies to scale up or down based on project timelines, budgets, and specific skill requirements.

From permanent hires to contract placements and temp-to-perm arrangements, flexible staffing models ensure agility in workforce planning. More than just filling roles, the goal is to match candidates who align with both the technical demands and cultural dynamics of the team. This alignment boosts productivity, reduces turnover, and accelerates project delivery.

Partnering with experienced staffing providers also shortens the hiring cycle. With access to extensive talent pipelines and advanced screening processes, organisations can quickly onboard qualified engineers without compromising on quality.

As Australia continues to invest in infrastructure and innovation, reliable engineering staffing support becomes essential. It empowers businesses to stay competitive, meet project deadlines, and drive sustainable growth.

In a market where engineering talent is both specialised and scarce, strategic staffing is no longer optional—it’s a smart investment in project and business success.

🌊 Beneath the Surface of Acadiana — Meet D and D Divers ⚓ Commercial Diving Professionals Serving South Louisiana with Precision & Safety

When it comes to underwater construction, maintenance, and inspections, you need a crew that’s as skilled below water as they are above it. That’s where D and D Divers comes in — a locally owned and operated commercial diving company based right here in South Louisiana.

Whether you’re in the oil and gas industry, municipal services, or private sector, D and D Divers delivers top-tier underwater solutions with a strong commitment to safety, accuracy, and efficiency.

🛠️ Services include: ✔️ Underwater inspections & repairs ✔️ Pipeline & structure maintenance ✔️ Tank cleaning & confined space diving ✔️ Salvage & recovery ✔️ Emergency dive response

Their experienced dive team is OSHA-compliant, fully insured, and trained to handle high-risk underwater environments—keeping Acadiana’s infrastructure safe and operating smoothly.

✅ Why trust your next diving project to an out-of-state company when you have proven local talent right here at home?

🔗 Dive deeper and read the full spotlight here: 👉 https://acadianabusinessdirectory.com/d-and-d-divers/

Support small business. Support local expertise. Explore more South Louisiana gems on the Acadiana Business Directory — your go-to resource for connecting with the businesses that make our region thrive. 💼⚙️

Accelerate Infrastructure Development with Tailored Financial Solutions

Infrastructure builds the future—and we finance it. Whether it's roads, bridges, or urban projects, Terkar Capital supports your vision with smart, scalable finance solutions.  

Simplify IT Complexity With Simple Logic!

🔧 End-to-End Infrastructure Support Handle everything from servers to networks

📊Proactive Maintenance Prevent issues before they arise with constant monitoring

🔒Secure IT Environment Ensure compliance and robust protection for your infrastructure

🌟Let’s Manage IT for You!

📧 Email: [email protected] 📞 Phone: 086556 16540

💻 Explore insights on the latest in #technology on our Blog Page 👉 https://simplelogic-it.com/blogs/

🚀 Ready for your next career move? Check out our #careers page for exciting opportunities 👉 https://simplelogic-it.com/careers/

