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At Tampa rally for Enterprise Florida funding, Rick Scott repeatedly calls out Shawn Harrison

Saying that he is “shocked” that a committee in the Florida House voted to kill funding for Enterprise Florida and Visit Florida last week, Governor Rick Scott came to Tampa on Monday to urge the public to urge their state legislators to maintain the funding for those two besieged agencies.“This is an important issue to me personally,” Scott said in his comments to reporters after concluding the second of three scheduled appearances around the state in what his staff is calling a “Fighting for Florida Jobs Roundtable.”

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CloudDOCX

Most businesses have tons of critical documents packed away in boxes or filing cabinets. Good luck trying to find one of them when you need it. At CloudDocx, we can help lighten the burden of managing all of those documents. We provide you with secure, permission-based, compliant electronic document storage.

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Server Virtualization

ProtonVPN iOS app now supports the OpenVPN protocol

Article | May 17, 2023

Your ProtonVPN iOS app is now better equipped to fight censorship and offers more flexible connection options with the launch of OpenVPN for iOS. The OpenVPN protocol is one of the best VPN protocols because of its flexibility, security, and because it is more resistant to blocks. You now have the option to switch between the faster IKEv2 protocol and the more stable and censorship-resistant OpenVPN protocol.

Read More
Virtual Desktop Tools, Server Hypervisors

How virtualization helped Dell make a pandemic pivot

Article | June 8, 2023

Danny Cobb, fellow and vice president of engineering for Dell Technologies’ telco systems business, remembers his company cruising into early 2020: Kicking off a new fiscal year with its operating plan in place, supply chain nailed down and factories humming; people coming into the office each day to the usual routine of looking for parking spots and taking laptops down to the cafeteria. Then came March, and the first wave of the Covid-19 pandemic hit U.S. shores. In the course of one weekend, Dell pivoted to having more than 90% of its workforce working from home. That meant a dramatic shift in its network needs and operations – one that was only able to be accomplished so quickly because of virtualized infrastructure.

Read More
VMware, Vsphere, Hyper-V

Virtualizing Broadband Networks: Q&A with Tom Cloonan and David Grubb

Article | May 2, 2023

The future of broadband networks is fast, pervasive, reliable, and increasingly, virtual. Dell’Oro predicts that virtual CMTS/CCAP revenue will grow from $90 million in 2019 to $418 million worldwide in 2024. While network virtualization is still in its earliest stages of deployment, many operators have begun building their strategy for virtualizing one or more components of their broadband networks.

