Overview
Optimized for power and area, our line-up of SerDes PHYs, delivering maximum performance and flexibility.
The 28 Gbps Multi-Protocol SerDes (MPS) PHYs are comprehensive IP solutions that deliver enterprise-class performance across the challenging signaling environments typical of networking and server systems. With high performance and multi-protocol compatibility, the PHYs support data rates from 1.25Gbps to 28.1Gbps across copper and backplane channels with more than 30dB channel insertion loss in a wide range of industry-standard interconnect protocols. They feature application-specific optimization enabled by an efficient and scalable architecture with adaptive and programmable receive equalization, and support for transmit FIR adaptation. The 28G MPS are designed with a system-oriented approach, taking the interface, interconnect and channel into account when optimizing performance and features to maximize flexibility in today's most challenging system environments and applications. This makes the PHYs ideal for many long-reach, copper and backplane enterprise environments.
Provider
Cadence Design Systems, Inc.
HQ:
USA
If you want to achieve silicon success, let Cadence help you choose the right IP solution and capture its full value in your SoC design. Cadence® IP solutions offer the combined advantages of a high-quality portfolio, an open platform, a modern IP factory approach to quality, and a strong ecosystem.
Now you can tackle IP-to-SoC development in a system context, focus your internal effort on differentiation, and leverage multi-function cores to do more, faster.
The Cadence IP Portfolio includes silicon-proven Tensilica® IP cores, analog PHY interfaces, standards-based IP cores, verification IP cores, and other solutions as well as customization services for current and emerging industry standards. The Cadence IP Factory provides you with an automated approach to the customization, delivery, and verification of SoC IP. As a result, you can spend more time on differentiation, with the assurance that you'll meet your performance, power, and area requirements.
Choosing Cadence IP enables you to design with confidence because you have more freedom to innovate your SoCs with less risk and faster time to market.
Learn more about Video Processing IP core
This paper describes an FPGA-based high-definition video processing platform. The platform supports a wide range of applications including flat-panel TV, projection TV and video monitor.
Configurable Processors for Video Processing SOCs
Programmable FPGA devices are the perfect choice for interfacing with multiple high-resolution image sensors simultaneously...
A look at the design of multiprocessor systems-on-chips (MPSoCs) for video applications and how to optimize them for computational power and real-time performance as well as flexibility. Part 1: Architectural approaches to video processing
Building a high-performance, quad-channel H.264 encoder using low-cost, low-power FPGA architecture.
Adding to its growing portfolio of licensable silicon IP subsystems, ARC has announced five configurable video processing subsystems. The subsystems range from the smallest-size AV 402V to the highest-performance AV 417V, and support multi-standard video encoding and decoding at resolutions ranging from CIF to D1.