Altair welcomes Meridian Flight Systems to the Altair Aerospace Startup Acceleration Program (ASAP). Within ASAP, Meridian will utilize Altair’s software and services to enhance Corra UAV and HERMES project development.
“Meridian marks yet another fantastic addition to ASAP. We are excited to collaborate with them to push innovation in the development of heavy-lift UAVs,” said Pietro Cervellera, senior vice president of aerospace and defense, Altair. “With our world-class software and technical support, we look forward to seeing what technologies arise from the Corra and HERMES projects.”
“Joining ASAP marks a significant advancement in our mission to develop cutting-edge UAV and hybrid power technologies,” said Saïf-Deen Akanni, chief executive officer and chief technical officer, Meridian Flight Systems. “Altair’s best-in-class software solutions and technical expertise will be instrumental in optimizing the design and performance of the Corra UAV, while accelerating the development of the Hybrid Electric Range-extending Microturbine Energy System (HERMES) towards achieving airworthiness certification and operational readiness.”
Altair’s solutions and support will help Meridian improve design processes, conduct advanced simulations, and expedite the Corra UAV and HERMES projects from conception to certification and deployment. The collaboration’s key aspects include:
Comprehensive Software Access: Meridian will utilize Altair’s simulation and optimization software, encompassing aerodynamics, structural integrity, aeroelastics, and thermal systems.
Dedicated Technical Support: Altair will provide guidance to ensure application of its software in aerospace projects.
Collaborative Research Initiatives: Both companies will coauthor research papers and present at industry conferences, sharing insights and new data derived from the Corra UAV and HERMES projects.
Meridian will showcase how Altair’s simulation tools support the design, performance, and certification of the Corra UAV and HERMES projects. This partnership reflects a common goal of enhancing aerospace innovation through analysis, research based on data, and knowledge sharing.
About Altair
Altair Engineering Inc., founded in 1985 and headquartered in Troy, MI, is a global leader in computational science and AI. The company offers software and cloud solutions across various domains, including product development, high-performance computing (HPC), simulation, AI, and data analytics. Altair’s comprehensive, open-architecture platforms empower organizations to design more efficient and sustainable products and processes. Serving industries such as automotive, aerospace, and manufacturing, Altair has established itself as a key player in engineering and enterprise analytics. In 2024, Siemens announced its agreement to acquire Altair for $10.6 billion, aiming to strengthen its position in industrial software.
TROY, MI, Feb 6, 2025 – Altair announced new upgrades to Altair HPCWorks, its high-performance computing (HPC) and cloud platform. New tools and capabilities expand cloud scaling for Altair and 3rd party workload managers, integrate advanced monitoring and reporting, and beyond – including enhanced AI-enabled job scheduling and visualization with support for GPUs, Kubernetes, and machine learning workflows.
“As the number one solutions provider in HPC and cloud, our latest enhancements to Altair HPCWorks empower our customers with even more comprehensive capabilities to keep them at the forefront of computational intelligence,” said Sam Mahalingam, chief technology officer at Altair. “Having next-level HPC and cloud is imperative in today’s data- and AI-driven landscape. With the industry-leading Altair HPCWorks platform, our customers can push boundaries and realize their vision knowing they have the market’s most powerful HPC and cloud platform in their toolkit.”
Altair HPCWorks: Now Using Altair Units
Altair HPCWorks operates within the market’s gold standard Altair Units licensing system. With the Units system’s flexible, scalable, dynamic licensing, users can drive frictionless innovation. Enterprises can leverage Altair’s licensing system to seamlessly connect the Altair HPCWorks platform with the Altair One gateway to enable on-premises clusters, placing Altair’s technology portfolio, including simulation, HPC, and data analytics tools, at their fingertips.
Cloud Scaling for Any Scheduler
Altair’s latest solutions let enterprises easily access cloud resources without exceeding their budget. Users can work in the cloud, optimize a hybrid computing environment, or burst peak-time workloads — whether using an Altair workload manager, third-party scheduler, or a mix of both. Quickly scale up and down with our integrated cloud automation engine to save the team time and money and get a single, concentrated view into an organization’s HPC and cloud operations, even for multi-cloud and multi-cluster installations.
AI Integration and Streamlined Reporting
Power AI workloads with HPC — and HPC workloads with AI. The Altair HPCWorks platform’s new AI integrations simplify job submission and cut wait times, and integration with the Altair RapidMiner data analytics and AI platform gives users efficient scheduling. Altair HPC solutions are built to handle AI workloads, offering extensive support for GPUs and Kubernetes.