To learn more, click here 👉 https://simplelogic-it.com/

Transport Resilience Fund Boosts West Coast

  Investing in Road Resilience

The New Zealand government is committing more than $22 million to enhance the resilience of roads on the West Coast that have been vulnerable to recent extreme weather events, Prime Minister Chris Hipkins announced today. This substantial investment aims to safeguard the state highway network in the region from the disruptive impact of severe weather.   Transport Resilience Fund at Work The establishment of a dedicated Transport Resilience Fund paves the way for early preventative measures to protect the state highway network from future severe weather disruptions. This fund will be instrumental in fortifying critical road infrastructure across the West Coast.   Roads Receiving Funding The roads in the West Coast region that are set to benefit from the Transport Resilience Fund include: - SH6 Gates of Haast river erosion - SH6 Wanganui River Protection - SH6 Whataroa River Protection - SH73 Rock Shelter DSA and Strengthening - SH73 Otira River Bridge Abutment Protection - SH6 Buller Gorge Rock Scaling - SH6 Douglas Culvert No.2 Replacement - Cascade Corner - Cobden Hill West - Depot Creek - Ormon Falls - East of McGraths Corner - McGraths Corner - Whites Bridge West Approach - Rocky Point - SH73 Candys Bend Scouring - SH6 Meybille Bay Slip - SH6 Epitaph Slip - Remote Monitoring­­­­­­ Additionally, the Haast to Hawea section of SH6 has been identified as a high priority for improving the overall resilience of the state highway corridor, with planning work scheduled for the 2024-27 NLTP period.   Building Resilience Against the Elements State Highway 6, in particular, has been susceptible to closures resulting from slips, rockfalls, and flooding, while the West Coast remains prone to adverse weather events. "Many roads in the region have experienced repeated extreme weather events in recent years. We need to repair our state highways after these events and also build greater resilience so they're less affected in the future," stated Prime Minister Chris Hipkins.  

Supporting Tourism and Local Communities

Improving road resilience not only ensures safer transportation but also bolsters the tourism industry on the West Coast, a vital sector for the region and its residents. "Safer and more resilient roads will also help support tourism on the West Coast – a key industry for the region and for many locals," emphasized Prime Minister Hipkins.   Commitment to Resilience In this year's budget, the government established the $419 million Transport Resilience Fund to support investments that enhance regional recovery. Prime Minister Hipkins highlighted, "Investing in resilience creates savings down the road, as well as ensuring communities aren't cut off and isolated after extreme weather."   Expanding Resilience Initiatives Further emphasizing the commitment to regional resilience, Prime Minister Hipkins noted, "In this year's budget, we set aside $6 billion in funding to support the implementation of a National Resilience Plan. I can confirm that projects in the top of the south will be considered for funding as part of this ongoing work."   Unity in Resilience "No region can foot the bill for building transport resilience on their own. That's why the Government is coming to the table to support regions with a range of funds to help them recover," stated Prime Minister Hipkins. "We are absolutely committed to the region's recovery."  

Partnering for a Stronger West Coast

Associate Transport Minister Damien O'Connor underscored the importance of this investment, stating, "We are committed to supporting the region to rebuild and build back stronger from the challenges of recent times. We know severe weather events will be an ongoing challenge, and West Coast highways need to be resilient." "This funding will repair vulnerable points in the road network to help mitigate the risk of them failing in future storms or other natural hazards."   A Collective Effort In a time where resilience against extreme weather is paramount, the government's investment in road resilience demonstrates a collective commitment to ensuring safer, more reliable transportation and strengthening the West Coast's ability to withstand future challenges.   Sources: THX News & New Zealand Government. Read the full article

Infra Operations leaders are the ones who advance their organization's digital transformation journey by delivering the best leadership styles, and we are looking to work with such accomplished people!

Come forward and grab your opportunity as we are hiring!

Read the complete job description here- https://bizessence.com.au/jobs/infra-operations-lead/

Polygon (matic) vs Avalanche (avax)

