Abstract: The present disclosure relates to a method for use with an electronic design. Embodiments may include receiving, at a graphical user interface, an indication of a desired wire creation associated with an electronic design and determining a plurality of routing solutions, based upon, at least in part, the desired wire creation. Embodiments may further include simultaneously displaying the plurality of routing solutions at the graphical user interface, wherein a predicted preferred routing solution is graphically emphasized. Embodiments may also include receiving a selection from a user, at the graphical user interface, of one of the plurality of routing solutions and storing the selection for subsequent use.
Abstract: Embodiments include herein are directed towards a method for use in an electronic design environment is provided. Embodiments may include receiving a printed circuit board schematic and one or more electronic circuits. Embodiments may further include automatically generating, one or more circuit templates based upon, at least in part, the printed circuit board schematic and one or more electronic circuits. The one or more circuit templates may be stored at an electronic design database. Embodiments may also include receiving a current printed circuit board schematic and automatically determining whether a subcircuit of the current printed circuit board schematic is an exact or approximate match with the one or more circuit templates.
Abstract: Various embodiments provide for quarter-rate data sampling with loop-unrolled decision feedback equalization (DFE) that uses a two-summer (e.g., two-summing node) approach. For example, some embodiments provide for quarter-rate data sampling comprising a plurality of unrolled first-tap DFE loops, and two summers and a two-to-one multiplexer for each of the other tap loops used for direct feedback (e.g., second tap, third tap, fourth tap, etc.
Abstract: A system for performing operations including accessing an integrated circuit design that includes a clock tree interconnecting a clock source to a plurality of clock sinks. The operations include receiving a request to adjust a current timing offset of the clock tree to a target timing offset. The clock tree is modified by moving a terminal of the group from a first location in the clock tree to a second location in the clock tree to generate an updated clock tree. During modification, the first and second locations are analyzed to determine a load reduction and increase at the respective terminals. One or more neighboring clock tree instances are adjusted to compensate for the load reduction and increase. The operations include providing an indication that the clock tree has been updated and complies with the target timing offset.
Abstract: Embodiments include herein are directed towards a method for use in an electronic design environment is provided. Embodiments may include receiving, using a processor, an initial data set associated with an electronic design and performing a built in self-discovery (BISD) analysis based upon, at least in part, the initial data set. Embodiments may include displaying, at a graphical user interface, a plurality of tiered, user-selectable options and receiving a user input corresponding to a selection of at least one of the plurality of tiered, user selectable options. Embodiments may also include tuning the plurality of tiered user selectable options based upon, at least in part, the user input.
Type:
Grant
Filed:
February 11, 2021
Date of Patent:
June 7, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Jonathan Robert Fales, Joshua David Tygert, Rwik Sengupta, Timothy H. Pylant
Abstract: The present disclosure relates to a method for use with an electronic design. Embodiments may include performing, using a processor, an electronic design process on a portion of an electronic design. Embodiments may also include automatically monitoring the electronic design process on a periodic basis using a pulse monitor to acquire one or more sampling results and storing the one or more sampling results. Embodiments may further include providing, during the electronic design process, the one or more sampling results to a graphical user interface.
Type:
Grant
Filed:
June 3, 2021
Date of Patent:
May 31, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Wei-Cheng Chen, Yuan-Kai Pei, Yu-Chi Su
Abstract: An integrated circuit (IC) design is accessed from a database in memory. The IC design comprises an initial buffer tree for a net in the IC design. A maximum cost constraint for rebuffering the net is determined based on the initial buffer tree. A partial rebuffering solution is generated for net and a cost associated with the partial rebuffering solution is determined. Based on determining the cost of the partial rebuffering solution satisfies the maximum cost constraint, the partial rebuffering solution is saved in a set of partial rebuffering solutions for the net. A set of candidate rebuffering solutions for the net is generated based on the set of partial rebuffering solutions, and a rebuffering solution for the net is selected from the set of candidate rebuffering solutions. The database is updated to replace the initial buffer tree in the IC design with the rebuffering solution selected for the net.
Abstract: The present disclosure relates to a method for use with an electronic design. Embodiments may include receiving an electronic design having a plurality of objects associated therewith. Embodiments may further include allowing, at a graphical user interface, a user to define at least one user-refined filter selected from the group consisting of an instance pin filter, a library cell instance filter, a clock pin filter, and a net filter. Embodiments may also include generating one or more constraints based upon, at least in part, the user-refined filter.
Abstract: The present disclosure relates to a computer-implemented method for routing in an electronic design. Embodiments may include receiving, using at least one processor, global route data associated with an electronic design as an input and generating detail route data, based upon, at least in part, the global route data. Embodiments may further include transforming one or more of the detail route data and the global route data into at least one input feature and at least one output result of a deep neural network. Embodiments may also include training the deep neural network with the global route data and the detail route data and predicting an output associated with a detail route based upon, at least in part, a trained deep neural network model. Embodiments may also include generating routing information for each routing grid.
Abstract: The present disclosure relates to a computer-implemented method for mixed signal design verification. Embodiments may include receiving, using a processor, an electronic circuit design and compiling and elaborating the electronic circuit design. Embodiments may also include simulating the electronic circuit design and updating, during the simulating, a System Verilog User-Defined Resolution function (“SV-UDR”) associated with the electronic circuit design.
