Dell Technologies | September 06, 2022
Dell Technologies is introducing new infrastructure solutions, co-engineered with VMware, that deliver greater automation and performance for organizations embracing multicloud and edge strategies.
"Customers tell us they want help simplifying their multicloud and edge strategies as they look to drive more efficiency and performance from their IT," said Jeff Boudreau, president, Dell Technologies Infrastructure Solutions Group. "Dell Technologies and VMware have numerous joint engineering initiatives spanning core IT areas such as multicloud, edge and security to help our customers more easily manage and gain value from their data."
Business data and applications continue to grow in multicloud environments comprised of edge locations, public clouds and on-premises IT. Many organizations have already adopted a multicloud approach, and the number of applications running at the edge will grow 800% by 2024.1
"IDC's global research shows many organizations are struggling to balance the rapidly rising complexity and cost of data center, edge and cloud operations with relentless business demand for better data integration, security and application performance, These organizations recognize the need for a consistent operating model tightly integrated with infrastructure platforms that support sophisticated, large scale data-driven workloads."
Mary Johnston Turner, IDC research vice president, future of digital infrastructure agenda
Dell VxRail delivers greater performance and smallest-ever systems at the edge
Dell is introducing several new VxRail systems and software advancements that improve performance on-premises and at the edge including the industry's only jointly engineered HCI-based DPU solution with VMware.2
Improved system performance: A result of co-engineering with VMware and its Project Monterey initiative, VxRail systems support new VMware vSphere 8 software that has been rearchitected to run on DPUs. Customers can improve application and networking infrastructure performance and improve TCO by moving these services from a system's CPU to its new on-board DPU.
Support demanding workloads: Select VxRail systems now support VMware's new vSAN Enterprise Storage Architecture (ESA). With up to 4x vSAN performance improvement3, customers can better support demanding mission-critical applications.
Smallest edge systems: VxRail rugged modular nodes deliver high performance and scalability in the system's smallest form factor to date.4 Modular nodes are ideal for edge use cases including healthcare, energy and utilities and digital cities because of VxRail's industry-first, on-board hardware witness5, which will allow for deployment in high latency, low bandwidth locations.
"The increasing demand for software-defined infrastructure services for networking, storage and security places more demands on already-strained CPUs. As more distributed, resource intensive applications are onboarded, there is a need to reimagine data center architecture to fully support the requirements of these applications," said Krish Prasad, senior vice president & general manager, Cloud Platform Business, VMware. "Dell VxRail with VMware vSphere 8 will deliver a foundation for next generation data center architecture by running infrastructure services on the DPU. This will enable greater network and application performance and a new level of sophistication in adopting Zero Trust security strategies to protect modern enterprise workloads."
Dell APEX expands multicloud and edge support for VMware environments
Dell is adding several offers to its APEX portfolio for VMware workloads that help speed development of cloud-native apps and better allocate compute and storage resources for applications at the edge.
APEX Cloud Services with VMware Cloud adds managed VMware Tanzu Kubernetes Grid services, which allows IT teams to help developers move faster by using a container-based approach to application development. With Dell-managed Tanzu services, customers can provision Kubernetes clusters through the vSphere user interface. Organizations also will be able to help speed development efforts by building, testing and running cloud-native applications alongside traditional applications on the same platform.
APEX Private Cloud and APEX Hybrid Cloud offer new compute-only options that allow customers to support more workloads and increase IT infrastructure efficiency by independently scaling compute and storage resources. Organizations can start small and scale their infrastructure as their IT needs change. Customers can use Dell's industry-leading enterprise storage data services by connecting compute-only instances to Dell storage such as APEX Data Storage Services.
"APEX Hybrid Cloud lets us manage our multicloud environment seamlessly and gain better insights into our VMware workloads. It's allowed us to reduce the cost of supporting applications and workloads by 20%," said Ben Doyle, chief information officer, ATN International. "We stood up the Dell APEX solution quickly, and we easily moved 70% of our infrastructure to it in under three months. We look forward to working with Dell Technologies to expand our cloud footprint moving forward."
Dell Validated Designs for AI – AutoML uses AI to democratize data science
Dell Validated Designs for AI – Automatic Machine Learning (AutoML) uses automated machine learning models to help data scientists of all skill levels develop AI-powered applications.
The solution includes tested and proven configurations of Dell VxRail hyperconverged infrastructure with H2O.ai, NVIDIA and VMware software to help customers speed time to insight from data with automation that delivers up to 18x faster AI models.6
Organizations report 20%7 faster time to value with Dell Validated Designs for AI, helping data scientists of all skill levels develop AI-powered applications faster. VMware Tanzu in Dell Validated Designs for AI helps provide greater container security and allows customers to run AI at the edge using VMware Tanzu services.