Are you curious about the differences between Polygon (MATIC) and Avalanche (AVAX)? Well, you've come to the right place! In this article, we'll dive into the fascinating world of blockchain and explore how Polygon and Avalanche stand out from each other. Whether you're a developer looking to build decentralized applications or an investor exploring potential opportunities, understanding the distinctions between these two platforms is essential. So, let's embark on this journey together and uncover what sets Polygon and Avalanche apart! Polygon and Avalanche are both renowned blockchain networks that offer innovative solutions to tackle the scalability challenges faced by traditional blockchains. However, they take different approaches to achieve their goals. Polygon, formerly known as Matic Network, is designed as a layer 2 scaling solution for Ethereum. It leverages technologies like sidechains and plasma chains to offload computations and transactions from the Ethereum mainnet, resulting in improved scalability and reduced congestion. On the other hand, Avalanche is a decentralized platform that introduces a unique consensus protocol called Avalanche consensus. This protocol enables near-instant finality and high transaction throughput by utilizing a combination of the Avalanche, Slush, and Snow protocols. Here's a quick comparison chart highlighting the key differences between Polygon (MATIC) and Avalanche (AVAX): AspectPolygon (MATIC)Avalanche (AVAX)Consensus MechanismModified Ethereum PoS (PoS Chain)Avalanche Consensus ProtocolScalability SolutionsSidechains, Plasma ChainsSharding, Subnets, Atomic SwapsDeveloper EcosystemSupports Ethereum-compatible tools and infrastructureSupports Solidity, Avalanche-X ProgramUse CasesDeFi, NFTs, Gaming, Various dAppsDeFi, Supply Chain, Asset Tokenization, Custom Chains Differences between Avalanche and Polygon Overview of Polygon (MATIC) Polygon, formerly known as Matic Network, is a layer 2 scaling solution for Ethereum. It was designed to address the scalability limitations of the Ethereum network and provide a more efficient infrastructure for decentralized applications. Polygon achieves this by utilizing a combination of various technologies, including sidechains, plasma chains, and a proof-of-stake (PoS) consensus mechanism. Polygon's Consensus Mechanism Polygon employs a PoS consensus mechanism, specifically a modified version of the Ethereum PoS protocol called the PoS Chain. Validators on the Polygon network stake their MATIC tokens to secure the network and validate transactions. This consensus mechanism allows for faster block confirmations and significantly reduces transaction fees compared to the Ethereum mainnet. Scalability Solutions on Polygon Polygon offers several scaling solutions to enhance the throughput and performance of dApps. One of the key solutions is the use of sidechains. These are independent blockchains connected to the Ethereum mainnet through the Polygon Bridge. Sidechains enable developers to offload computation and transaction processing from the Ethereum mainnet, thereby reducing congestion and improving scalability. Additionally, Polygon utilizes plasma chains, which are also connected to the Ethereum mainnet. Plasma chains provide a high-speed data layer for executing smart contracts and processing transactions. This architecture allows for faster and more cost-effective transactions while benefiting from Ethereum's security. Developer Ecosystem on Polygon Polygon has built a vibrant developer ecosystem by providing a range of tools and infrastructure for building dApps. The platform supports popular programming languages such as Solidity, making it compatible with Ethereum's existing developer base. Developers can seamlessly deploy their Ethereum-based applications on Polygon by making a few adjustments to the code. Polygon also offers a variety of developer-friendly tools, including the Polygon SDK (Software Development Kit) and Polygon.js, which simplify the development process. Moreover, Polygon has established partnerships with numerous projects and protocols in the blockchain space, further expanding its ecosystem and fostering collaboration. Use Cases of Polygon Polygon is suitable for a wide range of use cases, including decentralized finance (DeFi), non-fungible tokens (NFTs), gaming, and various other dApps. Many projects have migrated or expanded their operations to Polygon due to its scalability and low transaction costs. Some notable applications built on Polygon include Aave, SushiSwap, and Decentraland. Overview of Avalanche (AVAX) Avalanche is a decentralized platform that aims to provide fast, secure, and highly scalable solutions for building decentralized applications. It differentiates itself by utilizing a unique consensus protocol called Avalanche consensus, which enables near-instant finality and high transaction throughput. Avalanche also supports the creation of custom blockchains, allowing developers to launch their own networks with specific rules and parameters. Avalanche Consensus Protocol Avalanche consensus is a novel consensus protocol that enables the network