LatticeSC and LatticeSCM FPGA Families Now Support RLDRAM I/II Rates up to 800Mbps
HILLSBORO, OR - SEPTEMBER 15, 2008 - Lattice Semiconductor Corporation (NASDAQ: LSCC) today announced industry-leading FPGA-based support for the Reduced Latency Dynamic Random Access Memory (RLDRAM®) I/II memory devices. The LatticeSC™ and LatticeSCM™ FPGA families (collectively, the “LatticeSC/M” families) now support RLDRAM I/II rates up to 800Mbps. The high-speed RLDRAM I and RLDRAM II memory controller IP (intellectual property) is implemented in Lattice’s unique, low power MACO™ (Masked Array for Cost Optimization) structured ASIC technology.
“We are pleased to announce the release of our industry-leading RLDRAM I/II memory controller IP,” said Chris Fanning, Lattice corporate vice president, enterprise solutions and marketing. “The high-speed RLDRAM I/II memory controllers round out our high performance embedded memory controllers portfolio, implemented using the low-power, high performance MACO technology in the LatticeSCM family. The RLDRAM I/II controllers provide our customers with the industry’s fastest programmable interface to Micron’s next generation RLDRAM I/II memory devices. The LatticeSCM MACO memory controllers are a low risk, proven solution that delivers a higher level of performance than other FPGA solutions, while also reducing time to market for our users: another example of Lattice's ‘More of the Best’ approach.”
About the LatticeSC/M FPGA Family
The Extreme Performance™ LatticeSC family is designed to provide the unsurpassed performance and connectivity that is essential for high-speed applications. Fabricated on Fujitsu’s 90nm CMOS process technology utilizing 300mm wafers, LatticeSC FPGAs are packed with features that accelerate chip-to-chip, chip-to-memory, high-speed serial, backplane and network data path connectivity.
Integrated into the LatticeSC devices are high-channel count SERDES blocks supporting 3.8Gbps data rates, PURESPEED™ parallel I/O providing industry-leading 2Gbps speed, innovative clock management structures, FPGA logic operating at 500MHz and massive amounts of block RAM. Lattice’s unique Masked Array for Cost Optimization (MACO) embedded structured ASIC blocks also are available on the LatticeSCM devices, delivering pre-engineered, standard-compliant IP functions such as high-speed Memory Controllers, SPI4.2, Ethernet MACs, and PCI Express control functions developed by Lattice to shorten end-system time to market.
About MACO Technology
Lattice’s unique Masked Array for Cost Optimization (MACO) embedded structured ASIC blocks are available on LatticeSCM FPGA devices and deliver pre-engineered, standard-compliant IP functions developed by Lattice to shorten end-system time to market. Unlike the soft IP cores commonly used with FPGAs, the MACO IP functions are embedded into the devices, and there is no distinct IP license fee associated with their use. These enhanced memory controllers provide the industry’s fastest programmable memory interfaces supporting next generation RLDRAM I/II memory devices, as well as DDR I/II and QDR II/II+ memory devices. Lattice’s ispLEVER® version 7.1 software design tool suite supports a complete HDL-based design and verification flow for LatticeSCM devices, as well as other Lattice leading-edge programmable device families.
About Lattice Semiconductor
Lattice Semiconductor Corporation provides the industry's broadest range of Programmable Logic Devices
), including Field Programmable Gate Arrays
), Complex Programmable Logic Devices
), Mixed-Signal Power Management
and Clock Generation Devices
, and industry-leading SERDES
Lattice continues to deliver "More of the Best" to its customers with comprehensive solutions for system design, including an unequaled portfolio of high-performance
, and low-cost
Lattice products are sold worldwide through an extensive network of independent sales representatives and distributors, primarily to OEM customers in communications, computing, industrial, consumer, automotive, medical and military end markets. For more information, visit http://www.latticesemi.com.