Lattice Semiconductor Announces Automotive Versions of its Flash-Based, Non-Volatile FPGA Family
New Generation Automotive Device Family Provides System-On-Chip Functionality, High Performance, Low Power and “Instant-On” Enhanced Non-Volatility
HILLSBORO, OR – JUNE 30, 2008 – Lattice Semiconductor Corporation (NASDAQ: LSCC) today announced that automotive versions of its non-volatile 90nm Flash-based LatticeXP2™ FPGAs (Field Programmable Gate Array) have been characterized and qualified to meet the certification requirements of the AEC-Q100 standard as defined by the Automotive Electronics Council (AEC). Designated the LA (“Lattice Automotive”)-LatticeXP2 family, these production released devices join Lattice's four previously announced automotive LA versions of the MachXO™ Crossover Programmable Logic Devices, ispPAC®-POWR1014/A Programmable Power Manager Devices, ispMACH® 4000V and ispMACH 4000Z CPLDs. Production quantities of the new LA-LatticeXP2 devices will be available by the fourth quarter of 2008, and Lattice can provide standard PPAP (Production Part Approval Process) documentation now to automotive customers who require it.
An Expanding Commitment to the Automotive Market
“The automotive market’s appetite for programmable logic solutions continues to grow rapidly. Lattice has provided commercial, industrial and automotive grade programmable logic products to the automotive industry for many years, and our programmable devices are used in many applications, ranging from Engine Control Units to Network Gateways, Video Camera Systems, Telematics and Digital Radio,” said Stan Kopec, corporate vice president of marketing. "The LA-LatticeXP2 devices, with Flash boot memory and FPGA blocks integrated into a single die, are uniquely suited for ‘instant-on’ automotive systems, and can be reprogrammed in the vehicle (‘in-system’) for easy feature upgrades. Reliability-conscious customers will appreciate unique LA-LatticeXP2 features such as “golden configuration” boot redundancy and continuous SRAM scanning and recovery. Our Lattice Automotive products, and our initiative to certify our quality systems to the ISO/TS-16949 standard, demonstrate our ongoing and expanding commitment to serve our customers in the automotive industry.”
About LA-LatticeXP2 Devices
The LA-LatticeXP2 automotive FPGA family includes three members, with capacities from 5K to 17K 4-input Look Up Tables (LUTs). Embedded Block RAM is provided with up to 276Kbits on-chip in 18Kbit dual-port blocks. For small scratch pad memories, LUTs also can be converted into small, distributed memory blocks. To support increasingly common DSP applications, up to 5 sysDSP™ blocks provide hardwired, high-performance pipelined multiply and accumulate functions. The devices have up to four Phase Locked Loops (PLLs) that allow designers to align and synthesize clocks as required in their designs.
Recognizing that power consumption is a critical concern for system designers, Lattice designed the LA-LatticeXP2 family to use a 1.2-volt core voltage for low power consumption. I/O capacities for the family range from 86 to 358 pins. Flexible I/O buffers support the most popular I/O standards, including LVCMOS, SSTL, HSTL and LVDS. These buffers are supported by pre-engineered I/O logic that simplifies the implementation of Double Data Rate (DDR) and source synchronous standards. This combination provides support for DDR2 memory interfaces at 400Mbps, high performance ADC/DACs at up to 750Mbps and 7:1 LVDS display interfaces at above 600Mbps. LA-LatticeXP2 devices are available in thin Fine Pitch Ball Grid Array (ftBGA) packages as well as popular TQFP and PQFP options.
flexiFLASH Architecture Enables Enhanced Non-Volatile Single Chip Solution
Flash memory blocks are embedded within LA-LatticeXP2 FPGAs to store the device configuration, providing a true single chip solution that Lattice calls the flexiFLASH™ architecture. At power up or on user command, the data stored in the Flash memory is transferred into SRAM cells that control the configuration of the device. This transfer is done in a massively parallel fashion, enabling the device logic to be available in approximately 1mS, well ahead of the other devices in the system and much faster than SRAM-based FPGAs that use external boot PROMs, regardless of whether they are provisioned separately on-board or stacked in the same package. This instant-on capability is critical for many system functions such as power up sequencing, address decoding and reset logic.