Every Altair workload manager includes built-in HPC and cloud monitoring and reporting. IT administrators can access detailed data to make smarter decisions and optimize computing resources.
Additional Highlights
The Altair HPCWorks suite offers enhanced security, better performance, and integration with Altair’s advanced data analytics tools. Designers and developers can manage complex workflows, including those involving AI and machine learning, and work in any modern programming language. It supports flexible scheduling for distributed workflows, and improved GPU scheduling helps cluster administrators speed up chip design processes and deliver results faster.
About Altair
Altair Engineering Inc., founded in 1985 and headquartered in Troy, Michigan, is a global leader in computational science and AI. The company offers software and cloud solutions across various domains, including product development, high-performance computing (HPC), simulation, AI, and data analytics. Altair’s comprehensive, open-architecture platforms empower organizations to design more efficient and sustainable products and processes. Serving industries such as automotive, aerospace, and manufacturing, Altair has established itself as a key player in engineering and enterprise analytics. In 2024, Siemens announced its agreement to acquire Altair for $10.6 billion, aiming to strengthen its position in industrial software.
Supermicro Ramps Full Production of NVIDIA Blackwell Rack-Scale Solutions with NVIDIA HGX B200.
SAN JOSE, CA, Feb 6, 2025 – Supermicro, Inc. has announced the production availability of its end-to-end AI data center building block solutions accelerated by the NVIDIA Blackwell platform. The Supermicro building block portfolio provides the core infrastructure elements necessary to scale Blackwell solutions with exceptional time to deployment. The portfolio includes a broad range of air-cooled and liquid-cooled systems with multiple CPU options. These include superior thermal design supporting traditional air cooling, liquid-to-liquid (L2L) and liquid-to-air (L2A) cooling. In addition, a full data center management software suite, rack-level integration, including full network switching and cabling and cluster-level L12 solution validation, can be delivered as a turn-key offering with global delivery, professional support, and service.
“In this transformative moment of AI, where scaling laws are pushing the limits of data center capabilities, our latest NVIDIA Blackwell-powered solutions, developed through close collaboration with NVIDIA, deliver outstanding computational power,” said Charles Liang, president and CEO of Supermicro. “Supermicro’s NVIDIA Blackwell GPU offerings in plug-and-play scalable units with advanced liquid cooling and air cooling are empowering customers to deploy an infrastructure that supports increasingly complex AI workloads while maintaining exceptional efficiency. This reinforces our commitment to providing sustainable, cutting-edge solutions that accelerate AI innovation.”
Supermicro’s NVIDIA HGX B200 8-GPU systems utilize next-gen liquid-cooling and air-cooling technology. The newly developed cold plates and the new 250kW coolant distribution unit (CDU) more than double the cooling capacity of the previous generation in the same 4U form factor. Available in 42U, 48U, or 52U configurations, the rack-scale design with the new vertical coolant distribution manifolds (CDM) no longer occupy valuable rack units. This enables 8 systems, comprising 64 NVIDIA Blackwell GPUs in a 42U rack, and all the way up to 12 systems with 96 NVIDIA Blackwell GPUs in a 52U rack.
The new air-cooled 10U NVIDIA HGX B200 system features a redesigned chassis with expanded thermal headroom to accommodate eight 1000W TDP Blackwell GPUs. Up to 4 of the new 10U air-cooled systems can be installed and fully integrated in a rack, the same density as the previous generation, while providing up to 15x inference and 3x training performance.
The new SuperCluster designs incorporate NVIDIA Quantum-2 InfiniBand or NVIDIA Spectrum-X Ethernet networking in a centralized rack, enabling a non-blocking, 256-GPU scalable unit in five racks or an extended 768-GPU scalable unit in nine racks. The architecture — purpose-built for NVIDIA HGX B200 systems with native support for the NVIDIA AI Enterprise software platform for developing and deploying production-grade, end-to-end agentic AI pipelines — combined with Supermicro’s expertise in deploying the world’s largest liquid-cooled data centers delivers exceptional efficiency and time-to-online for today’s most ambitious AI data center projects.
