摘要:
Method and system for equivalence checking of a low power design are disclosed. The method includes receiving a register-transfer level (RTL) netlist representation of a circuit, receiving a power specification file for describing power requirements of the circuit, creating a low power gate netlist for representing a design implementation of the circuit using the RTL netlist and the power specification file, creating a reference low power RTL netlist for representing a design specification of the circuit using the RTL netlist and the power specification file, and performing equivalence checking between the low power gate netlist and the reference low power RTL netlist. The method further includes annotating low power information described in the power specification file into the reference low power RTL netlist, and creating low power logic in the reference low power RTL netlist.
摘要:
Method and system for equivalence checking of a low power design are disclosed. The method includes receiving a register-transfer level (RTL) netlist representation of a circuit, receiving a power specification file for describing power requirements of the circuit, creating a low power gate netlist for representing a design implementation of the circuit using the RTL netlist and the power specification file, creating a reference low power RTL netlist for representing a design specification of the circuit using the RTL netlist and the power specification file, and performing equivalence checking between the low power gate netlist and the reference low power RTL netlist. The method further includes annotating low power information described in the power specification file into the reference low power RTL netlist, and creating low power logic in the reference low power RTL netlist.
摘要:
Method and system for verifying power specifications of a low power design are disclosed. The method includes receiving a register-transfer level (RTL) netlist representation of the low power design, receiving a power specification file for describing power requirements of the low power design and verifying the power specification file in accordance with the RTL netlist representation of the low power design. The method further includes verifying completeness, compatibility, and consistency of power requirements for the low power design.
摘要:
Method and system for verifying power specifications of a low power design are disclosed. The method includes receiving a register-transfer level (RTL) netlist representation of the low power design, receiving a power specification file for describing power requirements of the low power design and verifying the power specification file in accordance with the RTL netlist representation of the low power design. The method further includes verifying completeness, compatibility, and consistency of power requirements for the low power design.
摘要:
A method for implementing a single file format for power-related information for an IC comprising: providing a circuit design in at least one design file in a non-transitory computer readable storage device; providing power-related design information in a file in the computer readable storage device that is separate from the at least one design file and that specifies multiple power domains within the circuit design, each power domain including one or more design object instances from within the circuit design and that specifies multiple power modes each power mode corresponding to a different combination of on/off states of the multiple specified power domains and that specifies isolation behavior relative to respective power domains; and using a computer to add power control circuitry to the circuit design that implements the power domains and power modes and isolation behavior specified in the power specification information.
摘要:
A method of adding power control circuitry to a circuit design at each of an RTL and a netlist level comprising: demarcating multiple power domains within the circuit design; specifying multiple power modes each power mode corresponding to a different combination of on/off states of the multiple demarcated power domains; and defining isolation behavior relative to respective power domains.
摘要:
A method of adding power control circuitry to a circuit design at each of an RTL and a netlist level comprising: demarcating multiple power domains within the circuit design; specifying multiple power modes each power mode corresponding to a different combination of on/off states of the multiple demarcated power domains; and defining isolation behavior relative to respective power domains.
摘要:
A method of adding power control circuitry to a circuit design at each of an RTL and a netlist level comprising: demarcating multiple power domains within the circuit design; specifying multiple power modes each power mode corresponding to a different combination of on/off states of the multiple demarcated power domains; and defining isolation behavior relative to respective power domains.
摘要:
Using a vector-based emulation technique, a hardware-based prototyping system reduces time-consuming recompilation and reduces the iteration time for a verification run. The vector-based emulation technique takes advantage of information derived from user-defined probe points, automatically generated probe points and low-latency snapshots. Using a bounded-cycle simulation technique, the hardware-based prototyping system can provide complete or partial simulation traces covering interested signals and can efficiently evaluates assertions. A user is therefore able to debug in a real system test and to identify causes of fault conditions interactively under a controlled vector debugging environment.
摘要:
A method for verifying a logic circuit in a prototyping system includes (a) configuring programmable logic circuits of the prototyping system to implement the logic circuit and to implement probe circuits for accessing internal nodes of the logic circuit; (b) preparing emulation vectors for use in a vector emulation of the logic circuit in the prototyping system; (c) setting one or more vector substitution points; (d) preparing one or more packet vectors at each vector substitution point for replacing emulation vectors in the vector emulation; (e) performing the vector emulation using the emulation vectors until one of the vector substitution points is reached; and (f) substituting packet vectors for the corresponding emulation vectors at vector substitution point and continuing the vector emulation.