Maximizing Performance and Energy Efficiency
Cadence Virtuoso, in collaboration with Arm, provides optimized solutions for Arm-based system-on-chip (SoC) designs. By leveraging Cadence's digital and mixed-signal design methodologies and Arm's processors like Cortex-A, Cortex-R, and Cortex-M, designers can achieve superior performance, power efficiency, and area optimization. This partnership streamlines the design and verification processes, making it easier to create products such as IoT devices, mobile phones, high-performance servers, and embedded applications.
Accelerate Arm-Based SoC Designs
One of the key benefits of using Cadence Virtuoso for Arm-based SoC designs is the accelerated development process. Cadence offers highly optimized tool flows that enhance performance, reduce power consumption, and optimize the area footprint of the design. This optimization leads to better overall system performance and energy efficiency. Additionally, Cadence speeds up the design and verification processes specifically tailored for Arm-based architectures, ensuring faster time-to-market for SoC products.
Comprehensive Offerings for Arm-Based Designs
Cadence's offerings for Arm-based designs encompass a wide range of solutions, from digital and mixed-signal design IP to verification flows and IP integration. The collaboration extends to include Arm products such as Mali GPUs, CoreLink System IP, Artisan Physical IP, and more. With a focus on IP interoperability and verification, Cadence ensures that SoC integrators have the tools and support necessary to create cutting-edge solutions for various applications.
Driving Innovation in the Automotive Industry
The partnership between Arm and Cadence extends into the automotive industry, addressing key trends like electrification, ADAS, and autonomation. By leveraging Cadence's Safety Solution and Arm's Functional Safety Program, the companies aim to deliver custom silicon solutions that meet the stringent safety requirements of next-generation vehicles. This collaboration emphasizes the importance of hardware/software co-development, cloud-native software, and functional safety in shaping the future of automotive technology.