About Dell Technologies
Dell Technologies ( NYSE:DELL) helps organizations and individuals build their digital future and transform how they work, live and play. The company provides customers with the industry's broadest and most innovative technology and services portfolio for the data era.
VIRTUAL SERVER INFRASTRUCTURE
Red Hat | October 28, 2022
Red Hat, Inc., the world's leading provider of open source solutions, today introduced Red Hat Device Edge, a solution for flexibly deploying traditional or containerized workloads on small devices such as robots, IoT gateways, points of sale, public transport and more. Red Hat Device Edge delivers an enterprise-ready and supported distribution of the Red Hat-led open source community project MicroShift, a lightweight Kubernetes orchestration solution built from the edge capabilities of Red Hat OpenShift, along with an edge-optimized operating system built from Red Hat Enterprise Linux. This latest product in the Red Hat edge portfolio aims to provide a future-proof platform that allows organizations’ architecture to evolve as their workload strategy changes.
As more and more companies deploy edge computing across a broader range of use cases, many new questions, operational needs and business challenges are poised to arise. In industries like automotive, manufacturing and more, organizations are up against different environmental, security and operational challenges that require an ability to work with small form-factor edge devices in these resource constrained environments. Ultimately, different devices have different requirements in terms of computing power, software compatibility and security footprint.
With Red Hat Device Edge, organizations can have the flexibility to deploy containers at the edge in a small footprint, reducing compute requirements by up to 50% in comparison to traditional Kubernetes edge configurations. It also helps to address many of the emerging questions around large-scale edge computing at the device edge by incorporating:
Kubernetes built for edge deployments, enabling IT teams to use familiar Kubernetes features in a new, smaller, lighter-weight footprint offered by MicroShift. This lowers the barrier of entry for teams building cloud-native applications for edge computing environments and enables them to use existing Kubernetes skills to achieve greater consistency of operations across the entirety of the hybrid cloud, from the datacenter to public clouds to the edge.
An edge-optimized Linux OS built from the world’s leading enterprise Linux platform in Red Hat Enterprise Linux and tailored for small edge devices with intelligent updates that use minimum bandwidth. This helps organizations tackle the challenges of intermittent connectivity while mitigating the impact on edge innovation.
Capabilities for centrally scaling and monitoring edge device fleets with Red Hat Smart Management. IT teams can use zero-touch provisioning, system health visibility and updates with automatic rollbacks to maintain a stronger edge management and application security posture.
Red Hat Device Edge for far-flung, resource constrained use cases across different industries
Red Hat Device Edge was created to help Red Hat customers and partners tackle their most challenging edge environments. For example, Lockheed Martin has been collaborating with Red Hat in the MicroShift project community and is also working to deploy Red Hat Device Edge to modernize and standardize its application delivery and AI workloads in extreme conditions including wildland fire management, contested military environments and space. Additionally, ABB is planning to use Red Hat Device Edge for ABB Ability™ Edgenius™ on resource constrained devices. Edgenius is a comprehensive edge platform for industrial software applications.
Red Hat Device Edge will be aimed at organizations who require small factor edge devices with support for bare metal, virtualized or containerized applications, regardless of industry. Additional use cases include but are not limited to:
Miniature, connected nodes on public transportation where edge devices are often in motion but still need faster processing via AI/ML to analyze data locally in real time (i.e. railways, mining, cars, drones).
Resilient resource nodes at challenging locations like weather monitoring stations where, in spite of the harsh, tough-to-support environments, an edge device will still be capable of taking care of itself with the ability to perform automated software rollbacks, maintain a stronger security posture and better enforce sensitive data controls.
Emerging edge constrained scenarios where thousands of edge devices may be running applications in locations that make weight, temperature and connectivity all major concerns.
Red Hat Device Edge meets organizations wherever they are today in their edge computing journey, as it will run a wide variety of workloads using Podman for edge container management or MicroShift for a Kubernetes API. Customers will even be able to use legacy windows applications within a virtual machine.
Red Hat Device Edge is planned as a developer preview early next year, and expected to be generally available with full support later in 2023.
Francis Chow, vice president and general manager, In-Vehicle Operating System and Edge, Red Hat
“Innovation at the edge has introduced new benefits and use cases for organizations across all industries - but it has also created new challenges. Working with our customers and partners, Red Hat began a journey to develop a new technology offering - designed specifically for the edge - extending our hybrid cloud solution so that our ecosystem will be able to take advantage of intelligence paired with trusted open source technology to tackle their smallest footprint remote edge use cases. Tested in the community, now produced by Red Hat, Red Hat Device Edge is a major next step in harnessing the full range of benefits promised by edge computing.”