Read More
Virtual Desktop Tools, Server Hypervisors

Metasploitable: A Platform for Ethical Hacking and Penetration Testing

Article | June 8, 2023

Contents 1. Overview 2. Ethical Hacking and Penetration Testing 3. Metasploit Penetration Test 4. Why Choose Metasploit Framework for your Business? 5. Closing remarks 1. Overview Metasploitable refers to an intentionally vulnerable virtual machine that enables the learning and practice of Metasploit. Metasploit is one of the best penetration testing frameworks that helps businesses discover and shore up their systems' vulnerabilities before hackers exploit them. Security engineers use Metasploit as a penetration testing system and a development platform that allows the creation of security tools and exploits. Metasploit's various user interfaces, libraries, tools, and modules allow users to configure an exploit module, pair it with a payload, point it at a target, and launch it at the target system. In addition, Metasploit's extensive database houses hundreds of exploits and several payload options. 2. Ethical Hacking and Penetration Testing An ethical hacker is one who works within a security framework and checks for bugs that a malicious hacker might use to exploit networks. They use their experience and skills to render the cyber environment. To protect the infrastructure from the threat that hackers pose, ethical hacking is essential. The main purpose of an ethical hacking service is to report and assess the safety of the targeted systems and networks for the owner. Ethical hacking is performed with penetration test techniques to evaluate security loopholes. There are many techniques used to hack information, such as – Information gathering Vulnerability scanning Exploitation Test analysis Ethical hacking involves automatic methods. The hacking process without automated software is inefficient and time-consuming. There are several tools and methods that can be used for ethical hacking and penetration testing. The Metasploit framework eases the effort to exploit vulnerabilities in networks, operating systems, and applications and generates new exploits for new or unknown vulnerabilities. 3. Metasploit Penetration Test Reconnaissance: Integrate Metasploit with various reconnaissance tools to find the vulnerable spot in the system. Threat Modeling and Vulnerability Identification: Once a weakness is identified, choose an exploit and payload for penetration. Exploitation: The payload gets executed at the target if the exploit, a tool used to take advantage of system weakness, is successful, and the user gets a shell for interacting with the payload (a shellcode is a small piece of code used as the payload).The most popular payload, a set of malicious codes to attack Windows systems, is Meterpreter, an in-memory-only interactive shell. (Meterpreter is a Metasploit attack payload that provides an interactive shell for the attacker to explore the target machine and execute code.)Other payloads are: Static payloads (it enables port forwarding and communications between networks) Dynamic payloads (to evade antivirus software, it allows testers to generate unique payloads) Command shell payloads (enables users to run scripts or commands against a host) Post-Exploitation: Metasploit offers various exploitation tools for privilege escalation, packet sniffing, keyloggers, screen capture, and pivoting tools once on the target machine. Resolution and Re-Testing: Users set up a persistent backdoor if the target machine gets rebooted. These available features in Metasploit make it easy to configure as per the user's requirements. 4. Why Choose Metasploit Framework for your Business? Significant advantages of the Metasploit Framework are discussed below: Open-source: Metasploit Framework is actively developed as open-source software, so most companies prefer this to grow their businesses. Easy usage: It is very easy to use, defining an easy-naming conversation with the commands. This also facilitates the building of an extensive penetration test of the network. GUI Environment: It mainly provides third-party instances that are friendly. These interfaces ease the penetration testing projects by providing the facilities with services such as button clicks, over-the-fly vulnerability management, and easy-to-shift workspaces, among others. Cleaner Exits: Metasploit can cleanly exit without detection, even if the target system does not restart after a penetration test. Additionally, it offers various options for maintaining persistent access to the target system. Easy Switching Between Payloads: Metasploit allows testers to change payloads with the 'setpayload' command easily. It offers flexibility for system penetration through shell-based access or meterpreter. 5. Closing remarks From DevSecOps experts to hackers, everyone uses the Ruby-based open-source framework Metasploit, which allows testing via command-line alterations or GUI. Metasploitable is a vulnerable virtual machine ideally used for ethical hacking and penetration testing, in VM security. One trend likely to impact the future of Metasploitable is the increasing use of cloud-based environments for testing and production. It is possible that Metasploitable could be adapted to work in cloud environments or that new tools will be developed specifically for cloud-based penetration testing. Another trend that may impact the future of Metasploitable is the growing importance of automation in security testing. Thus, Metasploitable could be adapted to include more automation features. The future of Metasploitable looks bright as it continues to be a valuable tool for security professionals and enthusiasts. As the security landscape continues to evolve, it will be interesting to see how Metasploitable adapts to meet the community's changing needs.

Read More
Server Virtualization

Boosting Productivity with Kubernetes and Docker

Article | May 17, 2023

Your ProtonVPN iOS app is now better equipped to fight censorship and offers more flexible connection options with the launch of OpenVPN for iOS. The OpenVPN protocol is one of the best VPN protocols because of its flexibility, security, and because it is more resistant to blocks. You now have the option to switch between the faster IKEv2 protocol and the more stable and censorship-resistant OpenVPN protocol.

Read More
Virtual Desktop Tools, Server Hypervisors

Metasploitable: A Platform for Ethical Hacking and Penetration Testing

Article | June 8, 2023

Danny Cobb, fellow and vice president of engineering for Dell Technologies’ telco systems business, remembers his company cruising into early 2020: Kicking off a new fiscal year with its operating plan in place, supply chain nailed down and factories humming; people coming into the office each day to the usual routine of looking for parking spots and taking laptops down to the cafeteria. Then came March, and the first wave of the Covid-19 pandemic hit U.S. shores. In the course of one weekend, Dell pivoted to having more than 90% of its workforce working from home. That meant a dramatic shift in its network needs and operations – one that was only able to be accomplished so quickly because of virtualized infrastructure.