Liquid-Cooled or Air-Cooled: Supermicro NVIDIA HGX B200 Systems
Liquid-cooled NVIDIA HGX B200 Systems and Racks. Image: Supermicro
The new liquid-cooled 4U NVIDIA HGX B200 8-GPU system features newly developed cold plates and improved tubing design that further enhance the efficiency and serviceability of the predecessor that was used for the NVIDIA HGX H100/H200 8-GPU system. Complemented by a new 250kW cooling distribution unit, more than doubling the cooling capacity of the previous generation while maintaining the same 4U form factor, the new rack-scale design with the new vertical coolant distribution manifolds (CDM) enables denser architecture with flexible configuration scenarios used for various data center environments. Supermicro offers 42U, 48U, or 52U rack configurations for liquid-cooled data centers. The 42U or 48U configuration provides 8 systems and 64-GPU in a rack, and 256-GPU scalable unit in five racks. The 52U rack configuration allows 96-GPU in a rack and enables 768-GPU scalable unit in nine racks for the most advanced AI data center deployments. Supermicro also offers an in-row CDU option for large deployments, as well as liquid-to-air cooling rack solution that doesn’t require facility water.
Supermicro’s NVIDIA HGX B200 systems natively support NVIDIA AI Enterprise software to accelerate time to production AI. NVIDIA NIM microservices allow organizations to access the latest AI models for fast, secure, and reliable deployment on NVIDIA accelerated infrastructure anywhere – whether in data centers, the cloud or workstations.
For traditional data centers, the new 10U air-cooled NVIDIA B200 8-GPU system is also available, with a redesigned modular GPU tray to house the NVIDIA Blackwell GPUs in an air-cooled environment. The air-cooled rack design follows the proven, industry-leading architecture of the previous generation, four systems and 32 GPUs in a 48U rack, while providing NVIDIA Blackwell performance. All Supermicro NVIDIA HGX B200 systems are equipped with a 1:1 GPU-to-NIC ratio supporting NVIDIA BlueField-3 SuperNICs or NVIDIA ConnectX-7 NICs for scaling across a high-performance compute fabric.
Supermicro provides support for systems included in the NVIDIA-Certified Systems program. This program incorporates NVIDIA GPUs, CPUs, and high-speed, secure networking technologies into systems from leading NVIDIA partners, ensuring configurations that are validated for optimal performance, reliability, and scalability. By choosing an NVIDIA-Certified System, enterprises can confidently select hardware solutions to power their accelerated computing workloads. NVIDIA has certified Supermicro systems with NVIDIA H100 and H200 GPUs.
End-to-end Liquid-Cooling Solution for NVIDIA GB200 NVL72
Supermicro NVIDIA GB200 NVL72 SuperCluster features the new advanced in-rack coolant distribution unit. Image: Supermicro
Supermicro’s SuperCluster solution, based on the NVIDIA GB200 NVL72 system, represents a breakthrough in AI computing infrastructure, combining Supermicro’s end-to-end liquid-cooling technology. The system integrates 72 NVIDIA Blackwell GPUs and 36 NVIDIA Grace CPUs in a single rack, delivering exascale computing capabilities through NVIDIA’s most extensive NVLink network to date, achieving 130 TB/s of GPU communications.
The 48U solution’s versatility supports both liquid-to-air and liquid-to-liquid cooling configurations, accommodating various data center environments. Additionally, Supermicro’s SuperCloud Composer software provides management tools for monitoring and optimizing liquid-cooled infrastructure, delivering a complete solution from proof of concept to full-scale deployment.
End-to-end Data Center Solution and Deployment Services for NVIDIA Blackwell
From proof-of-concept (PoC) to full-scale deployment, Supermicro serves as a comprehensive one-stop solution provider with global manufacturing scale, delivering all necessary components, data center-level solution design, liquid-cooling technologies, networking solutions, cabling, management software, testing and validation, and onsite installation services. Its in-house liquid-cooling ecosystem offers a complete, custom-designed thermal management solution, featuring optimized cold plates for GPUs, CPUs, and memory modules, along with versatile coolant distribution unit form factors and capacities, manifolds, hoses, connectors, cooling towers, and sophisticated monitoring and management software. With production facilities across San Jose, Europe, and Asia, Supermicro offers unmatched manufacturing capacity for liquid-cooled rack systems, ensuring timely delivery, reduced total cost of ownership (TCO) and environmental impact, and consistent quality.
About Super Micro Computer, Inc.
Super Micro Computer Inc., or Supermicro, is a leading provider of high-performance server technology and green computing solutions. Founded in 1993 by Charles Liang and Sara Liu, the company is headquartered in San Jose, California. Supermicro offers a complete range of products, including servers, storage systems, networking devices, and server management software, serving industries such as enterprise data centers, cloud computing, artificial intelligence, 5G, and edge computing. As of June 2023, the company employs approximately 5,126 individuals globally. In the fiscal year 2024, Supermicro reported revenues of approximately $15 billion, reflecting significant growth driven by its innovative solutions and expanding market presence.