to reach consensus quickly and with a high level of security. It utilizes a combination of three sub-protocols: the Avalanche protocol, the Slush protocol, and the Snow protocol. The Avalanche protocol enables participants to agree on a single transaction order, achieving consensus in a decentralized manner. The Slush protocol provides a mechanism for validating transactions efficiently. Finally, the Snow protocol determines the transaction order within a block. Scalability Solutions on Avalanche Avalanche is designed to be highly scalable, capable of processing thousands of transactions per second (second) with low latency. The platform achieves this by using a sharding mechanism, where the network is divided into smaller subsets called subnets. Each subnet can process transactions independently, allowing for parallel processing and increased scalability. Moreover, Avalanche incorporates a feature called "atomic swaps," which enables the instantaneous exchange of assets across different blockchains within the Avalanche ecosystem. This feature enhances interoperability and facilitates seamless asset transfers between different applications. Developer Ecosystem on Avalanche Avalanche provides a robust developer ecosystem with a wide range of tools and resources to support the creation of decentralized applications. The platform supports the Solidity programming language, making it compatible with Ethereum's developer community. Developers can easily port their existing Ethereum smart contracts to Avalanche with minimal modifications. Avalanche also offers the Avalanche-X program, which provides grants, funding, and technical support to developers and projects building on the platform. This program aims to foster innovation and attract developers to build new applications and solutions on Avalanche. Use Cases of Avalanche Avalanche caters to various use cases, including decentralized finance (DeFi), supply chain management, asset tokenization, and more. Its high transaction throughput and near-instant finality make it well-suited for applications requiring fast and secure transactions. Additionally, Avalanche's customizable chain feature allows businesses and enterprises to create private or permissioned blockchains tailored to their specific requirements. Notable projects and platforms built on Avalanche include Pangolin (a decentralized exchange), BENQI (a lending and borrowing protocol), and TrueFi (a decentralized lending platform). These applications leverage Avalanche's capabilities to offer efficient and user-friendly experiences to their users. Comparing Polygon and Avalanche While both Polygon and Avalanche aim to address the scalability challenges of blockchain networks, they have distinct characteristics and approaches. Here are some key points of comparison between the two platforms: Consensus Mechanism - Polygon: Utilizes a modified version of the Ethereum PoS consensus mechanism known as the PoS Chain. Validators stake MATIC tokens to secure the network and validate transactions. - Avalanche: Implements the Avalanche consensus protocol, a unique consensus mechanism that combines the Avalanche, Slush, and Snow protocols. It achieves near-instant finality and high throughput by leveraging a decentralized voting process. Scalability Solutions - Polygon: Relies on sidechains and plasma chains to offload computation and transaction processing from the Ethereum mainnet. This approach reduces congestion and improves scalability. - Avalanche: Implements sharding and subnets, dividing the network into smaller subsets for parallel transaction processing. The platform also incorporates atomic swaps to enable instant asset exchange across different blockchains. Developer Ecosystem - Polygon: Offers a vibrant developer ecosystem with tools like the Polygon SDK and Polygon.js. Developers can easily deploy their Ethereum-based applications on Polygon and benefit from its scalability features. - Avalanche: Provides a robust developer ecosystem with support for the Solidity programming language. The Avalanche-X program offers grants and support to developers building on the platform, fostering innovation and growth. Use Cases - Polygon: Well-suited for various decentralized applications, including DeFi, NFTs, and gaming. Many projects have migrated to Polygon to leverage its scalability and lower transaction costs. - Avalanche: Caters to applications requiring fast and secure transactions, such as DeFi, supply chain management, and asset tokenization. Its customizable chain feature allows for tailored solutions for businesses and enterprises. Conclusion Polygon and Avalanche are both prominent blockchain platforms that aim to solve the scalability challenges faced by traditional blockchain networks. While Polygon focuses on providing scalability solutions for Ethereum through sidechains and plasma chains, Avalanche offers its unique consensus protocol and sharding mechanism for achieving high throughput and near-instant finality. The choice between Polygon and Avalanche ultimately depends on the specific requirements of the decentralized application being developed. Developers