Type:
Grant
Filed:
October 1, 2020
Date of Patent:
May 17, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Nan Zhang, Chandrashekar L. Chetput, Aaron Mitchell Spratt, Joseph Leo Zielke, Jr., Rajat Kanti Mitra
Abstract: Disclosed are methods, systems, and articles of manufacture for characterizing an electronic design with efficient cell cloning. A cell instance corresponding to multiple similar cell instances in a view of an electronic design may be identified, where the cell instance is instantiated from a master parameterized cell. An analysis engine may be configured at least by associating a parameter of the master parameterized cell with multiple different parameter values respectively corresponding to the multiple similar cell instances. An analysis result including respective metric values corresponding to the multiple similar cell instances may be generated at least by performing an analysis that sweeps across the multiple different parameter values.
Abstract: A computer executable system that runs symbolic simulation with formal X-analysis along with logic simulation to determine if Xs produced in logic simulation are real or not. Simulated values in logic simulation shown to be incorrect are rectified using formal analysis results to produce X-accurate simulation results that match real hardware.
Abstract: Various embodiments provide for data sampling with loop-unrolled decision feedback equalization. In particular, some embodiments provide for an unrolled first-tap Decision Feedback Equalizer (DFE) loop that comprises parallel data samplers that each include a tri-state output.
Abstract: A high-speed multiplexor comprises a set of differential input pairs to receive and mix a set of differential input signals at a differential output node pair. The high-speed multiplexer further comprises an active inductive load pair driven by the input stage using the mixed set of differential input signals. Each active inductive load comprises a p-channel field effect transistor (pFET) device connected to one of the differential output node pairs and a resistor connected between a gate node and a drain node of the pFET device. The multiplexer further comprises a first cross-coupling capacitor connected between the gate node of a first inductive load and a second output node of the differential output node pair and a second cross-coupling capacitor connected between the gate node of a second inductive load and a first output node of the differential output node pair.
Abstract: Aspects of the present disclosure address systems and methods for clock tree synthesis (CTS). A first iteration of CTS is performed to generate an intermediate clock tree for an integrated circuit (IC) design that includes one or more macros. Target pin insertion delays (PIDs) for the one or more macros are computed based on the intermediate clock tree using a linear program. A second iteration of CTS is performed using the target PIDs for the one or more macros to generate an optimized clock tree for the IC design.
Type:
Grant
Filed:
December 31, 2020
Date of Patent:
May 3, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Dirk Meyer, Ben Thomas Beaumont, Zhuo Li
Abstract: The present disclosure relates to a computer-implemented method for electronic design is provided. Embodiments may include receiving, using at least one processor, an electronic design having one or more unoptimized nets. Embodiments may further include applying a genetic algorithm to the electronic design, wherein the genetic algorithm includes a multi-stage routing analysis. A first stage analysis may apply a device-level global routing analysis, a second stage analysis may include an intra-row routing analysis, a third stage may include an inter-row routing analysis, and a fourth stage may include a post-routing optimization analysis. Embodiments may also include generating an optimized routing of the one or more unoptimized nets and displaying the optimized routing at a graphical user interface.
Type:
Grant
Filed:
January 4, 2021
Date of Patent:
March 15, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Weifu Li, Elias Lee Fallon, Supriya Ananthram, Weiyi Qi, Sheng Qian
Abstract: An approach is described for a method, system, and product, the approaching includes a multi-cloud orchestrator that manages interfacing with multiple cloud service providers on behalf of a user. In some embodiments, the multi-cloud orchestrator includes a client interface layer for each cloud provider supported where each supported cloud provider is associated with a set of management data for tracking transfers and a set of mapping data for scheduling sequences of commands to satisfy user requests. In some embodiments, the process is tightly coupled with an electronic design system and that client side and circuit verification and processing tools in cloud provider provided computing environments.
Type:
Grant
Filed:
September 30, 2019
Date of Patent:
March 15, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Ashok Taneja, Yateesh Chandraiah, Tarak N. Ray
Abstract: The present disclosure relates to a computer-implemented method for electronic design is provided. Embodiments may include receiving, using at least one processor, an electronic design schematic and an electronic design layout and analyzing, via machine learning, at least one schematic feature from a pair of devices associated with the electronic design schematic. Embodiments may further include determining, based, at least in part, upon the analyzing, whether the pair of devices should be grouped together.
Type:
Grant
Filed:
July 26, 2019
Date of Patent:
March 15, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Wangyang Zhang, Elias Lee Fallon, Regis R. Colwell, Hua Luo, Namita Bhushan Rane
Abstract: Disclosed is an approach to implement multi-die concurrent placement, routing, and/or optimization across multiple dies. This permits the multiple dies to be modeled as a single 3D space. Instead of being limited to a 2D plane, a cell can be placed to the area of any of the dies without splitting the netlist beforehand.
Type:
Grant
Filed:
February 12, 2020
Date of Patent:
March 15, 2022
Assignee:
Cadence Design Systems, Inc.
Inventors:
Liqun Deng, Pinhong Chen, Richard M. Chou, Chin-Chih Chang, Miao Liu, Yufeng Luo
Abstract: The present disclosure relates to an apparatus and method for continuous time linear equalization. Embodiments include determining, using a decision feedback equalization (“DFE”) training block, a voltage value for one or more resistor values. Embodiments may further include determining, using the DFE training block, a voltage value for one or more capacitor values and identifying a voltage difference between the voltage value for one or more resistor values and the voltage value for one or more capacitor values. Embodiments may further include iteratively performing the determining of the voltage value and identifying of the voltage difference for each of the plurality of capacitor values until the voltage difference is at one or more minimum values to generate one or more optimal resistor and capacitor coefficients for a continuous time linear equalization filter.