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Cadence Releases Industry's First Wide I/O Memory Controller IP Solution
SAN JOSE, CA-- March 28, 2011 - Cadence Design Systems, Inc. (NASDAQ: CDNS), a leader in global electronic design innovation, today announced that it is first to market with a licensable, wide I/O memory controller core, along with an integration environment, that brings PC-like performance to mobile applications like smartphones and tablets. Enabling up to four times the performance of conventional memory interfaces, the Cadence wide I/O interface not only meets the performance metrics of the proposed specification, but includes unique optimizations such as traffic reordering and several low-power features that lead to better overall system operation. Complemented by memory models, verification IP (VIP) and a sophisticated 3D IC design methodology, the wide I/O IP lowers the risk and overall cost of SoC design. "We understand that customers not only need robust IP, but also require sophisticated technologies and methodologies for successful integration into a design," said Vishal Kapoor, vice president of marketing for the SoC Realization Group at Cadence. "The Denali acquisition has given us access to over a decade of experience in advanced memory and storage controller IP. When combined with our exceptional 3D IC technologies and services, we give mobile designers a holistic, proven approach to the development of differentiated SoCs that meet the unique space, performance and power requirements of mobile systems." According to Cadence, the IP is already in use by a high-profile customer on two separate projects. Wide I/O, a memory interface standard in review at JEDEC, defines a 512-bit wide interface to dramatically increase the bandwidth between memory and logic. The interface operates at a peak data transfer rate of 12.8 gigabytes per second (GB/s), which is up to four times the performance of conventional low-power memory solutions. The wide I/O interface allows a large array of low-cost and low-power connections between an application processor and the DRAM stacked on top of it. The result is a system that can achieve higher bandwidth with less power while also meeting the goals of reduced PCB area and component height. As a result, it is critical that designers also have access to advanced 3D IC assembly and design methodologies. Differentiated Features Optimize Power and Performance at the System-level The Cadence wide I/O interface also goes beyond the proposed low-power metrics of the standard, offering additional power-saving features such as "traffic sensing," which automatically adjusts the power consumption based on the type of traffic. The IP has been designed to support operation at multiple frequencies, and allows designers to implement advanced power-control techniques, such as dynamic voltage and frequency scaling (DVFS), to reduce power even further. A flexible and configurable design allows the memory controller IP to be custom-fit for each SoC, further reducing time-to-market and risk. Applying EDA360 Vision to Wide I/O and 3D IC Design A 3D IC approach also requires expertise in all aspects of design, from digital and analog circuitry to packaging and PCB design layout. Offering digital, mixed-signal and analog end-to-end flows, as well as advanced PCB layout expertise, Cadence offers the holistic approach required to successfully integrate the wide I/O interface onto an SoC. The wide I/O IP and integration platform are an important step toward achieving the EDA360 vision outlined by Cadence last year. The vision states that semiconductor companies can no longer just provide component IP, but must deliver solutions that ensure smooth integration of that IP into SoCs. The solution enables customers to move toward a key tenet of the vision, called SoC Realization, which seeks to ease IP integration and enable customers to realize SoCs with reduced risk and cost. Availability About Cadence
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