“Our customers demand low-cost turnkey touch screen module solutions that provide advanced functionality without increased power consumption,” said Mr. Dongjin Min, Chief Technical Officer of Melfas. He added, “The Magma software provides the capabilities we need to reduce turnaround time, area and power of our mixed-signal SoCs. The reference flow and Magma tools’ proven ability to streamline integration of ARM Cortex-M series processors into complex designs gave us greater confidence in achieving silicon success.”
Touch screen controllers offer more flexibility than buttons and are increasingly being used in mobile phones, personal media players, digital cameras, navigation devices, home appliances and more,” said Mr. Premal Buch, General Manager of Magma’s Design Implementation Business Unit. He added, “In consumer applications such as these, minimizing IC cost and power consumption and accelerating development cycles are critical requirements. Melfas’ decision to adopt the Magma software demonstrates its ability to address these challenges.”
Talus: Fastest Path to Silicon™ for Low-Cost, Low-Power Chips
The Talus platform provides a comprehensive, integrated RTL-to-GDSII flow for low-power, low-cost chip design. Talus RTL is a full-chip synthesis environment that enables rapid development of RTL and chip-level constraints throughout the design process. Talus Vortex performs timing optimization concurrently during routing – rather than sequentially before and after place and route – providing faster overall design closure with better performance and predictability. When used in conjunction, Talus RTL and Talus Vortex dramatically shorten turnaround time without sacrificing design quality and improve designer productivity. Talus Power Pro supports power optimization techniques required in low-power designs, including multiple voltage domains, which enable the optimal tradeoff between performance, area and power, and clock gating for dynamic power reduction. Talus Power Pro supports both the UPF and CPF standards for power intent.
FineSim SPICE: Fast and Accurate Simulation
FineSim SPICE is a SPICE-level simulation analysis tool that incorporates transistor-level simulation analysis capabilities for mixed-signal and analog designs. FineSim SPICE is a full SPICE simulation engine with distributed processing that enables customers to simulate large-scale mixed-signal system chips at the transistor level. By providing increased speed and capacity while maintaining full SPICE accuracy, FineSim SPICE enables designers to simulate advanced circuits – such as PLLs, ADCs (analog-to-digital converters), DACs (digital-to-analog converters) and gigahertz SERDES (SERializer/DESerializer) – that they previously would not even attempt using slower traditional SPICE simulators.