Unity Bus Planner
Critical bus planning
Bus planning is a critical design function. The initial floorplanning phases of any design are the block placement, then power-grid planning, followed by bus planning and repeater-cell insertion. Engineer's need accurate parasitics for the critical datapaths to use in dataflow simulations as early in the design cycle as possible.
Manually planning critical bus structures is painstaking and error-prone. Internally developed tools are difficult to maintain and not suitable for the automation required by larger chips.
Unity Bus Planner improves productivity and design quality, by allowing engineers to plan each bus as a single design object. Unity Bus Planner automates detailed signal wire and repeater cell insertion. Vastly increasing productively and removing errors from the design process.
Fast and Flexible
Unity Bus Planner combines the speed and structure of digital design methods with the flexibility of a custom design solution. It is the first and only automated product to provide an easy, GUI-driven, guide-based methodology for interactive planning and routing of many hundreds of large buses with 1000+ bits per bus, along with their associated repeater cells. With the interactive and automated capabilities of Unity Bus Planner, designers can complete bus and repeater-cell planning in minutes or hours rather than in days or weeks.
Unity Bus Planner automatically selects and sizes repeater cells to optimize timing. Unity Bus Planner also incorporates Pulsic DRC-correct, automated detailed routing for buses and repeater cells, which providing designers with instant feedback on whether a bus route meets design rules. Unity Bus Planner quickly accommodates changes to the netlist and recreate the previously defined buses and repeater-cell configurations automatically.
Converge on a floorplan solution quickly through fast implementation analysis of global congestion due to buses and critical signals
Obtain early access to parasitics data (SPF file) for critical datapath simulations
Interleave multiple buses to allocate routing resources efficiently through the same physical location
Bus-route planning: interactive planning for the paths (location and layer) of up to several hundred buses with 1000+ bits per bus
Bus interleaving: interleaving the of segments of buses, primarily controlled by the relative position of guide segments
Bus routing: executing the bus route plan down to detailed routing
Repeater-cell plan generation: selection and optimization of the repeater cells for a bus