PITTSBURGH, PA, Feb 5, 2025– Ansys 2025 R1 features refined digital engineering-enabling technologies that integrate with existing infrastructure, minimizing disruption and empowering teams to collaborate on innovative products. Powered by AI, cloud computing, GPUs, and HPC, Ansys R1 enhancements support faster decisions, collaborative decision-making, wider design explorations, and shorter product design times.
“Ansys 2025 R1 offers more integration capabilities than ever, helping teams carve a digital path through the entire lifecycle of a product, with tools and solutions to help expertly manage data pre- and post-development,” said Shane Emswiler, senior vice president of products at Ansys. “This release highlights that our solutions can serve as guideposts, helping disconnected teams stay the course and work collaboratively from a single, accessible source of truth. This not only significantly cuts costs, but it also accelerates time-to-market, which helps our customers stay competitive.”
Advanced Physics Solvers
Ensuring product performance begins with understanding the multiphysics involved, from the components to the system. The latest release from Ansys highlights new products and capabilities that deliver fast, high-fidelity, physics-based results, helping teams make informed decisions earlier in the design cycle:
Accurate thermal management simulation. Image: Ansys
Ansys Discovery 3D simulation software significantly expands thermal modeling with the addition of electrothermal analysis, orthotropic conductivity, and internal fans while maintaining speed and ease of use
The structural analysis suite features an integrated solution for noise, vibration, harshness (NVH), delivering 10x faster frequency response function (FRF) calculator, vibro-acoustics mapping, optimized meshing, and mode contribution analysis
Ansys Electronics connects to other Ansys software products, enabling improved meshing that is crucial for 3D integrated circuits, automated workflow capabilities, and boosted simulation performance
A new Polymer FEM product utilizes high-fidelity models to capture real-world materials behavior, addressing customers’ evolving materials simulation requirements
“The Ansys platform offers key advantages for Firefly as we rapidly innovate to support responsive space services,” said Brigette Oakes, vice president of engineering at Firefly Aerospace. “CFD is one area where Ansys shines – Fluent accurately models combustion dynamics and complex thermal interactions in our engine designs. Its integration of thermal and structural analysis simplifies workflows, and its user-friendly interface and responsive support team make it a critical tool for a fast-paced company like ours.”
Cloud, HPC and GPUs
Cloud computing, HPC, and GPUs are speeding up how modern products are developed. Key features like accessibility, interoperability, and scalability drive this progress, enabling users to move beyond traditional desktop tools and collaborate on more innovative products. Ansys R1 introduces improvements to its GPU solvers and adds web-based, on-demand features for multiple applications:
New use cases for the Fluent GPU solver Image: Ansys
The Ansys Fluent multi-GPU fluid simulation solver supports applications with large mesh cell counts, such as automotive external aerodynamics. This enables designers to include more variables to improve accuracy without compromising simulation speedAnsys CFD HPC Ultimate is a new product that enables enterprise-level CFD capabilities for one job on multiple CPU cores or GPUs without the need for additional HPC licenses
New GPU-accelerated simulations in Ansys Lumerical FDTD advanced 3D electromagnetic simulation software uses 50% less GPU memory and provides a 20% reduction in meshing time compared to CPUs
The Ansys Mechanical GPU-accelerated direct structural finite element analysis solver is up to 6x faster than alternative solutions and the iterative solver is 6x faster than CPU-only versions
Ansys Cloud Burst Compute with Discovery empowers designers to solve 1,000 design variations in 10 minutes. Parametric studies in Discovery are accelerated by 100x or more by leveraging NVIDIA GPUs
The Ansys Cloud Burst Compute capability provides elastic, flexible, on-demand HPC capacity for Ansys Mechanical, Fluent, and Ansys HFSS high-frequency electromagnetic simulation software
Artificial Intelligence
Ansys is expanding its tools with AI-powered technologies to improve speed, innovation, and usability in CAE industry. Its AI technology helps teams process new or existing data to evaluate designs in minutes, train custom AI models within minutes, accelerate product development, and and reduce costs:
AC magnetics (Eddy current) A-Phi solver Image: Ansys
Ansys has developed an intuitive, interactive tool to streamline data preparation for SimAI modeling
SimAI allows users to expand the training data to gain insight during post-processing, such as honing analysis around a specific component within a larger design
Ansys Electronics AI+ uses AI-driven techniques to predict resources and runtime for electronics simulations in Ansys Maxwell advanced electromagnetic field solver, Ansys Icepak electronics cooling simulation software, and HFSS
Advanced synthetic radar simulation within Ansys RF Channel Modeler high-fidelity wireless channel modeling software empowers the digital mission engineering community with a comprehensive training and validation dataset for ground-based AI target identification
“Ansys’ industry-leading simulation solutions will help drive Vertiv’s business model as we design solutions for the future,” said Steve Blackwell, vice president of engineering at Vertiv. “Our mission is to revolutionize the way the world conceptualizes and develops data centers — from cooling and power technologies through implementing AI in the design of the data center itself. With Ansys, we will more quickly meet critical milestones that will help us deliver the most optimal infrastructure to support our customers’ AI-based projects with energy-efficient and reliable future-forward designs.”
