AMI Semiconductor Continues to Lead the Industry in FPGA-to-ASIC Conversions.Now Converting 90nm FPGAs From Xilinx and Altera POCATELLO, Idaho -- AMI Semiconductor, Inc. (NASDAQ NASDAQ in full National Association of Securities Dealers Automated Quotations U.S. market for over-the-counter securities. Established in 1971 by the National Association of Securities Dealers (NASD), NASDAQ is an automated quotation system that reports on :AMIS A·mis , Kingsley 1922-1995. British writer best known for his novels, including Lucky Jim (1954) and Jake's Thing (1978). ), a designer and manufacturer of state-of-the-art structured digital and integrated mixed-signal products, today announced the capability to convert 1.2 volt, 90nm FPGAs to 130nm cell-based ASICs. This competency supports OEMs moving from expensive, high-density FPGAs for prototyping to more cost-effective ASICs for production. AMIS is the first company to provide drop-in replacement components for Altera and Xilinx 90nm FPGAs targeting communications (wired and wireless telecom and datacom) and military/commercial avionics application-markets. AMIS ASICs match the core voltage, package and IP of the original FPGAs, reducing customer costs and power consumption as they move from prototype to production silicon. "Many design engineers select FPGAs for prototyping, but once their product is ready to move into production they find that conversion to cost-effective ASICs can be painful, time consuming and expensive. We are the partner that takes the pain out of FPGA-to-ASIC drop-in conversions with our flexible design interface and key IP functions," said Mike O'Neill, senior vice president of structured digital products at AMI Semiconductor. "Our customers are increasingly taking advantage of our hybrid design flow to combine FPGA (Field Programmable Gate Array) A type of gate array that is programmed in the field rather than in a semiconductor fab. Containing up to hundreds of thousands of gates, there are a variety of FPGA architectures on the market. sub-system prototypes with ASIC (Application Specific Integrated Circuit) Pronounced "a-sick." A chip that is custom designed for a specific application rather than a general-purpose chip such as a microprocessor. IP to create highly integrated ASIC solutions." AMI Semiconductor's standard cell product technology supports a wide range of I/O standards including SSTL SSTL Surrey Satellite Technology Ltd SSTL Stub Series Terminated Logic SSTL Site Specific Target Level SSTL Solid State Track Link , HSTL HSTL High-Speed Transceiver Logic (family of logic integrated circuits) HSTL High-Speed Transistor Logic (electronics) , LVPECL LVPECL Low Voltage Positive Emitter Coupled Logic , and LVDS (Low Voltage Differential Signaling) A transmission method for sending digital information. LVDS sends data over data high and data low lines rather than data and ground. . Memory compilers and register file memories with integrated BIST BIST - Built-in Self Test and redundancy support a wide range of sizes and applications. High-speed, low-jitter PLLs are integrated with clock-tree synthesis to support high-performance system operation. Advanced digital clock management functions employing DLL technology will complete the FPGA timing generator conversion capability. DDR2 PHYs and controllers interface to industry-standard off-chip memories. PCI-Express SerDes running at 2.5Gbps will be supported from the physical layer to the transaction layer via the PIPE interface. A full range of 32-bit processors and supporting peripherals are available to round out the product offering. Moving forward, the IP portfolio will grow to include Gigabit Ethernet, XAUI, USB USB in full Universal Serial Bus Type of serial bus that allows peripheral devices (disks, modems, printers, digitizers, data gloves, etc.) to be easily connected to a computer. 2.0, and other high-speed interfaces. In addition to supporting a traditional RTL design flow, inputs from a variety of sources can be accepted as well, including RTL designs and netlists targeting other ASIC and FPGA technologies. AMI Semiconductor's hybrid design flow includes full design for test (DFT) capability for at-speed test, memory BIST, timing-driven layout, clock-tree synthesis, and signal-integrity checking. For additional information on AMI Semiconductor's structured digital products, including its full line of standard cell, XLArray[TM] and XPressArray[R] product families, visit: http://www.amis.com/products/structured_digital/. About AMI Semiconductor AMI Semiconductor (AMIS) is a leader in the design and manufacture of silicon solutions for the real world. As a widely recognized innovator in state-of-the-art integrated mixed-signal products and structured digital products, AMIS is committed to providing customers with the optimal value, quickest time-to-market semiconductor solutions. Offering unparalleled manufacturing flexibility and dedication to customer service, AMI Semiconductor operates globally with headquarters in Pocatello, Idaho, European corporate offices in Oudenaarde, Belgium, and a network of sales and design centers located in the key markets of North America, Europe and the Asia Pacific region. |
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