NVM OTP NeoBit in Maxchip (180nm, 160nm, 150nm, 110nm, 90nm, 80nm)
Synopsys Expands Synthesis-Based Test Technology to Increase Designer Productivity
Unveils Plan to Accelerate Implementation of Higher Quality, Lower Cost Test
MOUNTAIN VIEW, Calif., Nov. 1, 2010 -- Synopsys, Inc. (Nasdaq: SNPS), a world leader in software and IP for semiconductor design, verification and manufacturing, today announced plans to expand test technology embedded in Synopsys' RTL synthesis to address the need for higher defect coverage, lower test cost and faster yield analysis while simultaneously minimizing the impact on design goals and project schedules. Design teams currently using Synopsys' RTL synthesis and test solution are able to quickly implement compression to lower digital logic test costs, handle pin-limited test methodologies and execute on-chip testing of high-speed blocks like USB and PCI Express® cores. Commencing today and continuing over the next twelve months, Synopsys is rolling out expanded synthesis-based test technology to provide defect coverage of embedded memories, lower test cost significantly with higher compression for pin-limited test and extremely large designs, and enable designers to rapidly analyze defective silicon devices. As with Synopsys' widely-deployed DFTMAX™ compression, the new test technology will enable designers to achieve optimal quality-of-results and eliminate time-consuming iterations between design and test.
"Our ongoing collaboration with Synopsys has produced several widely adopted, leading-edge test technologies such as managing power of the device on the tester and high defect coverage using a limited number of pins," said Roberto Mattiuzzo, Design For Excellence manager in Technology R&D - Central CAD and Design Solutions at STMicroelectronics. "We continue to work together on more technology embedded in synthesis to further increase our test quality, control test costs and allow us to quickly analyze defective silicon under very tight schedules."
"Synopsys delivers test technology that keeps pace with our evolving requirements," said Bruce Fishbein, director of engineering at Cavium Networks. "As our designs become larger and more complex, test technology based on synthesis for defect coverage of digital logic will allow our designers to be more productive and continue to deliver high quality silicon on time."
Testing complex chips requires embedding dedicated test logic throughout the entire design. Implementing this test logic outside the synthesis flow adversely impacts design characteristics such as performance and power consumption, leading to iterations between synthesis and test that lengthen project schedules. In contrast, Synopsys' solution implements test within RTL synthesis to minimize the impact on design power, timing and area, accelerating convergence on both design and test goals. Synopsys is expanding this synthesis-based test technology to further increase designer productivity, improve quality and lower cost across all areas of manufacturing test and yield analysis, including the following:
Memory Test and Repair – In widespread use today, the DesignWare™ STAR Memory System delivers high-coverage test and repair of embedded memories. Synopsys plans tighter integration with synthesis-based test to ensure fast turnaround time and maximum scalability.
Higher Compression – To accommodate the need for even lower test cost for pin-limited methodologies as well as extremely large designs, Synopsys will provide higher compression utilizing synthesis-based technology to maximize designer productivity.
Faster Yield Analysis – New integration between TetraMAX® ATPG and Yield Explorer yield analysis will enable designers to rapidly debug defective parts from a relatively small number of wafers.
"Our customers constantly need to shorten their schedules and improve throughput for all aspects of design and test," said Antun Domic, senior vice president and general manager of Synopsys' Implementation Group. "To address this need, we are expanding our synthesis-based test technology to further increase the productivity gains, test quality and test cost savings designers achieve with Synopsys' solution."
About Synopsys
Synopsys, Inc. (Nasdaq:SNPS) is a world leader in electronic design automation (EDA), supplying the global electronics market with the software, intellectual property (IP) and services used in semiconductor design, verification and manufacturing. Synopsys' comprehensive, integrated portfolio of implementation, verification, IP, manufacturing and field-programmable gate array (FPGA) solutions helps address the key challenges designers and manufacturers face today, such as power and yield management, system-to-silicon verification and time-to-results. These technology-leading solutions help give Synopsys customers a competitive edge in bringing the best products to market quickly while reducing costs and schedule risk. Synopsys is headquartered in Mountain View, California, and has approximately 70 offices located throughout North America, Europe, Japan, Asia and India. Visit Synopsys online at http://www.synopsys.com/.
|
Synopsys, Inc. Hot IP
Synopsys, Inc. Hot Verification IP
Related News
- Synopsys Unveils New Synthesis-Based Test Technology Delivering Up to 3X Higher Compression
- Synopsys Expands Verification IP Portfolio with Compliance Test Suites
- Freescale and Synopsys Announce Multi-year Strategic Collaboration Agreement to Increase Verification Productivity
- LogicVision Partners With Prover Technology to Increase SOC Designer Productivity
- MIPS Expands RISC-V Ecosystem Support to to Enable Early Software Development for Multi-threaded Cores
Breaking News
- Arm loses out in Qualcomm court case, wants a re-trial
- Jury is out in the Arm vs Qualcomm trial
- Ceva Seeks To Exploit Synergies in Portfolio with Nano NPU
- Synopsys Responds to U.K. Competition and Markets Authority's Phase 1 Announcement Regarding Ansys Acquisition
- Alphawave Semi Scales UCIe™ to 64 Gbps Enabling >20 Tbps/mm Bandwidth Density for Die-to-Die Chiplet Connectivity
Most Popular
E-mail This Article | Printer-Friendly Page |