Justin Taylor, vice president of Artificial Intelligence, Lockheed Martin
“Red Hat Device Edge will enable Lockheed Martin to revolutionize artificial intelligence processing for our DOD customers’ most challenging missions. The ability for small military platforms to handle large AI workloads will increase their capacity in the field, ensuring our military can stay ahead of evolving threats. Lockheed Martin is a long-time customer and collaborator to Red Hat and working on Red Hat Device Edge together is a critical next step in this strategic relationship.”
Bernhard Eschermann, chief technology officer, ABB Process Automation
“ABB is excited to continue working with Red Hat to streamline the transition from automated to autonomous operations for the manufacturing industry. With Red Hat Device Edge, ABB will be able to connect cloud and control environments to improve asset efficiency and operations by aggregating and analyzing data on devices with more limited resources. With this continued collaboration, ABB’s ecosystem will experience the benefit of open source solutions driven by innovative market leaders now and in the future. ”
About Red Hat, Inc.
Red Hat is the world’s leading provider of enterprise open source software solutions, using a community-powered approach to deliver reliable and high-performing Linux, hybrid cloud, container, and Kubernetes technologies. Red Hat helps customers integrate new and existing IT applications, develop cloud-native applications, standardize on our industry-leading operating system, and automate, secure, and manage complex environments. Award-winning support, training, and consulting services make Red Hat a trusted adviser to the Fortune 500. As a strategic partner to cloud providers, system integrators, application vendors, customers, and open source communities, Red Hat can help organizations prepare for the digital future.
SiFive | November 07, 2022
SiFive, Inc. the founder and leader of RISC-V computing, today announced two new products that address the need for high performance and efficiency in a small size in high volume applications like wearables, smart home, industrial automation, AR/VR, and other consumer devices. The SiFive Performance™ P670 and P470 RISC-V processors bring unparalleled compute performance and efficiency that is significantly raising the bar for innovative designs in these high-volume markets. The modern and innovative SiFive design methodologies bring raw compute density that is a substantial advantage for SiFive Performance products and also translates into significant cost savings for customers.
“The P670 and P470 are specifically designed for, and capable of handling the most demanding workloads for wearables and other advanced consumer applications. These new products offer powerful performance and compute density for companies looking to upgrade from legacy ISAs,” said Chris Jones, SiFive VP of Product. “We have optimized these new RISC-V Vector enabled products to deliver the performance and efficiency improvements the industry has long been asking for, and we are in evaluations with a number of top-tier customers. Additionally, as the upstream enablement of RISC-V has started within the Android Open Source Project, (AOSP), designers will have unrivaled choice and flexibility as they consider the positive implications with that platform for future designs.”
"We are excited to see RISC-V solutions for wearable and consumer devices becoming a reality, and we are looking at possibilities of integrating SiFive’s latest products into Snapdragon platforms,”
Ziad Asghar, Vice President, Product Management- Snapdragon Technologies and Roadmap at Qualcomm
"Samsung’s System LSI Business holds a wide portfolio of solutions for various applications, such as mobile, wearables and other consumer devices. We look forward to evaluating how the latest RISC-V innovations from SiFive can enhance our offerings,” said Jinpyo Park, VP of the Innovative AP Development Team, Samsung Electronics System LSI Business.
“SiFive continues to be a market leader in the growing and maturing RISC-V space and again shows its leadership with its new SiFive Performance P670 and P470 RISC-V processors,” said Todd R. Weiss, an analyst with Futurum Research. “These latest and powerful new processors give SiFive feature and performance advantages that will gain plenty of attention from device makers and consumers who want more from their devices. SiFive has been growing its reputation for some time and is truly ready to shake up the marketplace.”
The SiFive Performance P470 and P670 products offer a finely-tuned combination of compute-density, power efficiency, and robust feature sets ideal for a wide range of applications and markets:
Support for virtualization, including a separate IOMMU for accelerating virtualized device IO
Full, Out-of-Order, RISC-V Vector implementation, based on the ratified RISC-V Vector v1.0 Specification
First to market with the RISC-V Vector Cryptography extensions
SiFive WorldGuard system security
Full RISC-V RVA22 profile compliance
New, Advanced Interrupt Architecture (AIA) compliant interrupt controller, with better support for Message Signal Interrupts (MSI) and virtualization
Enhanced scalability with fully coherent multi-core, multi-cluster, with support for up to 16 cores
SiFive Performance P670
The P670 is ideal for applications like premium wearables, networking, robotics, and mobile. The P650, which excludes the vector unit, is already shipping to lead customers and is being used in applications that do not require the additional capabilities that vector compute offers or are more area constrained.