Read More
VMware, Vsphere, Hyper-V

Top 15 Virtualization Events to Attend in 2023

Article | May 2, 2023

The future of broadband networks is fast, pervasive, reliable, and increasingly, virtual. Dell’Oro predicts that virtual CMTS/CCAP revenue will grow from $90 million in 2019 to $418 million worldwide in 2024. While network virtualization is still in its earliest stages of deployment, many operators have begun building their strategy for virtualizing one or more components of their broadband networks.

Read More
Virtual Desktop Tools, Server Hypervisors

Metasploitable: A Platform for Ethical Hacking and Penetration Testing

Article | June 8, 2023

Contents 1. Overview 2. Ethical Hacking and Penetration Testing 3. Metasploit Penetration Test 4. Why Choose Metasploit Framework for your Business? 5. Closing remarks 1. Overview Metasploitable refers to an intentionally vulnerable virtual machine that enables the learning and practice of Metasploit. Metasploit is one of the best penetration testing frameworks that helps businesses discover and shore up their systems' vulnerabilities before hackers exploit them. Security engineers use Metasploit as a penetration testing system and a development platform that allows the creation of security tools and exploits. Metasploit's various user interfaces, libraries, tools, and modules allow users to configure an exploit module, pair it with a payload, point it at a target, and launch it at the target system. In addition, Metasploit's extensive database houses hundreds of exploits and several payload options. 2. Ethical Hacking and Penetration Testing An ethical hacker is one who works within a security framework and checks for bugs that a malicious hacker might use to exploit networks. They use their experience and skills to render the cyber environment. To protect the infrastructure from the threat that hackers pose, ethical hacking is essential. The main purpose of an ethical hacking service is to report and assess the safety of the targeted systems and networks for the owner. Ethical hacking is performed with penetration test techniques to evaluate security loopholes. There are many techniques used to hack information, such as – Information gathering Vulnerability scanning Exploitation Test analysis Ethical hacking involves automatic methods. The hacking process without automated software is inefficient and time-consuming. There are several tools and methods that can be used for ethical hacking and penetration testing. The Metasploit framework eases the effort to exploit vulnerabilities in networks, operating systems, and applications and generates new exploits for new or unknown vulnerabilities. 3. Metasploit Penetration Test Reconnaissance: Integrate Metasploit with various reconnaissance tools to find the vulnerable spot in the system. Threat Modeling and Vulnerability Identification: Once a weakness is identified, choose an exploit and payload for penetration. Exploitation: The payload gets executed at the target if the exploit, a tool used to take advantage of system weakness, is successful, and the user gets a shell for interacting with the payload (a shellcode is a small piece of code used as the payload).The most popular payload, a set of malicious codes to attack Windows systems, is Meterpreter, an in-memory-only interactive shell. (Meterpreter is a Metasploit attack payload that provides an interactive shell for the attacker to explore the target machine and execute code.)Other payloads are: Static payloads (it enables port forwarding and communications between networks) Dynamic payloads (to evade antivirus software, it allows testers to generate unique payloads) Command shell payloads (enables users to run scripts or commands against a host) Post-Exploitation: Metasploit offers various exploitation tools for privilege escalation, packet sniffing, keyloggers, screen capture, and pivoting tools once on the target machine. Resolution and Re-Testing: Users set up a persistent backdoor if the target machine gets rebooted. These available features in Metasploit make it easy to configure as per the user's requirements. 4. Why Choose Metasploit Framework for your Business? Significant advantages of the Metasploit Framework are discussed below: Open-source: Metasploit Framework is actively developed as open-source software, so most companies prefer this to grow their businesses. Easy usage: It is very easy to use, defining an easy-naming conversation with the commands. This also facilitates the building of an extensive penetration test of the network. GUI Environment: It mainly provides third-party instances that are friendly. These interfaces ease the penetration testing projects by providing the facilities with services such as button clicks, over-the-fly vulnerability management, and easy-to-shift workspaces, among others. Cleaner Exits: Metasploit can cleanly exit without detection, even if the target system does not restart after a penetration test. Additionally, it offers various options for maintaining persistent access to the target system. Easy Switching Between Payloads: Metasploit allows testers to change payloads with the 'setpayload' command easily. It offers flexibility for system penetration through shell-based access or meterpreter. 5. Closing remarks From DevSecOps experts to hackers, everyone uses the Ruby-based open-source framework Metasploit, which allows testing via command-line alterations or GUI. Metasploitable is a vulnerable virtual machine ideally used for ethical hacking and penetration testing, in VM security. One trend likely to impact the future of Metasploitable is the increasing use of cloud-based environments for testing and production. It is possible that Metasploitable could be adapted to work in cloud environments or that new tools will be developed specifically for cloud-based penetration testing. Another trend that may impact the future of Metasploitable is the growing importance of automation in security testing. Thus, Metasploitable could be adapted to include more automation features. The future of Metasploitable looks bright as it continues to be a valuable tool for security professionals and enthusiasts. As the security landscape continues to evolve, it will be interesting to see how Metasploitable adapts to meet the community's changing needs.

