The combination of multicore processors + FPGAs is not new. The industry has focused on the single-core processor + FPGA architecture of companies such as Elixent for nearly 10 years. Elixent was split by HP Labs and subsequently acquired by Panasonic. There are other examples, Xilinx has been providing integrated circuits for PowerPC plus FPGA architecture. But this concept has largely failed to continue. On the one hand, the development cost of the system-on-chip increases exponentially, so it is necessary to achieve a certain amount of production. In response, FPGAs are taking over the old semi-custom design market and are becoming the first choice for low-volume/high-value application development. But many of these applications require one or more processors and require low power consumption. So perhaps ARM and Xilinx believe that the era of multi-core processors plus FPGAs has come, they want to create standard integrated circuits that are both programmable hardware and software. Thinking from another perspective, the Xilinx architecture based on lookup tables (LUTs) has been around for 25 years. To be frank, it's too much for the many things that today's system architects have to do. The processor core is becoming the NAND gate/lookup table for next-generation field-programmable systems. Interestingly, the ARM-Xilinx announcement is very similar to the MIPS-Altera announcement. But the former is more strategic, after all, ARM and Xilinx are leaders in their respective markets. We will bring new coverage after getting more details. Xilinx, Inc., a global leader in programmable logic solutions, and ARM announced an official collaboration to apply ARM processors and interconnect technologies in Xilinx FPGAs. Xilinx has now adopted the ARM Cortex processor IP, leveraging a performance-optimized ARM digital cell library and embedded memory to support future programmable platforms. In addition, the two companies have jointly defined the next-generation ARM? AMBA® interconnect technology to enhance and optimize the FPGA fabric. The cooperation between the two companies means that Xilinx is committed to adopting full-line ARM technology and taking full advantage of the huge advantages of ARM processors to provide customers and ecosystem developers with a flexible computing platform, enabling their IP and software development to be more Share and reuse within a wide range. This will also allow the programmable solution to penetrate further into existing markets and expand into some of the newer market segments. The ideal applications will cover communications, automotive, consumer markets, aerospace, defense and industrial markets. Mr. Mike Muller, Chief Technology Officer (CTO) of ARM, said that “the shortening of time-to-market and the rising cost of product development have prompted the industry to develop a fusion processor-centric design approach and the openness of system-on-chip design. A standard, all-in-one product with programmable logic flexibility. Combining ARM's leadership in low-power, high-performance processors and physical IP technologies with the strength of its Connected CommunityTM ecosystem, coupled with Xilinx With the company's leading FPGA technology, we will be able to help software developers and hardware designers accelerate their development of applications." Nick Tredennick, technical analyst at Gilder Publishing, pointed out that "Xilinx uses ARM processor technology to provide a promising blueprint for FPGA architecture. The cooperation and common definition of the next generation of AMBA interconnection standards will provide the necessary Optimized design makes these new products ideal for system performance, integration, reuse, and scalability. This also provides a common technical foundation for the development, testing, exchange, and sharing of IP and system solutions. Will have a very profound impact on the future programmable logic industry." To help build a better ecosystem for Xilinx FPGA and ARM IP technologies, the two companies have long worked with a number of IP providers and EDA vendors, including Cadence, CAST, Denali, Mentor Graphics, Northwest Logic. , Omiino, Sarance, Synopsys, and Xylon to support advanced versions of the AMBA standard. The AMBA standard is an industry standard for on-chip fabric communication (TI) and maintains close links with ARM processors. This new interconnect not only simplifies and extends the capabilities of next-generation programmable platforms with the world's leading 32-bit processor IP, but the standard definition is consistent with the "pluggable IP" strategy of the Xilinx Targeted Design Platform strategy. . Because the ability to reuse IP is an essential part of reducing system development costs and time processes, this innovative plug-and-play approach means that Xilinx and its ecosystem-developed IP do not require users in terms of vendor support. With a huge investment, it can be easily used. “Using Xilinx's open, standards-based solutions, we will help our customers put more energy into their core solutions by using their own IP while reusing internal and/or ecosystem vendors' proven solutions. Solutions and differentiation.†Vin Ratford, senior vice president of global marketing and business development at Xilinx, said, “We also believe that this approach will foster a dynamic and thriving ecosystem. Ecosystems will continue to grow and provide standard and emerging IP solutions that can be applied to a wide range of industries." The AMBA protocol is the industry standard for on-chip organization communication, and specifies detailed implementation strategies for the interconnection and management of functional modules that make up a system-on-a-chip (SoC). The new collaboration with Xilinx has optimized the implementation of this protocol FPGA and proposed a new model that uses the processor alone or without a processor. The collaboration with ARM is consistent with the Xilinx Targeted Design Platform strategy announced earlier this year by Xilinx. At that time, Xilinx, a leader in the programmable logic industry, mapped the industry's leading FPGA technology, development board and standard IP development platform blueprint through the release of the target design platform strategy. A key component of the target design platform is the involvement of ecosystems, making it easy for mutual customers to test their product designs on a stable architecture. The adoption of AMBA and AXI® technology provides software and hardware designers with the stability of proven, widely adopted standards for IP module interconnects and embedded systems. Pond Fountain Pumps,Fountain Pump,Pond Water Pumps,Electric Fountain Pump Sensen Group Co., Ltd.  , https://www.sunsunglobal.com
Perhaps this ARM-Xilinx announcement is in response to the challenge of the UK XMOS Semiconductor Company to use the software chip to shake the market.