should consider factors such as the existing developer ecosystem, compatibility with programming languages, scalability needs, and the desired use cases when deciding which platform to build on. If you are already familiar with Ethereum and its developer tools, Polygon might be a natural choice. Its integration with Ethereum allows for easy migration of existing Ethereum-based applications and a seamless transition for developers. Additionally, Polygon's focus on DeFi and NFTs makes it a suitable choice for projects in those domains. On the other hand, if you prioritize high transaction throughput, near-instant finality, and the ability to create custom blockchains, Avalanche could be a strong contender. Its Avalanche consensus protocol and sharding mechanism offer scalability and fast transaction processing, making it suitable for applications that require quick and secure transactions. Avalanche's support for Solidity also facilitates the transition for Ethereum developers. It's worth noting that both platforms have active and growing developer communities. Polygon's partnerships and collaborations with various projects and protocols contribute to its ecosystem's vitality. Avalanche's Avalanche-X program provides resources and support for developers building on the platform, fostering innovation and encouraging the creation of new applications. In summary, while Polygon and Avalanche share the goal of scalability, they employ different approaches and offer unique features. Developers should carefully consider their specific needs, use cases, and familiarity with the respective platforms' tools and ecosystems when choosing between Polygon and Avalanche. Ultimately, both platforms present exciting opportunities for developers looking to build scalable and efficient decentralized applications. FAQs What is Polygon (MATIC) and Avalanche (AVAX)? Polygon, formerly known as Matic Network, is a layer 2 scaling solution for Ethereum. It aims to address Ethereum's scalability limitations by utilizing sidechains and plasma chains to offload computations and transactions from the Ethereum mainnet. Avalanche, on the other hand, is a decentralized platform that offers fast, secure, and scalable solutions for building decentralized applications. It introduces the Avalanche consensus protocol and sharding mechanism to achieve near-instant finality and high transaction throughput. How do the consensus mechanisms differ between Polygon and Avalanche? Polygon employs a modified version of the Ethereum proof-of-stake (PoS) consensus mechanism called the PoS Chain. Validators stake MATIC tokens to secure the network and validate transactions. Avalanche, on the other hand, utilizes the Avalanche consensus protocol, which combines the Avalanche, Slush, and Snow protocols. This unique consensus mechanism enables decentralized voting for achieving consensus quickly and securely. What are the scalability solutions offered by Polygon and Avalanche? Polygon leverages sidechains and plasma chains to enhance scalability. Sidechains are independent blockchains connected to the Ethereum mainnet through the Polygon Bridge, offloading computations and transactions from the mainnet. Plasma chains, also connected to Ethereum, provide a high-speed data layer for executing smart contracts. Avalanche achieves scalability through its sharding mechanism, dividing the network into smaller subsets called subnets. Each subnet can process transactions independently, allowing for parallel processing and increased scalability. How do the developer ecosystems differ between Polygon and Avalanche? Polygon offers a vibrant developer ecosystem with tools like the Polygon SDK and Polygon.js, supporting Ethereum-compatible development. Developers can easily migrate their Ethereum-based applications to Polygon with minimal modifications. Polygon has also established partnerships with various projects and protocols, expanding its ecosystem and fostering collaboration. Avalanche, on the other hand, supports the Solidity programming language widely used in the Ethereum community. This compatibility allows developers to port their existing Ethereum smart contracts to Avalanche. Additionally, Avalanche's Avalanche-X program provides grants, funding, and technical support to developers, encouraging innovation and growth on the platform. What are the main use cases for Polygon and Avalanche? Polygon is suitable for a wide range of decentralized applications, including decentralized finance (DeFi), non-fungible tokens (NFTs), gaming, and various other dApps. Many projects have migrated to Polygon to leverage its scalability and low transaction costs. Avalanche caters to applications requiring fast and secure transactions, such as DeFi, supply chain management, asset tokenization, and more. Its customizable chain feature also allows businesses and enterprises to create private or permissioned blockchains tailored to their specific needs. Read More: - Avalanche (AVAX) vs Ethereum (ETH) - Avalanche (AVAX) vs Solana (SOL) - Polygon vs Ethereum - Polygon vs Polkadot - Polygon vs Solana - Polygon vs Cardano Read the full article

