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Lattice Will Showcase New 90nm FPGAs at the ESC Silicon Valley
Lattice Semiconductor announced that it will demonstrate its recently introduced 90nm LatticeSC high performance and LatticeECP2 low cost FPGAs at the Embedded Systems Conference Silicon Valley. Mixed signal devices for clock and power management, particularly well suited for embedded applications, will also be featured, as well as the LatticeMico8, an 8-bit soft microcontroller core and the Lattice ispLEVER software design tool suite.
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Lattice Semiconductor Delivers Industry Leading Performance With ispLEVER 6.0 Design Tools
Lattice Semiconductor Corporation (NASDAQ: LSCC) announced the immediate availability of its ispLEVER® 6.0 programmable logic design tool suite. Fully supporting the newest 90nm LatticeECP2™ High-Performance, Low Cost and LatticeSC™ Extreme Performance™ System Chip FPGA families, ispLEVER 6.0 boasts unprecedented performance and significant design flow enhancements. Key highlights of the ispLEVER 6.0 release include support for the industry's fastest 90nm FPGAs, the introduction of a new, highly integrated Design Planner interface, improved support for schematic FPGA design and an expanded library of IPexpress™ user-configurable IP cores.
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Lattice Extreme Performance Logic and Embedded SERDES Provide Timing Margin for High-Speed Interface Applications
Lattice Semiconductor announced that Intellectual Property (IP) provider Northwest Logic has ported its PCI Express product line, consisting of x1, x4 and x8 IP cores, to LatticeSC™ (System Chip) FPGA devices. A member of the Lattice ispLeverCORE™ Connection program, Northwest Logic is a leading supplier of PCI Express, PCI-X and PCI IP cores for chip-to-chip connectivity. Together, Lattice and Northwest Logic provide a complete range of PCI Express solutions, enabling designers to quickly implement PCI Express systems on LatticeSC devices.
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New Lattice 32-Bit Embedded Microprocessor Available Through Unique Open Source License
Lattice Semiconductor announced the immediate availability of the LatticeMico32™, a 32-bit soft microprocessor optimized for Lattice Field Programmable Gate Arrays (FPGAs). Lattice is releasing the Hardware Description Language (HDL) code of the microprocessor core and various peripheral components generated by the LatticeMico32 System, along with selected tools, in an open source format that provides visibility, flexibility and portability. The heart of the product is the LatticeMico32 System development tool suite, which provides a fast and easy way to implement microprocessor designs from platform definition to software development and debug. This flexible microprocessor will find application in a wide variety of markets including communications, consumer, computing, medical, industrial and automotive.
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Lattice Announces PCI Express Solutions for LatticeECP2M and LatticeSCM FPGAs
Lattice Semiconductor (NASDAQ: LSCC) announced the availability of new PCI Express Intellectual Property (IP) cores in its ispLeverCORE™ portfolio. A new PCI Express core optimized for the newly announced LatticeECP2M™ low-cost FPGA family implements a single-chip PCI Express x1 endpoint solution with integrated SERDES that is ideal for high-volume, low-cost and limited form-factor applications. New PCI Express x1 and x4 cores also are available for the LatticeSCM™ FPGA family, which are suitable for system applications requiring the highest integration and performance. The IP cores are available within the IPexpress™ flow supported by Lattice's ispLEVER® 6.0 Service Pack 1, or later, design tool suite.
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Lattice Announces LatticeECP2M FPGA Solution for PCI Express V1.1
Lattice Semiconductor (NASDAQ: LSCC) today announced the expansion of its PCI Express Intellectual Property (IP) core family within its ispLeverCORE™ portfolio. Lattice is adding a new PCI Express x4 IP core solution, optimized for the LatticeECP2M™ low-cost FPGA family. Like the previous PCI Express x1 IP core for LatticeECP2M devices, the x4 version implements a single-chip PCI Express endpoint solution with integrated SERDES that is ideal for high-volume, low-cost and limited form-factor applications.
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