Read More
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Spotlight

CloudDOCX

Most businesses have tons of critical documents packed away in boxes or filing cabinets. Good luck trying to find one of them when you need it. At CloudDocx, we can help lighten the burden of managing all of those documents. We provide you with secure, permission-based, compliant electronic document storage.

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Virtualized Environments

VeriSilicon Unveils the New VC9800 IP for Next Generation Data Centers

Business Wire | January 09, 2024

VeriSilicon today unveiled its latest VC9800 series Video Processor Unit (VPU) IP with enhanced video processing performance to strengthen its presence in the data center applications. The newly launched series IP caters to the advanced requirements of next generation data centers including video transcoding servers, AI servers, virtual cloud desktops, and cloud gaming. The VC9800 series of VPU IP boasts high performance, high throughput, and server-level multi-stream encoding and decoding capabilities. It can handle up to 256 streams and support all mainstream video formats, including the new advanced format VVC. Through Rapid Look Ahead encoding, the VC9800 series IP improves video quality significantly with low memory footprint and encoding latency. With capable of supporting 8K encoding and decoding, it offers enhanced video post-processing and multi-channel encoding at various resolutions, thus achieves an efficient transcoding solution. The VC9800 series of VPU IP can seamlessly interface with Neural Network Processor (NPU) IP, enabling a complete AI-video pipeline. When combined with VeriSilicon’s Graphics Processor Unit (GPU) IP, the subsystem solution is able to deliver enhanced gaming experiences. In addition, the hardware virtualization, super resolution image enhancement, and AI-enabled encoding functions of this series IP also offer effective solutions for virtual cloud desktops. “VeriSilicon’s advanced video transcoding technology continues leading in Data Center domain. We are working closely with global leading customers to develop comprehensive video processing subsystem solutions to meet the requirements of the latest Data Centers,” said Wei-Jin Dai, Executive VP and GM of IP Division of VeriSilicon. “For AI computing, our video post-processing capabilities have been extended to smoothly interact with NPUs, ensuring OpenCV-level accuracy. We’ve also introduced super resolution technology to the video processing subsystem, elevating image quality and ultimately enhancing user experiences for cloud computing and smart display.” About VeriSilicon VeriSilicon is committed to providing customers with platform-based, all-around, one-stop custom silicon services and semiconductor IP licensing services leveraging its in-house semiconductor IP.

