The present application discloses a verification platform for a system on chip and a verification method thereof, the method comprises: constructing a simulation verification environment for the system on chip; creating a bus function model unit, and binding the bus function model unit to the same interface at which a central processing unit being connected to the bus; creating an Universal Verification Methodology test instance, and performing the Universal Verification Methodology test instance by the bus function model unit to implement the system on chip test; creating a plurality of software test instances; and compiling the software test instances, and performing the compiled software test instances by the central processing unit to implement the system on chip test.

The present application discloses a verification platform for a system on chip and a verification method thereof, the method comprises: generating, by an Universal Verification Methodology test instance, constrained random parameters and random controls, and storing them to a storage area of a bus function model unit; reading, by a software test instance, the random parameters and the random controls through the central processing unit, and configuring a test of the system on chip; storing execution status information of the software test instance in the storage area; reading, by the Universal Verification Methodology test instance, the execution status information, and adjusting constraint condition for generating random parameters and random controls based on the execution status information to exclude having been tested scenarios, and converting the execution status information into coverage data for coverage analysis.

A system and method for adding interface protection to an electronic design using parameters. The electronic design and interface protection scheme are defined as parameters. An interface protection model creates interface protection implementation parameters that describe the implementation details of the interface protection. A hardware description model uses the electronic design parameters and the interface protection implementation parameters to create a hardware description. The interface protection scheme can be a built-in protection scheme, a user defined scheme, a scheme that includes place holders that the user may define later, and a combination of the preceding. The interface protection scheme may contain components to help with the retiming of the description of hardware.

A method and apparatus for identifying net text in a net list at each hierarchical level of the net list is disclosed. The identified net text is then associated with the hierarchical level in which the net text was found. Each cell in the net list can then be optimized by exploding the net list of at least one cell. Once exploded, the identified net text together with the associated hierarchical level of each progeny cell of each exploded cell is associated with the net list of the exploded cell.

Systems and methods are disclosed that implement a tool for executing performance-aware topology synthesis of a network, such as a network-on-chip (NoC). The tool is provided with network information. The tool uses the network information to automatically determine data width and clock speed for each element in the network that meet the network's constraints and performance requirements. The tool is able to provide the performance-aware topology synthesis rapidly, while honoring the objectives and the network's constraints.

A clock sweeping system includes multiple delay elements and a selection circuit. The delay elements are configured to generate multiple delayed clock signals. Each delay element is configured to receive an input signal and delay the input signal to generate a corresponding first delayed clock signal. The input signal is one of a first clock signal, a second clock signal, and a corresponding output signal generated by a previous delay element. The selection circuit is configured to select and output, based on a first select signal for a plurality of times, a corresponding second delayed clock signal as a first output clock signal. The selection circuit is further configured to select and output, based on a second select signal, one of the first and second clock signals as a second output clock signal. The first output clock signal is asynchronous with respect to the second output clock signal.

A system and method for generating a context block using system parameters. The system parameters include objective parameters, functionality parameters, and interface definitions. Context field definitions are received. The system parameters and context fields definitions may be used to determine context fields and context entries. The system parameters may be used to determine context fields and number of context entries. The context module hardware description may be created using context fields, number of context entries, and context field definitions.

An system-on-a-chip (“SoC”) is provided. In some examples, the SoC includes a processor and a plurality of timer circuit blocks including at least a first timer circuit block and a second timer circuit block. Each of the plurality of timer circuit blocks may be selectively coupled by at least one of a first programmable matrix and a second programmable matrix. In some examples, the first programmable matrix may be configured to couple a second trigger input of the first timer circuit block with a first trigger output of the second timer circuit block. In some examples, the second programmable matrix is configured to couple a second fault input of the first timer circuit block with a first fault output of the second timer circuit block.

System and methods are disclosed to qualify networks properties and that can be used for topology synthesis of networks, such as a network-on-chip (NoC). In accordance with various embodiments and different aspects of the invention, quality metric are generated, analyzed, and used to determine a quantitative quality set of values for a given generated solution for a network. The method disclosed allows the network designer or an automated network generation process to understand if the results produced are a good, an average or a bad solution. The advantage of the invention includes simplification of design process and the work of the designer by using quality metrics. Various quality metrics are generated using network definitions. These quality metrics provide quality evaluation and the quality assessment of the optimization process for a generated (optimized) network. The quality metrics include analyzing latency through a network and analyzing total wore length used by the network.

A system and method for adding interface protection to an electronic design using parameters. The electronic design and interface protection scheme are defined as parameters. An interface protection model creates interface protection implementation parameters that describe the implementation details of the interface protection. A hardware description model uses the electronic design parameters and the interface protection implementation parameters to create a hardware description. The interface protection scheme can be a built-in protection scheme, a user defined scheme, a scheme that includes place holders that the user may define later, and a combination of the preceding. The interface protection scheme may contain components to help with the retiming of the description of hardware.