Networking devices allow for high speed communication between hardware blocks at multiple levels.
Hardware levels that utilize network include computers, chips, and logic blocks within a chip to connect and communicate with efficiency. LAN, MAN, and WAN are the three major types of high level networks designed to operate over large areas. One standard for wired networks in these domains is IEEE 802.3 (Ethernet).
With today’s technologies many types of networks also exist at the chip and board level. XtremeEDA has expertise in Network on a chip (NOC), which is a router-based packet switching network between SoC modules.
XtremeEDA works in designing and verifying complex ASIC/SoC’s in a variety of networking devices, including Repeaters, Routers, Switches, Hubs, Bridges and NICs and I/O interconnect PCIe used in Cloud, Data Center, and Edge applications.
Wireless networks have standardized under IEEE 802.11 (Wi-Fi), which specifies the set of Media Access Control (MAC) and Physical Layer (PHY) protocols for implementing Wireless Local Area Network (WLAN) computer communication.
XtremeEDA works in designing and verifying complex ASIC/SoC’s in a variety of wireless networking devices, utilizing IEEE standards 802.11, 802.11a, 802.11b/g/n, 802.11ac (Wi-Fi 5) and 802.11ax (Wi-Fi 6).
Cloud computing is the delivery of different services through the Internet. These resources include tools and applications like data storage, servers, databases, networking, and software.
Rather than keeping files on a proprietary hard drive or local storage
device, cloud-based storage makes it possible to save them to a remote
database. If an electronic device has access to the web, it has access to
the data and the software programs to run it.
XtremeEDA’s significant experience with design of complex processor
ASIC/SoC’s allows us to make a huge impact in high-end compute
Embedded Systems require an integrated system that is formed as a combination of computer hardware and software for a specific function. An
embedded system can be a part of or make up a complete SoC. A system can consist of any number or type of CPUs set up in a homogeneous or heterogeneous fashion.
XtremeEDA engineers continue to gain deep Embedded System knowledge and experience including custom hardware, software, and firmware. Embedded systems can target low power, high speed, small footprint design, or any combination of those attributes, and others. XtremeEDA engineers
have expertise with embedded system architecture, design, verification, and whole chip implementation, in both ASIC and FPGA technologies.
Artificial Intelligence (AI) combines computer based neural networking and robust datasets, to enable problem-solving. It also encompasses sub-fields of machine learning and deep learning. These disciplines consist of AI algorithms which seek to create systems which make predictions or classifications based on input data.
AI allows organizations to make better decisions, improving core business processes by increasing both the speed and accuracy of strategic decision-making processes, data recognition.
XtremeEDA has helped clients design and verify complex ASIC/SoCs used in the AI domain.
The Aerospace and Defense Industry (A&D) comprises of manufacturers who develop spacecraft and aircraft for the military aircraft, commercial aircraft, tanks, missiles, and other weapon related equipment.
XtremeEDA continues to develop ASICs/SoCs and FPGAs for several of the world’s largest defense contractors. The projects have ranged from Satellite Systems to Aviation.
Synopsys, Inc. (Nasdaq:SNPS) provides products and services that accelerate innovation in the global electronics market. As a leader in electronic design automation (EDA) and semiconductor intellectual property (IP), Synopsys’ comprehensive, integrated portfolio of system-level, IP, implementation, verification, manufacturing, optical and field-programmable gate array (FPGA) solutions help address the key challenges designers face such as power and yield management, system-to-silicon verification and time-to-results. These technology-leading solutions help give Synopsys customers a competitive edge in quickly bringing the best products to market while reducing costs and schedule risk. For more than 25 years, Synopsys has been at the heart of accelerating electronics innovation with engineers around the world having used Synopsys technology to successfully design and create billions of chips and systems. The company is headquartered in Mountain View, California, and has approximately 90 offices located throughout North America, Europe, Japan, Asia and India.
asicNorth was established in January 2000 with one purpose in mind: deliver the highest quality design services possible. In an industry that can be quite volatile at times, it is important to have a design partner that you can depend upon to deliver the skills you need when you need them. A project can only be successful if there are:
Top quality skills on the team
Communication with the customer
Attention to detail
Focus on the schedule
Today, asicNorth is enabling high-tech industry leaders and startups alike with a combination of digital, analog, and mixed-signal design capabilities. Driven to produce successful results, asicNorth is Making Chips Happen™.
Codasip delivers leading-edge RISC-V processor IP and high-level processor design tools, providing IC designers with all the advantages of the RISC-V open ISA, along with the unique ability to customize the processor IP. As a founding member of RISC-V International and a long-term supplier of LLVM and GNU-based processor solutions, Codasip is committed to open standards for embedded and application processors. Formed in 2014 and headquartered in Munich, Germany, Codasip currently has R&D centers in Europe and sales representatives worldwide. For more information about our products and services, visit www.codasip.com. For more information about RISC-V, visit www.riscv.org.
Founded in 1999, Avery Design Systems, Inc. enables system and SOC design teams to achieve dramatic functional verification productivity improvements through the use of
Formal analysis applications for RTL and gate-level X verification;
Robust Verification IP for PCI Express, USB, AMBA, UFS, MIPI, DDR/LPDDR, HBM, HMC, ONFI/Toggle, NVM Express, SCSI Express, SATA Express, eMMC, SD/SDIO, Unipro, CSI/DSI, Soundwire, and CAN FD standards.
The pace of innovation in electronics is constantly accelerating. To enable our customers to deliver life-changing innovations to the world faster and to become market leaders, we are committed to delivering the world’s most comprehensive portfolio of electronic design automation (EDA) software, hardware, and services.