Read More

Server Virtualization

Panasonic Automotive Introduces Neuron High-Performance Compute (HPC) to Advance to a Software-Defined Mobility Future

PR Newswire | January 09, 2024

Panasonic Automotive Systems Company of America, a tier-one automotive supplier and a division of Panasonic Corporation of North America, announced its High-Performance Compute (HPC) system. Named Neuron, this innovation addresses the rapidly evolving mobility needs anticipated for software-defined vehicle advancements. As vehicles become more software reliant, vehicle systems must support the extended software lifecycle by enabling software upgrades and prolonging the supporting hardware capability. Cars rely on hardware and software compute platforms to process, share, sense, and derive insights to handle functions for assisted driving. Panasonic Automotive's Neuron HPC allows for not only software updates and upgrades but also hardware upgrades across platform lifecycles. The Neuron HPC can aggregate multiple computing zones to reduce the cost, weight and integration complexity of the vehicle by removing redundant components. Panasonic Automotive's design supports effortless up-integration with high-performance and heavy data input processing capability. Importantly, the design is upgradeable, scalable and future-proof across today's evolving in-vehicle platforms. Neuron HPC Architecture & Design Panasonic Automotive's High Performance Compute architecture could reduce the number of distributed electronic control units (ECUs) by up to 80%1 – allowing for faster, lighter, cross-domain computing for real-time, cross-functional communications. The Neuron HPC design is suited for any mobility platform including internal combustion engine, hybrid, fuel cell or electric vehicles. "In collaboration with OEMs, Panasonic Automotive has designed and met some of the largest central compute platform challenges in the industry in order to make the driving experience evolve with technology," said Andrew Poliak, CTO, Panasonic Automotive Systems Company of America. "Neuron maximizes performance, safety and innovation over the entire ownership of the consumer's vehicle and enables OEMs with a future-proof SDV platform for ensuing generations of mobility needs." Key Systems, UX Features & Technical Benefits With a streamlined design, the Neuron HPC incorporates up-integration capability by consolidating multiple ECUs into one centralized nucleus to handle all levels of ADAS, chassis, body, and in-cabin infotainment features. About Panasonic Automotive Systems Company of America  Panasonic Automotive Systems Company of America is a division company of Panasonic Corporation of North America and is a leading global supplier of automotive infotainment and connectivity system solutions. Panasonic Automotive Systems Company of America acts as the North American affiliate of Panasonic Automotive Systems Co., Ltd., which coordinates global automotive. Panasonic Automotive Systems Company of America is headquartered in Peachtree City, Georgia, with sales, marketing and engineering operations in Farmington Hills, Mich. About Panasonic Corporation of North America Newark, NJ-based Panasonic Corporation of North America is committed to creating a better life and a better world by enabling its customers through innovations in Sustainable Energy, Immersive Entertainment, Integrated Supply Chains and Mobility Solutions. The company is the principal North American subsidiary of Osaka, Japan-based Panasonic Corporation. One of Interbrand's Top 100 Best Global Brands of 2023, Panasonic is a leading technology partner and integrator to businesses, government agencies and consumers across the region.