The feature rich P670
achieves a maximum frequency exceeding 3.4GHz in 5nm,
has performance of greater than 12 SpecINT2k6/GHz, offering optimized performance in a constrained area and power envelope,
offers higher single threaded performance and 2x compute density compared to legacy solutions, and
includes a 2x 128-bit Vector ALUs compliant with the ratified RISC-V Vector v1.0 specification
SiFive Performance™ P470
The P470 is SiFive’s first efficiency-focused Out-of-Order, area optimized, vector processor, ideal for applications like wearables, consumer, and smart home devices. Expanding on the proven P500-Series, the P470 is significantly smaller than competing solutions and optimized to have best-in-class performance efficiency and area density.
The P470 was designed to also serve as a companion to the P670 processor for demanding applications that require a sharing of compute resources while optimizing power consumption.
The P470 offers a significant upgrade to legacy efficiency cores, achieving a maximum frequency exceeding 3.4GHz in 5nm, and greater than 8 SpecINT2k6/GHz, within a minimal area and power envelope.
Other P470 features include:
4x compute density in comparison to leading competitor
Includes 1x 128-bit RISC-V Vector ALU compliant with the ratified RISC-V Vector v1.0 specification
SiFive will also release the P450 – an area-optimized version of the P470 that excludes the Vector Unit.
A presentation highlighting the benefits of the new products will be made at the Linley Fall Microprocessor Conference later today.
As the pioneers who introduced RISC-V to the world, SiFive is transforming the future of compute by bringing the limitless potential of RISC-V to the highest performance and most data-intensive applications in the world. SiFive’s unrivaled compute platforms have enabled leading technology companies around the world to innovate, optimize and deliver the most advanced solutions of tomorrow across every market segment of chip design, including artificial intelligence, machine learning, automotive, data center, mobile, and consumer. With SiFive, the future of RISC-V has no limits.
Kaspersky | October 21, 2022
Today Kaspersky unveiled a new version of Kaspersky VPN Secure Connection, which introduces a dramatic 200% boost in VPN tunnel performance, compared to 2020. A split tunneling feature grants users the ability to prioritize secure connection traffic for certain services, while a VPN-for-routers capability automatically re-routes any connected device at home.
Global VPN usage is on the rise, with the market set to reach a colossal $77.1 billion by 2026. This comes as no surprise, since installing a VPN provides a quick and easy way to improve security and prevent data from falling into the wrong hands. It does this by routing data through an encrypted tunnel, which hides the IP address and makes it look as though the connection has come from elsewhere.
Alongside the performance increase, the updated Kaspersky VPN Secure Connection’s split tunnelling feature allows users to select exactly what traffic goes through the VPN. This will help to achieve better performance, letting the user prioritize high-bandwidth traffic, focus on data in sensitive apps and disable the VPN for other apps that might be reliant on location data.
The geography of servers within Kaspersky VPN Secure Connection has also been greatly increased, now offering 86 locations across 68 regions. This lets users access a wider range of content on the biggest global streaming services, including Netflix, Hulu, Amazon Prime, HBO Max, Disney+ and BBC iPlayer. An intuitive new function of the VPN helps customers to pick the best location for a particular task by recommending the one that provides the best performance level for either streaming or torrenting.
Additionally, the VPN for routers now allows all devices connected to home Wi-Fi to run through the VPN automatically, without having to setup each one individually. This feature is particularly useful for smart TVs, smart locks, and other smart home gadgets, on which a user cannot install a VPN directly, therefore providing uninterrupted privacy and security to these devices.
“As people continue to work from home and spend more time online, an increased importance is placed on keeping their data private as well as securing connected home devices,To support consumers with their needs, we’ve invested a lot into improvement of our Kaspersky VPN. As a result, consumers can experience boosted VPN tunnel performance, with a 200% increase compared to 2020. The VPN also sees new features and better UX to ensure speed, privacy and high performance across all home devices.”
Marina Titova, vice president, consumer product marketing at Kaspersky
Kaspersky is a global cybersecurity and digital privacy company founded in 1997. Kaspersky’s deep threat intelligence and security expertise is constantly transforming into innovative security solutions and services to protect businesses, critical infrastructure, governments and consumers around the globe. The company’s comprehensive security portfolio includes leading endpoint protection and a number of specialized security solutions and services to fight sophisticated and evolving digital threats. Over 400 million users are protected by Kaspersky technologies and we help 240,000 corporate clients protect what matters most to them.