Connected Ecosystem
Cutting-edge R&D involves design methods like model-based systems engineering (MBSE) and automation to maintain efficient workflows. Ansys tools are flexible and scalable, allowing easy integration of new technologies into current infrastructure without disrupting product design. The Ansys 2025 R1 release includes updates that improve MBSE features and data management, simplifying the shift to digital processes:
Ansys ModelCenter MBSE software and SAM support SysML v2, allowing enhanced product designs. This update improves team collaboration and makes product requirements simpler to access and use across engineering organization, saving time and boosting productivity.
ModelCenter now has improved MBSE connectivity for better compatibility, including an enhanced Capella connector and deeper integration with Ansys SAM for intuitive search, save, and modification
Ansys Minerva simulation process and data management software generic connector improvements help reduce the time and cost of implementation by standardizing how external data is brought into Minerva, allowing users to verify and resolve any conflicts before uploading. The connector also helps improve engineer productivity with new asynchronous job launch capabilities
Additional R1 Announcements also Include:
Unified CAD, CAE and PLM experience Image: Ansys
Ansys optiSLang process integration and design optimization software include enhancements across interfaces, distributed computing, and more advanced algorithms, adding flexibility and performance to the design workflow
Ansys Granta Materials Intelligence (MI) product collection’s integrations with CAE, computer-aided design, and product lifecycle management software now feature a unified user experience between the Granta end-user interface and the integration interfaces
Task-based performance improvements made to the fault tolerant meshing and watertight meshing workflows in Fluent improve meshing speeds
Ansys PowerX, a new tool for power field-effect transistor (FET) and power management integrated circuit (PMIC) analysis, simulation, and optimization.
About Ansys
Ansys, founded in 1970, specialized in engineering simulation software. It offers a comprehensive suite of tools for structural analysis, fluid dynamics, electromagnetic field simulation, and more, enabling industries to design and test products virtually. Ansys software has enabled innovators across industries to push boundaries by using the predictive power of simulation. Serving sectors such as aerospace and defense, automotive, energy, industrial equipment, materials and chemicals, consumer products, healthcare, and construction, Ansys supports innovation across diverse fields. As of 2023, the company reported annual revenues exceeding $2.3 billion and employed over 6,200 people worldwide. Headquartered in Canonsburg, Pennsylvania, Ansys continues to advance engineering simulation technologies, empowering organizations to enhance product development processes.
TROY, MI, Jan 31, 2025 – Altair has named Sistemi HS as a channel partner for Italy. Sistemi HS will offer Altair’s comprehensive portfolio of electronics, data analytics, and simulation solutions to customers throughout Italy.
“Altair’s mission is to help customers transform their businesses by leveraging world-leading computational intelligence,” said Kimon Afsaridis, managing director of Eastern Europe and vice president of indirect EMEA sales, Altair. “By partnering with Sistemi HS, we further expand our reach in Italy and provide even more organizations with advanced technologies that accelerate innovation and drive meaningful outcomes.”
“We are thrilled to announce our partnership with Altair strengthening our commitment to delivering cutting-edge technology solutions,” said Domenico Condelli, general manager, Sistemi HS. “This collaboration helps us combine our expertise with Altair’s best-in-class technologies, creating exceptional value for our clients and driving digital transformation across key industries.”
About Altair
Altair Engineering Inc., founded in 1985 and headquartered in Troy, Michigan, is a global leader in computational science and AI. The company offers software and cloud solutions across various domains, including product development, high-performance computing (HPC), simulation, AI, and data analytics. Altair’s comprehensive, open-architecture platforms empower organizations to design more efficient and sustainable products and processes. Serving industries such as automotive, aerospace, and manufacturing, Altair has established itself as a key player in engineering and enterprise analytics. In 2024, Siemens announced its agreement to acquire Altair for $10.6 billion, aiming to strengthen its position in industrial software.