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Server Virtualization

AELF Partners with ChainsAtlas to Pioneer Interoperability in Blockchain

PR Newswire | January 09, 2024

aelf is advancing cross-chain interoperability through a strategic partnership with ChainsAtlas. By utilising ChainsAtlas' innovative virtualisation technology, aelf will enable decentralised applications (dApps) from diverse blockchains to seamlessly migrate and integrate into the aelf blockchain, regardless of the dApps' smart contract specifications. This collaboration marks a significant step towards a globally interconnected and efficient blockchain ecosystem, breaking down the silos between blockchains. Khaniff Lau, Business Development Director at aelf, shares, "The strategic partnership with ChainsAtlas is a significant step towards realising our vision of a seamlessly interconnected blockchain world. With this integration, aelf is set to become a hub for cross-chain activities, enhancing our ability to support a wide array of dApps, digital assets, and Web2 apps. This collaboration is not just about technology integration; it's about shaping the future of how services and products on blockchains interact and operate in synergy." Jan Hanken, Co-founder of ChainsAtlas, says, "ChainsAtlas was always built to achieve two major goals: to make blockchain development accessible to a broad spectrum of developers and entrepreneurs and, along that path, to pave the way for a truly omnichain future." "By joining forces with aelf, we are bringing that visionary future much closer to reality. As we anticipate the influx of creativity from innovators taking their first steps into the world of Web3 on aelf, driven by ChainsAtlas technology, we are excited to see these groundbreaking ideas come to life," adds Hanken. The foundation for true cross-chain interoperability is being built as aelf integrates ChainsAtlas' Virtualization Unit (VU), enabling the aelf blockchain to accommodate both EVM and non-EVM digital assets. This cross-chain functionality is accomplished through ChainsAtlas' virtualisation technology, allowing aelf to interpret and execute smart contracts written in other languages supported by ChainsAtlas, while also establishing state transfer mechanisms that facilitate seamless data and asset flow between aelf and other blockchains. Through this partnership, aelf blockchain's capabilities will be enhanced as it is able to support a more comprehensive range of dApps and games, and developers from diverse coding backgrounds will now be empowered to build on aelf blockchain. This partnership will also foster increased engagement within the Web3 community as users can gain access to a more diverse range of digital assets on aelf. Looking ahead, the partnership between aelf and ChainsAtlas will play a pivotal role in advancing the evolution of aelf's sidechains by enabling simultaneous execution of program components across multiple VUs on different blockchains. About aelf aelf, a high-performance Layer 1 featuring multi-sidechain technology for unlimited scalability. aelf blockchain is designed to power the development of Web3 and support its continuous advancement into the future. Founded in 2017 with its global hub based in Singapore, aelf is one of the pioneers of the mainchain-sidechain architecture concept. Incorporating key foundational components, including AEDPoS, aelf's variation of a Delegated Proof-of-Stake (DPoS) consensus protocol; parallel processing; peer-to-peer (P2P) network communication; cross-chain bridges, and a dynamic side chain indexing mechanism, aelf delivers a highly efficient, safe, and modular ecosystem with high throughput, scalability, and interoperability. aelf facilitates the building, integrating, and deploying of smart contracts and decentralised apps (dApps) on its blockchain with its native C# software development kit (SDK) and SDKs in other languages, including Java, JS, Python, and Go. aelf's ecosystem also houses a range of dApps to support a flourishing blockchain network. aelf is committed to fostering innovation within its ecosystem and remains dedicated to driving the development of Web3 and the adoption of blockchain technology. About ChainsAtlas ChainsAtlas introduces a new approach to Web3 infrastructure, blending multiple blockchain technologies and smart contract features to create a unified, efficient processing network. Its core innovation lies in virtualization-enabled smart contracts, allowing consistent software operation across different blockchains. This approach enhances decentralized applications' complexity and reliability, promoting easier integration of existing software into the blockchain ecosystem. The team behind ChainsAtlas, driven by the transformative potential of blockchain, aims to foster global opportunities and equality. Their commitment to building on existing blockchain infrastructure marks a significant step towards a new phase in Web3, where advanced and reliable decentralized applications become the norm, setting new standards for the future of decentralized networks.

Read More

Virtualized Environments

VeriSilicon Unveils the New VC9800 IP for Next Generation Data Centers

Business Wire | January 09, 2024

VeriSilicon today unveiled its latest VC9800 series Video Processor Unit (VPU) IP with enhanced video processing performance to strengthen its presence in the data center applications. The newly launched series IP caters to the advanced requirements of next generation data centers including video transcoding servers, AI servers, virtual cloud desktops, and cloud gaming. The VC9800 series of VPU IP boasts high performance, high throughput, and server-level multi-stream encoding and decoding capabilities. It can handle up to 256 streams and support all mainstream video formats, including the new advanced format VVC. Through Rapid Look Ahead encoding, the VC9800 series IP improves video quality significantly with low memory footprint and encoding latency. With capable of supporting 8K encoding and decoding, it offers enhanced video post-processing and multi-channel encoding at various resolutions, thus achieves an efficient transcoding solution. The VC9800 series of VPU IP can seamlessly interface with Neural Network Processor (NPU) IP, enabling a complete AI-video pipeline. When combined with VeriSilicon’s Graphics Processor Unit (GPU) IP, the subsystem solution is able to deliver enhanced gaming experiences. In addition, the hardware virtualization, super resolution image enhancement, and AI-enabled encoding functions of this series IP also offer effective solutions for virtual cloud desktops. “VeriSilicon’s advanced video transcoding technology continues leading in Data Center domain. We are working closely with global leading customers to develop comprehensive video processing subsystem solutions to meet the requirements of the latest Data Centers,” said Wei-Jin Dai, Executive VP and GM of IP Division of VeriSilicon. “For AI computing, our video post-processing capabilities have been extended to smoothly interact with NPUs, ensuring OpenCV-level accuracy. We’ve also introduced super resolution technology to the video processing subsystem, elevating image quality and ultimately enhancing user experiences for cloud computing and smart display.” About VeriSilicon VeriSilicon is committed to providing customers with platform-based, all-around, one-stop custom silicon services and semiconductor IP licensing services leveraging its in-house semiconductor IP.