Fwd: Job: Senckenberg.Bioinformatician

Begin forwarded message: > From: [email protected] > Subject: Job: Senckenberg.Bioinformatician > Date: 15 April 2022 at 07:02:57 BST > To: [email protected] > > > > For over 200 years the Senckenberg Gesellschaft für Naturforschung > represents one of the most relevant institutions investigating nature > and its diversity. Currently, scientists from more than 40 countries > conduct research in the fields of biodiversity, earth system analysis > and climate change in seven Senckenberg Institutes across Germany. > > Following its mission to analyse and document biodiversity in earth > system dynamics – to serve science and society, Senckenberg fosters > curiosity-driven and application-oriented research. In Senckenberg at > Frankfurt we seek to fill the position of a > > Bioinformatician (m/f/d) > > (full time) > > This position is funded by a five-year project designed to combine cutting > edge technology for studying both the anatomical and genomic basis for > evolutionary novelties in molluscs, and test whether genomic novelties > are more strongly associated with armour and shell morphology or rather > physiological adaptations that allow the invasion of new niche spaces. > > Your job would be to provide bioinformatics capacity especially in de > novo genome assemblies of mollusc species. > > Your tasks: > > Genome assembly and annotation of mollusc species that are sequenced via > the LOEWE TBG and external partners using state-of-the-art sequencing > technologies and compute infrastructureSupport other members of the > research group working on morphological features to identify specific > research questionsPerform independent research in collaboration with > other members of the research group, the LOEWE-TBG, Senckenberg Ocean > Species Alliance, and external collaborators on molluscan genomicsPerform > comparative analyses of resulting genomes including for phylogenomics > > Your profile: > > Master degree or equivalent training and experience in bioinformatics > / computational biology, genomics or a related area; a PhD degree > in these fields is an advantage but not strictly requiredExperience > with shell scripting and Unix toolsPrevious experience in genomics, > genome assembly and/or annotation using non-model organisms, preferably > molluscsFamiliarity with measures of genome assembly data quality and > completeness, troubleshooting, screening data for contaminationGenuine > curiosity and interest in nature, the oceans and their inhabitants, > and especially molluscs What can you expect? > > An interesting and challenging task in a dynamic and stimulating team > of researchers, technicians and communicatorsExcellent benefits and > work-life balance: Flexible working hours – dual career service - > leave of absence due to family reasons – parent-child-office – annual > special payment – company pension scheme – Senckenberg badge for > free entry in museums in Frankfurt – leave of 30 days/ year > > Senckenberg supports equal opportunity for men and women and places an > emphasis on fostering career opportunities for women and under-represented > groups. Qualified women and other under-represented groups are strongly > encouraged to apply. Equally qualified applicants with disabilities will > be given preference. > > Senckenberg is a globally connected institute. The working language within > this project is English. Frankfurt is a vibrant, international, culturally > diverse city and one of the world’s travel hubs. We welcome candidates > from all nations and will provide support with your relocation process. > > Location:  Frankfurt am Main > > Volume of employment: 100 % full-time position (40 weekly working hours) > > Type of contract: Employment shall start as soon as possible and will > be limited for a two-year contract > > Would you like to apply? > > Please submit two documents as email attachments: > > download and complete the information form for this position from > https://ift.tt/5f1tRhg. This form will be considered anonymously and > will be used for the initial short-listing processa single pdf including > a cover letter and your CV (not anonymous), including names and contact > details of three professional references. The one-page cover letter > should address your fit to the advertised position as described above. > Use the code created for the form for “blind review” also in the > cover letter and in the file namePlease submit two files (see above), > mentioning the reference of this job offer ( #01-22014) until 11 May > 2022 by e-mail to: [email protected]. > > For more information, please contact Prof. Dr Julia Sigwart > ([email protected]). > > Mit freundlichen Grüßen / Yours sincerely > > Isabel Gajcevic, M.A. > > Personalsachbearbeiterin > > SENCKENBERG > Gesellschaft für Naturforschung > > (Rechtsfähiger Verein gemäß § 22 BGB) > > Senckenberganlage 25 > > 60325 Frankfurt am Main > > Besucheradresse: Mertonstraße 17-21, 60325 Frankfurt am Main (1. OG) > > Telefon/Phone: 0049 (0)69 / 7542 - > > Leiterin Personal & Soziales > > - 1458 Loke, Uta > > Stellv. Leiterin Personal & Soziales > > - 1319 Elsen, Carina > > Team Personalbeschaffung (Recruiting) > > - 1478 Gajcevic, Isabel > > - 1564 di-Biase, Maria > > - 1204 Reitinger, Jasmin > > Fax: 0049 (0)69 / 7542-1445 > > Mail: > [email protected] > > Direktorium: Prof. Dr. Klement Tockner, Prof. Dr. Katrin Böhning-Gaese, > Dr. Martin Mittelbach, Prof. Dr. Andreas Mulch, Prof. Dr. Karsten Wesche; > > Präsidentin: Dr. h.c. Beate Heraeus; > > Aufsichtsbehörde: Magistrat der Stadt Frankfurt am Main (Ordnungsamt) > > Mitglied der Leibniz-Gemeinschaft > > Vernetzen Sie sich mit uns: > https://ift.tt/3txJbWj > > "[email protected]" > > > via IFTTT