About Sistemi HS
Sistemi HS, is an Italian system integrator headquartered in Collegno, Italy. The company specializes in providing IT infrastructure and managed services to a diverse clientele, including large corporations, small and medium-sized enterprises, professional firms, and public administration. Their offerings encompass servers, storage solutions, software, networking, security, cloud services, connectivity, and telecommunications. Sistemi HS has formed strategic partnerships with leading global IT vendors and holds significant certifications, such as being a Platinum Partner with HP and Hewlett Packard Enterprise for over two decades. As of recent data, the company employs approximately 200 individuals.
SANTA ROSA, CA, Jan 29, 2025 – Keysight Technologies has announced the Low-Power Double Data Rate 6 (LPDDR6) design and test solution, a complete design and test solution to support the next technology wave for memory systems. The solution improves device and system validation, providing new test automation tools necessary for advancing AI, especially in mobile and edge devices.
Keysight comprehensive LPDDR6 test solution including UXR0334B 33 GHz real-time oscilloscope and high-performance BERT M8040A. Multiple configurations are available to suit customer needs depending on the use case and performance needs. Image: Business Wire
The memory market is evolving due to the rising demand for high-performance computing, AI, and energy-efficient mobile applications. LPDDR6 enhances performance and efficiency to support next-generation compute system requirements, making it a crucial upgrade for contemporary devices.
Test complexity has increased with the use of next-gen memory devices like LPDDR6, HBM4, and GDDR7. These technologies require precise testing methods to ensure they perform reliably. Balancing faster test times with accurate results remains a key challenge.
Keysight’s complete workflow solution consists of transmitter and receiver test applications and the Advanced Design System (ADS) Memory Designer workflow solution. The LPDDR6 test solution can be paired with Keysight EDA software and the Keysight Memory Designer bundle to achieve faster design confidence from simulation to verification and test. The LPDDR6 test automation solution is based on Keysight’s UXR oscilloscope and high-performance M8040A Bit Error Ratio Tester.
LPDDR6 is expected to influence more than just mobile devices. Its mix of high performance and power efficiency makes it suitable for AI and machine learning applications, digital computing, automotive technology, data centers, and other edge applications. These areas demand a careful balance between processing speed and power consumption.
Key Benefits of Keysight’s LPDDR6 Test Solution:
Accelerate Time-to-Market with Advanced Transmitter Testing
Reduce validation time with automated compliance testing and characterization
Capture measurements using industry-leading low-noise technology
Debug design issues with streamlined data analysis tools
Analyze device BER performance with extrapolated eye mask margin testing
Achieve signal measurements directly from BGA packages with de-embedding capabilities
Optimize Device Performance with Comprehensive Receiver Testing
Validate designs using proven Bit Error Ratio testing methodology
Pinpoint performance issues by testing against multiple jitter, crosstalk, and noise scenarios
Maximize signal integrity through BER analysis and receiver equalization optimization
Ensure interoperability with both device and host controller validation
Deliver Next-Generation Memory Solutions
Enable faster user experiences with data rates support
Extend battery life and reduce power consumption in mobile and data center applications
Build more products with enhanced data integrity and system stability features
Dr. Joachim Peerlings, vice president and general manager, network and datacenter solutions, Keysight, said, “As a leader in memory design and test solutions, Keysight continues to collaborate with JEDEC to develop the LPDDR6 standard. This new LPDDR6 standard is set to revolutionize the market, offering unprecedented speed, efficiency, and reliability, enabling the industry’s AI Edge rollout. As the deployment and use of next-generation memory devices are growing, Keysight has achieved a significant milestone in enabling faster time to market for LPDDR6 memory designs.”
About Keysight Technologies
Keysight Technologies, established in 2014 as a spin-off from Agilent Technologies, is a leading provider of electronic design and test solutions. Headquartered in Santa Rosa, California, the company offers a portfolio of hardware and software products, including oscilloscopes, signal generators, and electronic design automation (EDA) software. The solutions serve industries, such as telecommunications, aerospace and defense, automotive, energy, semiconductor, and general electronics. As of 2024, Keysight employs approximately 15,500 people and reported annual revenue of $5.0 billion. The company’s global presence spans the Americas, Europe, and Asia Pacific, supporting over 30,000 customers in more than 100 countries. Keysight is known for driving innovation, with over 3,800 patents and a focus on research and development.
