ADDING MULTIMEDIA: AMI Semiconductor Launches XPressArray-II for Conversion of High-Density FPGAs and Design of Mid-Density ASICs.POCATELLO, Idaho -- Newest Addition to XPressArray(TM) Family Improves Performance, Reduces Costs and Shortens Time-to-Market AMI Semiconductor (Nasdaq: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 its XPressArray-II(TM) (XPA-II) product, the newest addition to the market leading XPressArray structured ASIC family. Based on a hybrid fabrication process, XPA-II combines advanced 0.15-micron TSMC TSMC Taiwan Semiconductor Manufacturing Company, Ltd TSMC Taiwan Semiconductor Manufacturing Corporation TSMC Traffic Systems Management Center TSMC Toll Station Management Controller TSMC Transportation Supply Maintenance Command TSMC Technical Services Manager Code process technology with programmable metal in AMI Semiconductor's state-of-the-art manufacturing facility to deliver leading-edge solutions with low NRE (Non-Recurring Engineering) Refers to the cost of creating a new product, which is paid up front. Contrast with "production cost," which is ongoing and based on the quantity of material produced. and accelerated time-to-market. The 1.5V/1.2V XPA-II product is a high performance, low power, low cost, drop in, pin-for-pin replacement for current generation FPGAs. In addition, the low NRE and accelerated manufacturing cycle times make it an ideal platform for mid-density 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. design. The advanced engineering behind XPA-II makes it an optimal solution for applications such as wireless and wired networking infrastructure, storage systems, printers, medical ultrasound/imaging systems, military/aerospace communications or any other application utilizing FPGAs or ASICs. XPA-II is a flexible, high-performance, feature packed platform that supports densities of up to 3.9M ASIC gates, delay-locked loops (DLL (1) See data link layer. (2) (Dynamic Link Library) An executable program module in Windows that performs one or more functions at runtime. DLLs are not launched by the user; they are called for by an executable program or by other DLLs. ), phase-locked loops (PLL), local clock speeds of up to 500MHz, and system clock speeds of up to 210MHz based on single-cycle 18x18bit multiplier performance for DSP applications. Flexible, high-density memories are critical to many designs and the XPA-II platform delivers in the form of 18Kbit initializable dual-port RAM blocks that can be configured to provide a total of 415Kbits to 5.6Mbits of block and distributed memory. Flexibility is also a key advantage of the XPA-II I/O technology that includes fully configurable signal, core and I/O power supply pad locations and support for a wide range of I/O standards, including PCI (1) (Payment Card Industry) See PCI DSS. (2) (Peripheral Component Interconnect) The most widely used I/O bus (peripheral bus). , PCI-X (PCI eXtended) An enhanced PCI bus technology originally developed by IBM, HP and Compaq that is backward compatible with existing PCI cards. PCI and 32-bit PCI-X slots are physically the same, and PCI cards can plug into PCI-X slots. , Mode 1 and Mode 2, GTL, HSTL HSTL High-Speed Transceiver Logic (family of logic integrated circuits) HSTL High-Speed Transistor Logic (electronics) , SSTL SSTL Surrey Satellite Technology Ltd SSTL Stub Series Terminated Logic SSTL Site Specific Target Level SSTL Solid State Track Link and LVPECL LVPECL Low Voltage Positive Emitter Coupled Logic . The I/O technology also features a double data rate (DDR) memory interface and 1Gbps low-voltage differential signalling (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. ). All of these features are available in a platform that supports power dissipation of just 55nW/MHz/gate, reducing total chip power consumption to less than 20 percent of a standard 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. . "Structured digital products have shown significant traction in the semiconductor marketplace because they simply offer better cost, performance and power than FPGAs and quicker time-to-market than cell-based solutions," said Vince Hopkin, vice president, AMI Semiconductor, structured digital products. "XPressArray-II builds on the success of our proven conversion technology and allows customers to realize lower production costs and faster time-to-market than alternative solutions, providing the best value on the market. AMIS was the first to produce a 1.8V structured digital product and is committed to continuing to deliver strong products, like XPA-II." "AMI Semiconductor will have great success with its XPressArray-II product, especially since it offers fairly high gate counts and memory content and is one of the few pin-to-pin compatible structured ASICs designed for FPGA conversion," said Rich Wawrzyniak, senior analyst, ASIC - SoC for Semico Research Corp. "These are things the market is coming to value more and more as time passes." XPA-II supports the trend toward a lower cost solution for custom digital logic with pricing projected at $25-$100 for 10,000 units per year, dependent on density and pin-count. Beta customer support has already begun with full production expected in Q1, 2005. Delivery from start to finish is 10-16 weeks with prototyping in the three-five week range depending upon the package design. For additional information about XPressArray-II, please contact your local sales representative at www.amis.com/sales or at www.amis.com/asics/structured_asics/XPA-II.html. 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, mixed-signal foundry services 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 the United States, Europe and the Asia Pacific region. |
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