UK invests $1B in AI

Key policies include:IdeasRaise total research and development (R&D) investment to 2.4% of GDP by 2027Increase the rate of R&D tax credit to 12%Invest £725 million in new Industrial Strategy Challenge Fund programmes to capture the value of innovationPeopleEstablish a technical education system that rivals the best in the world to stand alongside our world-class higher education systemInvest an additional £406 million in maths, digital and technical education, helping to address the shortage of science, technology, engineering and maths (STEM) skillsCreate a new National Retraining Scheme that supports people to re-skill, beginning with a £64 million investment for digital and construction trainingInfrastructureIncrease the National Productivity Investment Fund to £31 billion, supporting investments in transport, housing and digital infrastructureSupport electric vehicles through £400 million charging infrastructure investment and an extra £100 million to extend the plug-in car grantBoost our digital infrastructure with over £1 billion of public investment, including £176 million for 5G and £200 million for local areas to encourage roll out of full-fibre networksBusiness environmentLaunch and roll out Sector Deals – partnerships between government and industry aiming to increase sector productivity. The first Sector Deals are in life sciences, construction, artificial intelligence and the automotive sectorDrive over £20 billion of investment in innovative and high potential businesses, including through establishing a new £2.5 billion Investment Fund, incubated in the British Business BankLaunch a review of the actions that could be most effective in improving the productivity and growth of small and medium-sized businesses, including how to address what has been called the ‘long tail’ of lower productivity firmsPlacesAgree Local Industrial Strategies that build on local strengths and deliver on economic opportunitiesCreate a new Transforming Cities fund that will provide £1.7 billion for intra-city transport. This will fund projects that drive productivity by improving connections within city regionsProvide £42 million to pilot a Teacher Development Premium. This will test the impact of a £1,000 budget for high-quality professional development for teachers working in areas that have fallen behindAn independent Industrial Strategy Council will assess our progress and make recommendations to government.

Would you like to serve us as Infra operations Lead with your masterly hands-on experience in EXADATA, Data guard, Tuning, and OEM?

Here is your opportunity to flaunt your prowess and manage, plan, and lead our team!

Read the complete job description below! https://bizessence.com.au/jobs/infra-operations-lead/

Infra Operations Lead

We are looking to hire an expert Infra Operations Lead who can maintain infrastructure performance intact by managing optimal activities and can provide 24-hour monitoring, support, and security! You can fit the bill if you have an experience of 9+ years and possess skill sets such as EXADATA, Data guard, Tuning, and OEM! Read the complete job description below - https://bizessence.com.au/jobs/infra-operations-lead/