VaST Systems Technology Corporation is driving deeper into the embedded systems design supply chain with expanded standards support in CoMET6.
The new version of its flagship virtual system prototyping solutions includes greater interoperability through Native IEEE 1666 SystemC and OCP-IP TL2.
With native support, SystemC functions are executed directly on the CoMET6 simulation kernel, resulting in full IEEE 1666 SystemC compliance and ultra-fast simulation speed.
CoMET6 direct mapping of OCP-IP TL2 constructs improves bus communications performance by 4x for models using OCP-IP TL2.
The CoMET6 Eclipse framework, with help from strategic developers like IBM, Intel, Nokia and Wind River, is quickly becoming the de facto industry standard development platform and framework for embedded system design tools.
"OCP-IP has shipped many thousands of copies of our TLM work over the years and we are particularly proud of their quality and ongoing progression," said Ian Mackintosh, President OCP-IP.
"CoMET6 direct mapping of OCP-IP TL2 constructs will further enhance communications performance for models using OCP-IP TL2 reducing time to market, development costs and risk."
Through Eclipse, CoMET6 supports customer-developed and third-party Eclipse plug-ins, allowing tighter integration's with customer-specific design tools and flows. Together these improvements deliver high performance and standards-based interoperability.
The CoMET6 virtual-platform editor (VPE), a platform entry and analysis user interface, speeds specification, configuration and debug of the virtual system prototype.
VPE is a hierarchical block-based capability complementing existing tree-, table- and HTML-based interfaces.
Linux support:
CoMET6 supports Linux and has the same functionality, look and feel across Windows and Linux, allowing customers to select whichever operating system they prefer.
"CoMET6 s mix of high performance, support for standards and interoperability, and new user interfaces enable VaST customers to achieve even greater levels of productivity," said Jeff Roane, VaST's Vice President of Marketing.
Multi-core systems on chip (SoCs) are quickly becoming the norm in wireless and consumer applications. In wireless, for instance, the combination of ARM and StarCore processors is prevalent.
CoMET6 features run-time improvements for multi-core design that deliver linear run-time performance vs. the number of cores.
With CoMET6 designers can accurately analyse and optimise architecture and software for power. With battery life a critical constraint for consumer and wireless devices, power must be managed at each stage of the design flow.
CoMET6 provides a customisable cycle-accurate event-based power calculator that enables power analysis and optimisation of both the architecture and software.
Interoperability:
CoMET6 enables virtual system prototypes to drive hardware implementation and verification through HDL co-simulation.
The initial release of CoMET6 supports Mentor Graphics ModelSim VHDL; subsequent releases will support additional simulators such as ModelSim Verilog, Cadence Incisive HDL Simulator and Synopsys VCS.