Read More

Server Virtualization

Panasonic Automotive Introduces Neuron High-Performance Compute (HPC) to Advance to a Software-Defined Mobility Future

PR Newswire | January 09, 2024

Panasonic Automotive Systems Company of America, a tier-one automotive supplier and a division of Panasonic Corporation of North America, announced its High-Performance Compute (HPC) system. Named Neuron, this innovation addresses the rapidly evolving mobility needs anticipated for software-defined vehicle advancements. As vehicles become more software reliant, vehicle systems must support the extended software lifecycle by enabling software upgrades and prolonging the supporting hardware capability. Cars rely on hardware and software compute platforms to process, share, sense, and derive insights to handle functions for assisted driving. Panasonic Automotive's Neuron HPC allows for not only software updates and upgrades but also hardware upgrades across platform lifecycles. The Neuron HPC can aggregate multiple computing zones to reduce the cost, weight and integration complexity of the vehicle by removing redundant components. Panasonic Automotive's design supports effortless up-integration with high-performance and heavy data input processing capability. Importantly, the design is upgradeable, scalable and future-proof across today's evolving in-vehicle platforms. Neuron HPC Architecture & Design Panasonic Automotive's High Performance Compute architecture could reduce the number of distributed electronic control units (ECUs) by up to 80%1 – allowing for faster, lighter, cross-domain computing for real-time, cross-functional communications. The Neuron HPC design is suited for any mobility platform including internal combustion engine, hybrid, fuel cell or electric vehicles. "In collaboration with OEMs, Panasonic Automotive has designed and met some of the largest central compute platform challenges in the industry in order to make the driving experience evolve with technology," said Andrew Poliak, CTO, Panasonic Automotive Systems Company of America. "Neuron maximizes performance, safety and innovation over the entire ownership of the consumer's vehicle and enables OEMs with a future-proof SDV platform for ensuing generations of mobility needs." Key Systems, UX Features & Technical Benefits With a streamlined design, the Neuron HPC incorporates up-integration capability by consolidating multiple ECUs into one centralized nucleus to handle all levels of ADAS, chassis, body, and in-cabin infotainment features. About Panasonic Automotive Systems Company of America  Panasonic Automotive Systems Company of America is a division company of Panasonic Corporation of North America and is a leading global supplier of automotive infotainment and connectivity system solutions. Panasonic Automotive Systems Company of America acts as the North American affiliate of Panasonic Automotive Systems Co., Ltd., which coordinates global automotive. Panasonic Automotive Systems Company of America is headquartered in Peachtree City, Georgia, with sales, marketing and engineering operations in Farmington Hills, Mich. About Panasonic Corporation of North America Newark, NJ-based Panasonic Corporation of North America is committed to creating a better life and a better world by enabling its customers through innovations in Sustainable Energy, Immersive Entertainment, Integrated Supply Chains and Mobility Solutions. The company is the principal North American subsidiary of Osaka, Japan-based Panasonic Corporation. One of Interbrand's Top 100 Best Global Brands of 2023, Panasonic is a leading technology partner and integrator to businesses, government agencies and consumers across the region.