By keeping the configuration bitstream on-chip, the LA-LatticeXP2 devices also are inherently more secure than alternative multiple device or multi-chip module solutions. This security is enhanced by configuration read-back protection modes. A 64-bit erase/program lock protects against accidental or unauthorized device programming. A one time programmable (OTP) mode is provided for ultimate protection against unauthorized programming. Optional 128-bit AES encryption can be used to secure programming data being passed into the device.
The devices also support up to 276Kbits of FlashBAK™ memory. This exclusive capability allows Embedded Block RAMs to be initialized at power up from Flash memory. During device operation, designers also can choose to write updated data from the block RAM back into the Flash memory. This provides a method to store data such as Power On Self Test (POST), microprocessor code and calibration data. An additional 0.6 to 2.2Kbits of Flash memory is provided in the form of Serial TAG memory for general-purpose use by system designers for storage of device revision data, board identifiers and other data.
Availability and Pricing
Samples of the LA-LatticeXP2 family 5K and 8K LUT devices in 144 TQFP and 256ftBGA, and of the 17K LUT device in the 256ftBGA package, are available now, with 208-PQFP package options available in the third quarter of 2008. The LA-LatticeXP2-5 in the 144 TQFP package will be priced as low as $4.50 in 100,000 unit quantities for delivery in the first half of 2009.
About Lattice Semiconductor
Lattice Semiconductor Corporation provides the industry's broadest range of Programmable Logic Devices (PLD), including Field Programmable Gate Arrays ( FPGA), Complex Programmable Logic Devices (CPLD), Mixed-Signal Power Management and Clock Generation Devices, and industry-leading SERDES products.
Lattice continues to deliver "More of the Best" to its customers with comprehensive solutions for system design, including an unequaled portfolio of high-performance, non-volatile, and low-cost FPGAs.
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.
|
Related News
- Lattice Semiconductor Announces Industry's First True 90nm Non-volatile FPGA Family
- Lattice Introduces New Secure Control FPGA Family with Advanced Crypto-Agility and Hardware Root of Trust
- Lattice Certus-NX FPGAs Optimized for Automotive Applications
- InterMotion Technology boosts IP verification productivity for Lattice Semiconductor's CrossLink FPGA family using Aldec's Active-HDL
- Magewell Selects Lattice Semiconductor ECP FPGA Family For Video Capture Devices
Breaking News
- Ubitium Debuts First Universal RISC-V Processor to Enable AI at No Additional Cost, as It Raises $3.7M
- TSMC drives A16, 3D process technology
- Frontgrade Gaisler Unveils GR716B, a New Standard in Space-Grade Microcontrollers
- Blueshift Memory launches BlueFive processor, accelerating computation by up to 50 times and saving up to 65% energy
- Eliyan Ports Industry's Highest Performing PHY to Samsung Foundry SF4X Process Node, Achieving up to 40 Gbps Bandwidth at Unprecedented Power Levels with UCIe-Compliant Chiplet Interconnect Technology
Most Popular
- Cadence Unveils Arm-Based System Chiplet
- CXL Fabless Startup Panmnesia Secures Over $60M in Series A Funding, Aiming to Lead the CXL Switch Silicon Chip and CXL IP
- Esperanto Technologies and NEC Cooperate on Initiative to Advance Next Generation RISC-V Chips and Software Solutions for HPC
- Eliyan Ports Industry's Highest Performing PHY to Samsung Foundry SF4X Process Node, Achieving up to 40 Gbps Bandwidth at Unprecedented Power Levels with UCIe-Compliant Chiplet Interconnect Technology
- Arteris Selected by GigaDevice for Development in Next-Generation Automotive SoC With Enhanced FuSa Standards
E-mail This Article | Printer-Friendly Page |