Abstract: Some examples described herein relate to routing in routing elements (e.g., switches). In an example, a design system includes a processor and a memory, storing instruction code, coupled to the processor. The processor is configured to execute the instruction code to model a communication network among switches interconnected in an array of data processing engines (DPEs), generate routes for an application on the modeled communication network, and translate the routes to a file. Each DPE includes a hardened processor core, a memory module, and one or more of the switches. Each switch includes an input or output port that is capable of being shared by multiple routes. Port(s) of each switch are modeled as respective node(s). Generating the routes includes using an A* algorithm that includes a congestion costing function based on a capacity of respective nodes in the modeled communication network and a cumulative demand for the respective nodes.

Abstract: Implementing a circuit design can include generating an integer linear programming (ILP) formulation for a routing problem by determining constraints for implementing nets of a circuit design within a programmable network-on-chip (NOC) of an integrated circuit, wherein the constraints include placement constraints and routability constraints for the nets. The nets can be simultaneously placed and routed by executing an ILP solver using a processor to minimize an objective function of the ILP formulation while observing the constraints. The ILP solver maps logical units of the nets to interface circuits of the programmable NOC concurrently with mapping the nets to channels of the programmable NOC.

Abstract: The present patent document relates to a method and apparatus for an automatic clock to enable conversion for FPGA-based prototyping systems. A library or netlist is provided having a plurality of state elements of a chip design to be prototyped by a user. The chip design can have dozens of different user clocks and clock islands using these different user clocks. The state elements of an element library or netlist are converted to a circuit having one or more state elements and other logic that receive both a user clock as well as a fast global clock. With the disclosed transformations, the functionality of the original state element is maintained, and a single or low number of global clocks can be distributed in an FPGA of the prototype with user clocks generated locally on the FPGA.

Abstract: A method and apparatus for generating user clocks in a prototyping system is disclosed. A prototyping system has a plurality of programmable logic chips that are each programmed with one or more partition of a prototyped circuit design. For a circuit design having multiple user clock signals, each partition uses some or all of the user clocks. A reference clock signal is externally generated, and received by each of the programmable logic chips. Using a phase-locked loop, a plurality of in-phase higher frequency clock signals are generated from the reference clock signal. The user clock signals are then generated from these higher frequency signals using a plurality of divider circuits. Reset circuitry implemented in one of the programmable logic chips transmits a common reset signal to the divider circuits, maintaining the phase relationship of each user clock across the programmable logic chips.