Read More

Server Virtualization

AELF Partners with ChainsAtlas to Pioneer Interoperability in Blockchain

PR Newswire | January 09, 2024

aelf is advancing cross-chain interoperability through a strategic partnership with ChainsAtlas. By utilising ChainsAtlas' innovative virtualisation technology, aelf will enable decentralised applications (dApps) from diverse blockchains to seamlessly migrate and integrate into the aelf blockchain, regardless of the dApps' smart contract specifications. This collaboration marks a significant step towards a globally interconnected and efficient blockchain ecosystem, breaking down the silos between blockchains. Khaniff Lau, Business Development Director at aelf, shares, "The strategic partnership with ChainsAtlas is a significant step towards realising our vision of a seamlessly interconnected blockchain world. With this integration, aelf is set to become a hub for cross-chain activities, enhancing our ability to support a wide array of dApps, digital assets, and Web2 apps. This collaboration is not just about technology integration; it's about shaping the future of how services and products on blockchains interact and operate in synergy." Jan Hanken, Co-founder of ChainsAtlas, says, "ChainsAtlas was always built to achieve two major goals: to make blockchain development accessible to a broad spectrum of developers and entrepreneurs and, along that path, to pave the way for a truly omnichain future." "By joining forces with aelf, we are bringing that visionary future much closer to reality. As we anticipate the influx of creativity from innovators taking their first steps into the world of Web3 on aelf, driven by ChainsAtlas technology, we are excited to see these groundbreaking ideas come to life," adds Hanken. The foundation for true cross-chain interoperability is being built as aelf integrates ChainsAtlas' Virtualization Unit (VU), enabling the aelf blockchain to accommodate both EVM and non-EVM digital assets. This cross-chain functionality is accomplished through ChainsAtlas' virtualisation technology, allowing aelf to interpret and execute smart contracts written in other languages supported by ChainsAtlas, while also establishing state transfer mechanisms that facilitate seamless data and asset flow between aelf and other blockchains. Through this partnership, aelf blockchain's capabilities will be enhanced as it is able to support a more comprehensive range of dApps and games, and developers from diverse coding backgrounds will now be empowered to build on aelf blockchain. This partnership will also foster increased engagement within the Web3 community as users can gain access to a more diverse range of digital assets on aelf. Looking ahead, the partnership between aelf and ChainsAtlas will play a pivotal role in advancing the evolution of aelf's sidechains by enabling simultaneous execution of program components across multiple VUs on different blockchains. About aelf aelf, a high-performance Layer 1 featuring multi-sidechain technology for unlimited scalability. aelf blockchain is designed to power the development of Web3 and support its continuous advancement into the future. Founded in 2017 with its global hub based in Singapore, aelf is one of the pioneers of the mainchain-sidechain architecture concept. Incorporating key foundational components, including AEDPoS, aelf's variation of a Delegated Proof-of-Stake (DPoS) consensus protocol; parallel processing; peer-to-peer (P2P) network communication; cross-chain bridges, and a dynamic side chain indexing mechanism, aelf delivers a highly efficient, safe, and modular ecosystem with high throughput, scalability, and interoperability. aelf facilitates the building, integrating, and deploying of smart contracts and decentralised apps (dApps) on its blockchain with its native C# software development kit (SDK) and SDKs in other languages, including Java, JS, Python, and Go. aelf's ecosystem also houses a range of dApps to support a flourishing blockchain network. aelf is committed to fostering innovation within its ecosystem and remains dedicated to driving the development of Web3 and the adoption of blockchain technology. About ChainsAtlas ChainsAtlas introduces a new approach to Web3 infrastructure, blending multiple blockchain technologies and smart contract features to create a unified, efficient processing network. Its core innovation lies in virtualization-enabled smart contracts, allowing consistent software operation across different blockchains. This approach enhances decentralized applications' complexity and reliability, promoting easier integration of existing software into the blockchain ecosystem. The team behind ChainsAtlas, driven by the transformative potential of blockchain, aims to foster global opportunities and equality. Their commitment to building on existing blockchain infrastructure marks a significant step towards a new phase in Web3, where advanced and reliable decentralized applications become the norm, setting new standards for the future of decentralized networks.

Read More

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